Department of Electronics

Dr. Babasaheb Ambedkar Marathwada University | Official Website

Department of Electronics

About Department

The Department of Electronics is committed to nurturing next-generation talent through cutting-edge academic programs, experiential learning, and translational research. Presently, the Department offers two flagship academic programs:

1. B.Sc. (Hons) Electronics :Apprenticeship-Embedded / Research Degree Programme (AERDP)

A unique and forward-looking four-year Honors degree program, designed to meet the growing demands of both industry and research in advanced electronics. Students pursue a Major in Industrial Electronics and a Minor in either Sensor Technology or Energy Storage Devices.

A distinctive feature of this program is the experiential fourth year, which offers two transformative tracks:

  • Industry Apprenticeship Track:A full-year (fourth year) apprenticeship placement in a relevant industry under the National Apprenticeship Promotion Scheme (NAPS), in addition to a mandatory six-month apprenticeship during the third year. This track equips students with real-world experience, technical skills, and an understanding of industrial workflows—bridging the gap between classroom learning and workplace application.
  • Research Track in Sensor Technology:A full-year research-intensive training pathway, enabling students to engage in advanced problem-solving in Sensor Technology, mentored by leading researchers. Alongside, students complete a six-month mandatory industry apprenticeship in the third year, ensuring practical grounding even within the research stream.

This Honors program is designed not only to create employable graduates but also to groom future researchers and innovators in high-impact areas like automation, sensing technologies, and energy systems.

2. M.Sc. Electronics :Two-Year Postgraduate Degree Programme

Introduced in 2016-17, this program was launched in response to the long-standing demand for an advanced degree in Electronics at the University campus. It offers a well-structured, Choice-Based Credit System (CBCS) curriculum that allows students to tailor their learning paths towards either research or industry-oriented careers.

Postgraduate laboratories are equipped with state-of-the-art facilities, offering hands-on exposure to modern domains such as robotics, industrial networking, flexible automation, and discrete electronics. The curriculum is enriched with advanced electives that keep pace with emerging global technologies and trends.

Synergy with RUSA-Centre for Advanced Sensor Technology (CAST)

The Department is co-located with the RUSA-Centre for Advanced Sensor Technology (CAST)—a premier research centre supported by the Government of Maharashtra. This strategic proximity allows students to be immersed in a dynamic research ecosystem from day one, providing access to high-end instrumentation, interdisciplinary collaborations, and real-world project opportunities.

Our Commitment

With a young, dynamic, and committed faculty, the Department of Electronics is redefining teaching and research with student-centric, innovation-driven approaches. We are proud to offer an environment that fosters creativity, critical thinking, and career readiness in both academic and industrial domains.

We invite you to explore our academic and research programs, experience the enriching atmosphere of our green and serene campus, and become part of a vibrant community shaping the future of electronics. Welcome to the Department of Electronics—where innovation meets impact.

Admissions Research

Department insights

History

Established in 2017, the Department of Electronics offers a cutting-edge two-year Master of Science (M.Sc.) program in Electronics, with a specialized focus on Sensor Technology. The curriculum is meticulously crafted within a comprehensive and innovative framework, ensuring students receive top-tier education and training in this rapidly evolving field.

Despite significant advancements in education over the past decades, there is an increasing crisis in producing truly capable professionals to meet the growing demands across various work sectors. This has resulted in a widening gap between the supply and demand for skilled manpower in teaching institutions, R&D organizations, and industries. The inadequacy in knowledge acquisition and dissemination has led to rising unemployment among post-graduates, who are often forced to undergo additional training to become marketable. A scientifically designed framework at the postgraduate level is urgently needed to equip students to meet the challenges of a demand-driven socio-economic landscape. Such a course should be versatile, allowing students to pursue diverse career options. This program aims to produce skilled manpower in Electronics, with a focus on Sensor Technology, thereby enhancing employment opportunities for the students in both the private and public sectors.

There is often a significant gap between academic learning and the practical demands of the real world, leaving graduates underprepared for the complexities of their professions. Recognizing this challenge, the Department Electronics is committed to bridging this divide by providing a comprehensive educational experience that integrates theoretical knowledge with real-world applications. This is achieved through a multifaceted approach: embedding industry-relevant / research oriented projects into the curriculum, fostering partnerships with leading Research Institutes, and offering internships that provide hands-on experience. The department Electronics emphasizes experiential learning, where students engage in simulations, case studies, and collaborative projects that mirror actual workplace scenarios. By cultivating critical thinking, problem-solving skills, and professional competencies, the department ensures that students are not only knowledgeable but also adaptable and ready to excel in their careers from day one.

Furthermore, the program aims to equip students with lifelong independent and reflective learning abilities, fostering continuous growth and adaptability throughout their careers.

The Department of Electronics is dedicated to equipping students with the skills and knowledge necessary for cutting-edge research. With a strong emphasis on fostering analytical thinking and innovative problem-solving, the department provides a robust foundation in research methodologies and advanced technologies. Students are encouraged to engage in interdisciplinary projects and collaborative efforts, gaining hands-on experience that prepares them for the complexities of real-world research environments. Through mentorship, access to state-of-the-art facilities, and a curriculum designed to challenge and inspire, the department aims to cultivate the next generation of leading researchers and scholars.

Vision and Mission

Vision

To structure the Department of Electronics to be an Epitome of Excellence in Research & Development the area of Sensor Technology, Semiconductor Devices, Mechatronics, and Industrial Communication by creating and imparting time responsive Quality Education to address Changing Scenario, keeping Research and Development at its core, for ‘Anyone’ at ‘Anytime’ and ‘Anywhere’.

Mission

  • Provide a platform for the students with broad spectrum of diversity to achieve Academic Excellence with in-built Employability in the area of Sensor Technology, Semiconductor Devices, Mechatronics, and Industrial Communication.
  • Establish a unique learning environment to enable the students to face the challenges in the area of Sensor Technology, Semiconductor Devices, Mechatronics, and Industrial Communication.
  • Identify the gaps between academics and industry, design the courses to impart technical and life skill as per the requirements of the region so as to improve employability and develop entrepreneurial capabilities.
  • Adopt a perennial process for bringing in excellence in teaching pedagogy by providing ICT based state-of-the-art infrastructural facilitation.
  • Provide student centric learning environment and to establish platform for inclusive research leading to the development of creative thought process amongst research scholars keeping in mind societal needs.
  • Establish centre of excellence in the area of Electronics devices (viz. Sensors, Sensor Networks, semiconductor devices, photovoltaic devices etc) to nurture innovative ideas shaping into products facilitating the spinoff and creating awareness to protect Intellectual Property (IP).
  • Provide ethical and value based education by promoting activities addressing the societal needs.

Objectives

Program Objectives -B.Sc. (Hons) Electronics

Apprenticeship-Embedded / Research Degree Programme (AERDP)

The B.Sc. (Hons) Electronics program is designed to prepare students for dynamic careers in industry, research, and higher education through a unique blend of theoretical foundation, practical skills, and experiential learning. The key objectives of the program are to:

  1. Impart strong foundational knowledge in Industrial Electronics, Sensor Technology, and Energy Storage Devices, enabling students to address real-world challenges across sectors such as manufacturing, automation, clean energy, and smart systems.
  2. Foster hands-on skills and workplace readiness through a structured apprenticeship model under the National Apprenticeship Promotion Scheme (NAPS), including a 6-month industry apprenticeship in the 3rd year and a full-year experiential track in the 4th year (either through extended apprenticeship or research in sensor technology).
  3. Develop the ability to analyze, design, and integrate electronic systems, with exposure to industrial tools, standards, and practices relevant to current and emerging technologies.
  4. Prepare students for higher studies, research pathways, or entrepreneurial ventures by building capabilities in problem-solving, critical thinking, and innovation.
  5. Cultivate professional ethics, communication skills, and teamwork abilities, enabling graduates to contribute effectively both as individual professionals and collaborative team members in interdisciplinary settings.
  6. Instill a commitment to lifelong learning, sustainability, and social responsibility, empowering students to adapt and lead in a rapidly evolving technological landscape.
Program Objectives -M.Sc. Electronics

The Master of Science in Electronics program is designed to develop competent, forward-looking professionals who are ready to contribute meaningfully across academia, research, and industry. The key objectives of the program are to:

  1. Equip graduates with contemporary and application-driven knowledge in areas such as Sensor Technology, Semiconductor Devices, Mechatronics, and Industrial Communication, empowering them to meet the interdisciplinary demands of R&D organizations, higher education institutions, and modern industrial automation.
  2. Provide a strong foundation in advanced electronics, enabling graduates to effectively engage in system design, development, and integration across sectors including research laboratories, industrial setups, and government agencies.
  3. Prepare students to pursue higher studies,research, and innovation, and to excel in academic and professional careers by fostering analytical thinking and problem-solving abilities.
  4. Cultivate the ability to work independently and in collaborative environments, communicating effectively in technical and professional settings using modern engineering tools and platforms.
  5. Instill a commitment to lifelong learning,with a deep awareness of the ethical, societal, and environmental impact of their work, shaping them into responsible professionals with a sustainable and productive career outlook.

HOD's Desk

Prof. Mahendra D.Shirsat

Professor & Head

View Short Biodata    View Detail Biodata

Ph.D (Physics), PDF (UCR, USA), NIH Fellow (USA), Visiting Scientist (Wollongong University, Australia), MCA (Eng. & Tech.)

Phone No. (office): 0240-2403290

Mobile No. : 9422291987

E-mail : head.electronics@bamu.ac.in

shirsat

News & Announcements

Courses / Programs

Master of Science in Electronics
Program Outcome

Contact

Professor & Head, Department of Electronics

RUSA Centre for Advance Sensor Technology,
Dr. Babasaheb Ambedkar Marathwada University,
Aurangabad, Pincode - 431 004

Email : head.electronics@bamu.ac.in, mdshirsat@gmail.com

Cell : 9422291987

Head : 0240-2403290 (HOD)

Office : 0240-2403290

Fax : 0240-2403113

Courses/Programs
Admissions
Faculty / Staff
Facilities
Research
Alumni
Achievements
Photo Gallery
Courses/Programs
  1. Bachelors of Science in Electronics (Honours) Apprenticeship Embedded Research Degree Programs (AERDPs)
  2. Master of Science In Electronics
Course Structure
  1. Bachelors of Science in Electronics (Honours) Apprenticeship Embedded Research Degree Programs (AERDPs)

    2. A Four-year full time Graduate degree program

    View NEP-2020 Curriculum
  2. Master of Science In Electronics

    3. A two-year full time Post Graduate degree program

    View NEP-2020 Curriculum
B.Sc. Electronics Syllabus

Admissions

Admission Instructions for B.Sc./M.Sc.Programs
  • In response to the advertisement published in leading newspapers and on the University website during the last week of May, interested candidates must register online through the University portal: https://bamuadm.samarth.edu.in/index.php/registration/user/register
  • Applicants must submit their applications online, including complete academic details.
  • Admission will be granted based on the marks obtained in the qualifying examination.
  • The list of selected candidates will be displayed on the University website as well as on the notice board of the respective Department.
    Documents Required at the Time of Admission (Originals and/or Attested Copies):
      1. Valid Photo ID Proof (Aadhaar Card / Voter ID / Driving License as per Government of India norms)
      2. SSC (Class 10) Certificate – Proof of Date of Birth
      3. SSC and HSC Mark Sheets
      4. All Semester Grade/Mark Sheets of the Qualifying Examination (for M.Sc. applicants)
      5. Degree Certificate / Provisional Certificate, if degree is already awarded (for M.Sc. applicants)
      6. Transfer Certificate (Original)
      7. Degree Certificate (for M.Sc. applicants)
      8. Caste Certificate and Validity Certificate (if applicable)
      9. Parent(s) Income Certificate
      10. Domicile Certificate
      11. Non-Creamy Layer Certificate (for OBC, NT-2, NT-3 candidates)
  • Candidates coming from other universities must submit their Original Migration Certificate.

Eligibility

B.Sc. (Electronics) – AERDP Program

Bachelor of Science in Electronics (Honours)

Apprenticeship Embedded Research Degree Program (AERDP)

A four-year full-time undergraduate degree designed to integrate academic learning with hands-on industrial training and research exposure.

  • Candidates who have successfully completed 12th Science (HSC), MCVC, or a 2-year ITI in a relevant trade are eligible for admission
M.Sc. (Electronics)
M.Sc (Electronics) Eligibility

Master of Science in Electronics

A two-year full-time undergraduate degree aimed at providing advanced theoretical knowledge and practical skills in modern electronics with focus of research in Sensor Technology and Energy Storage Devices .

  • B.Sc. degree with Electronics, Physics, or Computer Science as one of the optional subjects.
  • B.Sc. in Electronics / Electronic Science / Physics, Bachelor of Computer Science (BCS), or B.Voc. in Industrial Automation
  • B.E. / B.Tech. in Electronics & Telecommunication (E&TC), Electronics, Electrical Engineering, or Instrumentation Engineering

Intake /Reservations

  • Bachelors of Science in Electronics (Honours) (AERDPs): 40 Students annually
  • Master of Science in Electronics : 20 Students annually
  • Reservation will be as per the norms of Government of Maharashtra State

Course/ Program Fee

  • Bachelors of Science in Electronics (Honours) (AERDPs): Rs.28,020 per year
  • Master of Science in Electronics : Rs.20,000 per year

Scholarships

G. O. I. Scholarship for students from SC/ST/NT/DNT/OBC categories

Important Dates

Schedule
Sr.No. Activity Proposed Dates*

1.

Admission Announcement

 5th June 2025

2.

Online Registrations

 5th June to 30th June 2025

3.

Last date of document submission to the Department

5th July 2025

4.

Last date of documents verifications by the Department

14th July 2025

5.

Declaration of General Merit List

17th July 2025

6.

Last date of Submission of Grievance on General Merit List

19th July 2025

7.

Declaration of Final General Merit List

 21st July 2025

8.

Declaration of First Merit List

22nd July 2025

9.

Confirmation of Admission – First Merit List

 23rd July to 24th July 2025

10.

Declaration of Second Merit list (Against Vacant Seats)

 26th July 2025

11.

Confirmation of Admission – Second Merit List

 28th July to 29th July 2025

12.

Spot Admission (Against Vacant seats)

 31st July 2025
Name Specialization

Prof. Mahendra D. Shirsat

Prof. & Head

Qualification: Ph.D (Physics), PDF (UCR, USA), NIH Fellow (USA)

Email: mdshirsat@gmail.com

Contact: 9422291987 / 8805496027

Short Biodata   Detail Biodata
Chemical Sensors

Ms. Poonam B. Abhale

Assistant Professor (Contractual)

Qualification: ME (ETC)

Email: abhale.poonam@gmail.com

Contact: 8600265547

Resume
Electronics telecommunication

Ms. Shital D. Sane

Assistant Professor (Contractual)

Qualification: ME (ETC)

Email: shitalsanepawar@gmail.com

Contact: 7020907024

Resume
Electronics telecommunication
Facilities Available
Sr.No Equipment/Trainer Kits
1Phase shift oscillator kits
2Wein bridge oscillator kits
3Voltage controlled oscillator kits
4Thevenin's trainer kits
5Maximum power transfer kits
6Norton's theorem kits
78086 Microprocessor Kits
88086 Microprocessor Kits Interfacing Cards: LED, LCD, Relay, DAC, ADC, Keyboard
9SCR Trainer Kits
10DIAC Trainer Kits
11TRIAC Trainer Kits
12TRIAC Trainer Kits
13Window Comparator Trainer Kits
14MOSFET Trainer Kits
15Displacement amplifier trainer kits
16Instrumentation amplifier trainer kits
17Power Supply
18Bit 8051 Embedded development board Model LGS51-DVK
19Four Probe Make: Model DFP 10
20Electromagnet (flat faced poles) 5EMU50T Model: CC50
21Model R-24, Revolutionary high-speed centrifuge, MAX 17300 RPM/27440 RCF and accessories.
22Model R-24, Revolutionary high-speed centrifuge, MAX 17300 RPM/27440 RCF and accessories.
23Model R-244, Angle heads- polypropylene tubes capacity 12x15ml with accessories.
24Omega Make PLC trainer JIG
25Omega Make Power Supply +/-15V 1 AMP
26PLC's Trainer kit
27IOT trainer kit
28Raspberry Pi 4 module B 4GB RAM with 32GB SD card, class with 1200mbps wireless gigabit router
29Arduino mega controller board with HC 05 Bluetooth model
30Model 2501 Optical Fiber Communication Kit.

Research Activity

Theme Sectors:
  • Sensors (Gas phase, liquid phase, bio elements)
  • Solid State Devices (Silicon alternatives, heterostructures, organic
  • Electronics, flexible electronics
  • Instrumentation (Bottom Up integration)
  • Industry solutions

Facilities : List of Equipments -
  1. Electrochemical workstation CHI660C
  2. Electrochemical workstation CHI1120C
  3. Atomic Force Microscopy (AFM) with STM and EFM and Electrochemical Cell attachments
  4. X-Ray Diffractometer
  5. Fourier Transfer infrared Spectrophotometer (FTIR) with ATR attachment
  6. Ultraviolet Spectrophotometer (UV)
  7. E-beam evaporator
  8. Thermal evaporator
  9. Mask Aligner
  10. Class 100 Laminar flow station
  11. Spin Coater
  12. Chemical Vapor Deposition (CVD) Machine
  13. Probe Station with   Optical Microscope
  14. Semiconductor parametric Analyzer
  15. Wire Bonder
  16. Automated Source-Measure Unit
  17. Computerized Dynamic Gas Sensing System
  18. 16 Channel DAQ
  19. Variable Power Ultrasonicator
  20. Hyperspectral  Imaging Spectrometer
  21. Centrifuge Machine
  22. Desiccation Cabinets
  23. Constant Temperature Bath
  24. Computerized Static Gas Sensing System
  25. Fume-Hood
  26. Annealing furnace
  27. Distillation Plant
  28. Weighing Balance
  29. Conductivity Meter
  30. Low Temperature Mantles
  31. Cyclomixer
  32. Chemical Wet Bench

Research Publication

  1. VN Narwade, GK Rahane, KA Bogle, ML Tsai, SR Rondiya, MD Shirsat, Bifunctional Supercapacitor and Photocatalytic Properties of Cuboid Ni-TMA MOF Synthesized Using a Facile Hydrothermal Approach. J. Electron. Mater. 53, 16–29 (2024).https://doi.org/10.1007/s11664-023-10766-3(Thomson Reuters Impact Factor: 2.04)
  2. Mahendra D. Shirsat and Tibor Hianik, Electrochemical Detection of Heavy Metal Ions Based on Nanocomposite Materials. J. Compos. Sci. 2023, 7(11), 473; https://doi.org/10.3390/jcs7110473(Thomson Reuters Impact Factor: 3.67)
  3. MS More, GA Bodkhe, F Singh, M Kim, MD Shirsat,  Metal–organic framework-reduced graphene oxide (Zn-BDC@rGO) composite for selective discrimination among ammofnia, carbon monoxide, and sulfur dioxide. Appl. Phys. A 129, 828 (2023). https://doi.org/10.1007/s00339-023-07103-0. (Thomson Reuters Impact Factor: 2.7)
  4. Abhaysinh S. Khune, Vikky Padghan, Rameshwar Bongane, Vijaykiran N. Narwade, B. N. Dole, Nikesh N. Ingle,  Meng-Lin Tsai, Tibor Hianik & Mahendra D. Shirsat,  Highly Selective Chemiresistive SO2 Sensor Based on a Reduced Graphene Oxide/Porphyrin (rGO/TAPP) Composite. J. Electron. Mater. 52, 8108–8123 (2023). https://doi.org/10.1007/s11664-023-10711-4. (Thomson Reuters Impact Factor: 2.04)
  5. Kamlesh B. Deore , Vijaykiran N. Narwade, Shubham S. Patil, Sachin R. Rondiya, Kashinath A. Bogle, Meng-Lin Tsai, Tibor Hianik, Mahendra D. Shirsat, "Fabrication of 3D bi-functional binder-free electrode by hydrothermal growth of MIL-101 (Fe) framework on nickel foam: A supersensitive electrochemical sensor and highly stable supercapacitor," Journal of Alloys and Compounds, vol. 958, p. 170412, 2023. (Thomson Reuters Impact Factor: 6.3)
  6. S. S. Patil, K. B. Deore, V. N. Narwade, W. P. Peng, T. Hianik, and M. D. Shirsat, "Ultrasensitive and Selective Electrochemical Sensor Based on Yttrium Benzenetricarboxylate Porous Coordination Polymer (Y-BTC) for Detection of Pb2+ from Bio-Analytes," ECS Journal of Solid State Science and Technology, vol. 12, no. 5, p. 057002, 2023. (Thomson Reuters Impact Factor: 2.48)
  7. Kamlesh B. Deore, Shubham S. Patil, Vijaykiran N. Narwade, Mahesh A. Takte, Abhaysinh S. Khune, Hamed Y. Mohammed, Maamon A. Farea, Pasha W. Sayyad, Meng-Lin Tsai and Mahendra D. Shirsat, "Chromium-benzenedicarboxylates metal organic framework for supersensitive and selective electrochemical sensor of toxic Cd2+, Pb2+, and Hg2+ metal ions: study of their interactive mechanism," Journal of The Electrochemical Society, vol. 170, no. 4, p. 046505, 2023. (Thomson Reuters Impact Factor: 4.3)
  8. More, Mayuri S ; Bodkhe, Gajanan A.; Singh, Fouran ; Dole, Babasaheb.N.; Tsai, Meng-Lin ; Hianik, Tibor ; Shirsat, Mahendra , "Chemiresistive and chem-FET Sensor: π-d conjugated metal-organic framework for ultra-sensitive and selective carbon monoxide detection," Synthetic Metals, Article vol. 296, 2023, Art no. 117357, doi: 10.1016/j.synthmet.2023.117357. (Thomson Reuters Impact Factor: 4.0)
  9. Takte, M.A.; Ingle, N.N.; Dole, B.N.; Tsai, M.-L.; Hianik, T.; Shirsat, M.D. A stable and highly-sensitive flexible gas sensor based on Ceria (CeO2) nano-cube decorated rGO nanosheets for selective detection of NO2 at room temperature. Synthetic Metals 2023, 297, 117411. (Thomson Reuters Impact Factor: 4.0)
  10. Deshmukh, Megha A. ; Park, Sang-Joon; Thorat, Hanuman N.; Bodkhe, Gajanan A. ; Ramanavicius, Arunas; Ramanavicius, Simonas; Shirsat, Mahendra D. ; Ha, Tae-Jun, "Advanced energy materials: Current trends and challenges in electro- and photo-catalysts for H2O splitting," Journal of Industrial and Engineering Chemistry, Review vol. 119, pp. 90-111, 2023, doi: 10.1016/j.jiec.2022.11.054. (Thomson Reuters Impact Factor: 6.76)
  11. Bodkhe, G.A.; Khandagale, D.D.; More, M.S.; Deshmukh, M.A.; Ingle, N.N.; Sayyad, P.W.; Mahadik, M.M.; Shirsat, S.M.; Al-Buriahi, M.; Tsai, M.-L.; Kim M, Shirsat M. D.  Ag@ MOF-199 metal organic framework for selective detection of nickel ions in aqueous media. Ceramics International 2023, 49, 6772-6779. (Thomson Reuters Impact Factor: 5.5)
  12. Maamon A.Fareaab, Hamed Y.Mohammed, Sumedh M.Shirsat, Meng-Lin Tsai, Mohammad N. Murshed, Mohamed E.EI, Sayed, Sufyan, Naji, Ahmed, Samir, Rim M.Alsharabi,Mahendra D.Shirsat,  “A novel approach for ultrafast and highly sensitive carbon monoxide gas sensor based on PEDOT/GO nanocomposite”, Materials Science in Semiconductor Processing, Volume 155, 1 March 2023, 107255 (Thomson Reuters Impact Factor : 4.6)
  13. More, M.S.; Bodkhe, G.A.; Ingle, N.N.; Singh, F.; Tsai, M.-L.; Kim, M.; Shirsat, M.D. Metal-Organic Framework (MOF)/reduced Graphene Oxide (rGO) Composite for high performance CO sensor. Solid-State Electronics 2023, 108638. (Thomson Reuters Impact Factor : 1.91)
  14. Shirsat, S.M.; Chiang, C.-H.; Bodkhe, G.A.; Shirsat, M.D.; Tsai, M.-L. High sensitivity carbon monoxide detector using iron tetraphenyl porphyrin functionalized reduced graphene oxide. Nanoscale Research Letters 2023, 18, 34. (Thomson Reuters Impact Factor : 4.7)
  15. Mane, S.S.; Joshi, G.M.; Shirsat, M.D.; Kaleemulla, S. Development of soft polymer blend for copper ion detection by electrochemical route. Journal of Applied Polymer Science 2023, 140, e53691. (Thomson Reuters Impact Factor : 3.12)
  16. Bushra Basharatali Meera, Dhruv Sharmaa, Swapnil Taka, Gauri Govardhan Bisena, Mahendra D. Shirsat, Kalpathy Ganapathy Girija and Sanjay Sanatan Ghosh, Effect of thermal annealing on an emissive layer containing a blend of a small molecule and polymer as host for application in OLEDs. RSC Adv., 2023, 13, 33668-33674, DOI: 10.1039/D3RA06271F. (Thomson Reuters Impact Factor: 4.03)
  17. DP Upasani, YN Chaudhari, HS Tarkas, SD Bagul, SR Jadkar, MD Shirsat, JV Sali. Perovskite-ICBA bulk-heterojunction thin films by slot die method: effect of microemulsion composition. J Mater Sci: Mater Electron 34, 2215 (2023). https://doi.org/10.1007/s10854-023-11617-x. (Thomson Reuters Impact Factor: 2.7)
  18. Sambare, A.A., Pawar, R. & Shirsat, M. A DFT investigation on transition metal (Co, Cr, Cu, Mn, Mo and Nb)-doped bismuth ferrite oxide (BiFeO3) for CO gas adsorption. Theor Chem Acc 142, 61 (2023). https://doi.org/10.1007/s00214-023-03000-0(Thomson Reuters Impact Factor : 2.10)
  19. H. Y. Mohammed, M. A. Farea, M. N. Murshed, V. N. Narwade, K. B. Deore, and    M. D. Shirsat, "A nickel -metal–organic framework for an efficient and stable electrode for the oxygen evolution reaction and energy storage," Materials Today: Proceedings, Article 2023, doi: 10.1016/j.matpr.2023.04.127.
  20. Datta, K.; Ghosh, P.K.; Rushi, A.; Shirsat, M. Polymeric Nanofibriller Matrix on ITO Substrate for Flexible Chemical Sensing Applications. In Proceedings of the Journal of Physics: Conference Series, 2023; p. 012047.
  21. Ghosh, P.K.; Datta, K.; Rushi, A.; Tilekar, S.; Karle, P.; Shirsat, M. Tailoring Of Poly (N-Methyl Pyrrole) Thin Film Surface With Au-Nanoparticles For Selective Sensing Of H2S. In Proceedings of the Journal of Physics: Conference Series, 2023; p. 012046.
  22. Khan, S.; Azhar, S.; Shirsat, M.; Hussaini, S.; Ashraf, I.; Anis, M. Optimizing laser induced nonlinear optical, dielectric and microscopic traits of copper sulfate crystal by glycine for photonic device applications. Inorganic Chemistry Communications 2022, 146, 110079. (Thomson Reuters Impact Factor : 3.4)
  23.  Hamed Y. Mohammed, Maamon A. Farea, Zakaria M. Ali, Sumedh M. Shirsat , Meng-Lin Tsai, Mahendra D. Shirsat, “Poly(N-methyl pyrrole) decorated rGO nanocomposite: A novel ultrasensitive and selective carbon monoxide sensor”, Chemical Engineering Journal 441 (2022) 136010 (Thomson Reuters Impact Factor : 16.744)
  24. Amogh A. Sambare, Kunal P. Datta, Mahendra D. Shirsat &  Ramkisan, S. Pawar, “Adsorption of gas molecules (CO, CO22, NO, NO22, and CH44) on undoped and Ag-doped bismuth ferrite oxide (BFO) by DFT investigation”, Journal of Materials Research volume 37, pages 4296–4311 (2022) (Thomson Reuters Impact Factor : 2.9)
  25. Pasha W.Sayyad, Kiran S.Sontakke, Aafiya A.Farooqui, Sumedh M.Shirsat, Meng-LinTsai, Mahendra D. Shirsat, “A novel three-dimensional electrochemical Cd(II) biosensor based on l-glutathione capped poly(3,4 ethylenedioxythiophene):polystyrene sulfonate/carboxylated multiwall CNT network” Journal of Science: Advanced Materials and Devices, Volume 7, Issue 4, December 2022, 100504 (Thomson Reuters Impact Factor : 7.38 )
  26. Maamon A.Farea, Hamed Y.Mohammed, Sumedh M.Shirsat, Zakaria M.Ali, Meng-Lin Tsai, I. S. Yahia, H.Y.Zahran, Mahendra D.Shirsat, “Impact of reduced graphene oxide on the sensing performance of Poly (3, 4–ethylenedioxythiophene) towards highly sensitive and selective CO sensor: A comprehensive study” Synthetic Metals Volume 291, December 2022, 117166 (Thomson Reuters Impact Factor : 4.00)
  27. Maamon A Farea, Gita B Bhanuse, Hamed Y Mohammed, Mohammed O Farea, Mohyeddine Sallam, Sumedh M Shirsat, Meng-Lin Tsai, Mahendra D Shirsat,”Ultrahigh sensitive and selective room-temperature carbon monoxide gas sensor based on polypyrrole/titanium dioxide nanocomposite” Journal of Alloys and Compounds (2022) 165397(Thomson Reuters Impact Factor : 5.31)
  28. Hamed Y. Mohammed,  Maamon A.Farea, Pasha W.Sayyad, Nikesh N.Ingle, TheeazenAl-Gahouaria, Manasi M.Mahadik, Gajanan A.Bodkhe, Sumedh M.Shirsat, Mahendra D. Shirsat, “Selective and sensitive chemiresistive sensors based on polyaniline/graphene oxide nanocomposite: A cost-effective approach”, Journal of Science: Advanced Materials and Devices, Volume 7, Issue 1, March 2022, 100391(Thomson Reuters Impact Factor : 7.382)
  29. Deshmukh, M.A.; Park, S.-J.; Thorat, H.N.; Bodkhe, G.A.; Ramanavicius, A.; Ramanavicius, S.; Shirsat, M.D.; Ha, T.-J. Advanced Energy Materials: Current Trends and Challenges in Electro-and Photo-Catalysts for H2O Splitting. Journal of Industrial and Engineering Chemistry 2022.
  30. Umesh P. Gawai, Shilpa D. Kamble, Sanjay K. Gurav, Manvendra N. Singh, Ashok K. Yadav, Shambhu N. Jha, Niranjan P. Lalla, Milind R. Bodke, Mahendra D. Shirsat, Babasaheb N. Dole, “Microwave-Assisted Coprecipitation Synthesis and Local Structural Investigation on NiO, β-Ni(OH)2/Co3O4 Nanosheets, and Co3O4 Nanorods Using X-ray Absorption Spectroscopy at Co–Ni K-edge and Synchrotron X-ray Diffraction”, ACS Omega 2022, 7, 8, 6700–670 (Thomson Reuters Impact Factor : 4.1)
  31. Bushra Basharatali Meer, Dhruv Sharma, Swapnil Tak, Hemant Sudhakar Tarkas, Gauri Govardhan Bisen, Shubham Sanjiv Patil, Jaydeep Vinayak Sali, M. D. Shirsat,  Kalpathy Ganapathy Girija & Sanjay Sanatan Ghosh, “Effect of Phosphorescent and TADF Guests on the Absorption, Emission, and Nanoscale Morphological Properties of Thin Emissive Layer” Braz J Phys 52, 121 (2022). https://doi.org/10.1007/s13538-022-01125-4 (Thomson Reuters Impact Factor : 4.9)
  32. Simonas Ramanavicius, Megha A.Deshmukh, Roxana-Mihaela Apetrei, Almira Ramanaviciene, Ieva Plikusiene, Inga Morkvenaite-Vilkonciene, Hanuman N.Thorat, Mahendra D. Shirsat, “Chapter 15 - Conducting polymers—versatile tools in analytical systems for the determination of biomarkers and biologically active compounds”, The Detection of Biomarkers Past, Present and the Future Prospects 2022, Pages 407-434
  33. Deshmukh, Megha A, Thorat, Hanuman N. , Shirsat, Mahendra D., Ramanavicius, Arunas, “ Engineered nanostructures: an introduction”,Engineered Nanostructures for Therapeutics and Biomedical Applications, Pages 1 - 431 January 2022
  34. Hamed Y. Mohammed, Maamon A. Farea, Nikesh N. Ingle, Pasha W. Sayyad, Theeazen Al‑Gahouari, Manasi M. Mahadik, Gajanan A. Bodkhe, Sumedh M. Shirsat and Mahendra D. Shirsat, “Review—Electrochemical Hydrazine Sensors Based on Graphene Supported Metal/Metal Oxide Nanomaterials”, Journal of The Electrochemical Society, Volume 168, Number 10 (106509) (2021)  (Thomson Reuters Impact Factor : 4.386)
  35. Maamon A. Farea, Hamed Y. Mohammed, Pasha W. sayyad, Nikesh N. Ingle,  Theeazen Al‑Gahouari, Manasi M. Mahadik, Gajanan A. Bodkhe, Sumedh M. Shirsat &  Mahendra D. Shirsat, “Carbon monoxide sensor based on polypyrrole–graphene oxide composite: a cost-effective approach”, Applied Physics A volume 127, Article number: 681 (2021)  (Thomson Reuters Impact Factor : 2.983)
  36. SM Shirsat, GA Bodkhe, MM Sonawane, BW Gawali, MD Shirsat, “Multivariate Analysis of a Cobalt Octaethyl Porphyrin-Functionalized SWNT Microsensor Device for Selective and Simultaneous Detection of Multiple Analytes, Journal of Elec Materi 50, pages 5780–5787(2021). https://doi.org/10.1007/s11664-021-09111-3 (Thomson Reuters Impact Factor : 2.77)
  37. Nikesh N. Ingle, Sumedh Shirsat, Pasha Sayyad, Gajanan Bodkhe, Harshada Patil, Megha Deshmukh, Manasi Mahadik, Fouran Singh, Mahendra Shirsat, “Influence of swift heavy ion irradiation on sensing properties of nickel-(NRs-Ni3HHTP2) metal-organic framework” J Mater Sci: Mater Electron 32, 18657–18668 (2021). https://doi.org/10.1007/s10854-021-06353-z (Thomson Reuters Impact Factor : 2.04)
  38. Pasha W.Sayyad, Aafiya A.Farooqui, Nikesh N.Ingle, TheeazenAl-Gahouari, Gajanan A.Bodkhe, Manasi M.Mahadik, Sumedh M.Shirsat, Mahendra D.Shirsat, “High carrier mobility and environmentally stable microporous zeolite imidazolate framework (ZIF-67): A field-effect transistor (FET) approach”, Chemical Physics Letters, Volume 776, August 2021, 138690 (Thomson Reuters Impact Factor : 2.719)
  39. Maamon A.Fareaab,Hamed Y. Mohammed,  Nikesh N.Ingle, Theeazen Al-Gahouaria, Manasi M.Mahadik, Gajanan A.Bodkhe, Mahendra D.Shirsat, “Hazardous gases sensors based on conducting polymer composites: Review”, Chemical Physics Letters, Volume 776, August 2021, 138703 (Thomson Reuters Impact Factor : 2.719)
  40. Theeazen AL-Gahouari, Pasha Sayyad,  Gajanan Bodkhe, , Nikesh Ingle, Manasi Mahadi, Maamon Farea, Hamed Mohammed, Sumedh Shirsat & Mahendra Shirsat , “Resolution improvement for anodic stripping signals of lead and detached indium from reduced graphene oxide/indium tin oxide (rGO/ITO) electrode using bromide ion”, Applied Physics A volume 127, Article number: 326 (2021) (Thomson Reuters Impact Factor : 2.983)
  41. Mahendra Dashrath Shirsat, Bhaskar R. Sathe and Pankaj Madhukar Koinkar, “Editorial: Smart Materials for Energy Conversion and Sensor Based Technologies”, Front. Mater., 25 March 2021 | https://doi.org/10.3389/fmats.2021.626397 (Thomson Reuters Impact Factor : 3.9)
  42. Mahadik Manasi, Bodkhe Gajanan, Ingle Nikesh, Sayyad Pasha, Al-Gahouari Theeazen, Kunal Dutta, Shirsat Sumedh and Shirsat Mahendra, “Ethylenediaminetetra Acetic Acid Functionalized Polyaniline Nanowires: Organic Field Effect Transistor for the Detection of Hg2+”,  Journal of Elec Materi (2021), https://doi.org/10.1007/s11664-020-08723-5 (Thomson Reuters Impact Factor : 2.4)
  43. Ingle Nikesh, Sayyad Pasha, Megha Deshmukh,  Bodkhe Gajanan, Mahadik Manasi, Al-Gahouari Theeazen, Shirsat Sumedh and Shirsat Mahendra, “A chemiresistive gas sensor for sensitive detection of SO2 employing Ni-MOF modified –OH-SWNTs and –OH-MWNTs”,  Applied Physics A: Materials Science and Processing, (2021), 127(3), 157 (https://doi.org/10.1007/s00339-021-04288-0) (Thomson Reuters Impact Factor : 2.04)
  44. Sayyad, P.W., Ansari, T.R., Ingle, N.N., ...Shirsat, S.M., Shirsat, M.D., “L-Cysteine peptide-functionalized PEDOT-PSS/rGO nanocomposite for selective electrochemical detection of lead Pb(II) ions”, Applied Physics A: Materials Science and Processing, 2021, 127(5), 381 (Thomson Reuters Impact Factor : 2.983)
  45. Al-Gahouari Theeazen, Sayyad Pasha,  Bodkhe, Gajanan, Ingle Nikesh, Mahadik Manasi, Shirsat Sumedh and Shirsat Mahendra, “Controlling reduction degree of graphene oxide-based electrode for improving the sensing performance toward heavy metal ions”,  Applied Physics A: Materials Science and Processing, (2021), 127(3), 170. (https://doi.org/10.1007/s00339-020-04199-6) (Thomson Reuters Impact Factor : 2.983)
  46. Sayyad Pasha,  Ingle Nikesh, Al-Gahouari Theeazen, Mahadik Manasi, Bodkhe, Gajanan, Shirsat Sumedh and Shirsat Mahendra, “Selective Hg2+ sensor: rGO-blended PEDOT:PSS conducting polymer OFET”, Applied Physics A: Materials Science and Processing, (2021), 127(3), 167 ( http://doi.org/ 10.1007/s00339-021-04314-1) (Thomson Reuters Impact Factor : 2.983)
  47. M. I. Baig, Mohd Anis, M. D. Shirsat, H. H. Somaily & S. S. Hussaini, Exploring linear-nonlinear optical, dielectric and microscopic traits of sulphamic acid crystal exploiting Zn2+ for photonic device applications, J Mater Sci: Mater Electron (2021). https://doi.org/10.1007/s10854-021-06197-7(Thomson Reuters Impact Factor : 2.77)
  48. Suman A. Sawant, Maqsood R. Waikar, Akash S. Rasal, Gayatri R. Chodankar, Suprimkumar D. Dhas, Annasaheb V. Moholkar, Mahendra D. Shirsat, Shiv K. Chakarvarti & Rajendra G. Sonkawade, Chemical synthesis and supercapacitive evaluation of polyaniline nanofibers (PANINFs), J Mater Sci: Mater Electron 32, 11865–11876 (2021). https://doi.org/10.1007/s10854-021-05816-7(Thomson Reuters Impact Factor : 2.77)
  49. Mohd Anis. S.M.Azher, M.D.Shirsat, Mohammed Imran Anees, Mohammed, Mukhtare, M.I.Baig, H.H.Somaily, “Comparative structural, linear-non-linear optical, laser damage threshold, dielectric and thermal analysis of pristine and L-cysteine influenced KH2PO4 crystal for NLO applications” Inorganic Chemistry Communications Volume 134, December 2021, 109019 (Thomson Reuters Impact Factor : 3.428)
  50. M.I.Baig, MohdAnis, M. D. Shirsat, A.M.Alshehri, H.H.Somaily, S.S.Hussaini, “Influence of Zn2+ on laser induced optical and electrical traits of KH2PO4 crystal for NLO device applications” Optik (2021) Volume 227, 165998 (Thomson Reuters Impact Factor : 2.840)
  51. Rajendra G.Sonkawade, Maqsood R.Waikar, Anis A.Shaikh, Mahendra D.Shirsat, YasirAli, Shiv K.Chakarvarti, “Effect of low energy Li-negative ions irradiation on electrochemically synthesized Copper nanoflakes/Polyaniline nanofibers composite thin film”, Thin Solid Films, Volume 730, 31 July 2021, 138710 (Thomson Reuters Impact Factor : 2.358)
  52. Siddique Aneesa-Fatema, Y. B. Rasal, R. N. Shaikh, M. D. Shirsat, S. S. Hussaini & R. B. Kulkarni, “Integrity in linear and nonlinear optical properties of L-tyrosine doped bis thiourea cadmium acetate single crystal ” , Ferroelectrics, Volume 573, 2021 - Issue 1  (Thomson Reuters Impact Factor : 0.695)
  53. Pasha W. Sayyad, Nikesh N. Ingle, Gajanan A. Bodkhe, Megha A. Deshmukh, Harshada K. Patil, Sumedh M. Shirsat, Fouran Singh & Mahendra D. Shirsat “Tuning the properties of Fe-BTC metal-organic frameworks (MOFs) by swift heavy ion (SHI) irradiation”, Radiation Effects and Defects in Solids, (2020)  DOI: 10.1080/10420150.2020.1825958 (Thomson Reuters Impact Factor : 1.024)
  54. Swati S Kulkarni, Gajanan A Bodkhe, Pasha W Sayyad, Megha A Deshmukh, SS Hussaini, Mahendra D Shirsat, “Optimization of Aluminium Doping Concentration in Titanium Dioxide Nanoparticles Photo Anode for Enhancing Efficiency of Dye-Sensitized Solar Cell” International Journal of Nanoscience (2020) https://doi.org/10.1142/S0219581X2050009X (Thomson Reuters Impact Factor : N/A  )
  55. Gajanan A. Bodkhe, Bhavna S. Hedau, Megha A. Deshmukh, Harshada K. Patil, Sumedh M. Shirsat, Devdatta M. Phase, Krishan K. Pandey, and Mahendra D. Shirsat, “Selective and sensitive detection of lead Pb(II) ions: Au/ SWNT nanocomposite-embedded MOF-199” J Mater Sci (2021) 56:474–487 ( Thomson Reuters Impact Factor : 3.55 )
  56. Pasha W. Sayyad, Shahebaz S. Khan1, Nikesh N. Ingle, Gajanan A. Bodkhe, Theeazen Al‑Gahouari, Manasi M. Mahadik, Sumedh M. Shirsat, Mahendra D. Shirsat, “Chemiresistive SO2 sensor: graphene oxide (GO) anchored poly(3,4‑ethylenedioxythiophene):poly(4styrenesulfonate) (PEDOT:PSS)” Applied Physics A (2020) 126:857 https://doi.org/10.1007/s00339-020-04053-9 ( Thomson Reuters Impact Factor : 2.983)
  57. Pasha W. Sayyad1, Zeeshan A. Shaikh, Nikesh N. Ingle, Theeazen Al-Gahouari, Manasi M. Mahadik, Gajanan A. Bodkhe, Sumedh M. Shirsat, and Mahendra D. Shirsat, “Simultaneous reduction of graphene oxide (GO) and formation of rGO/Gly-Gly composite for sensitive detection of Cu2+ ions” Journal of Physics: Conference Series 1644 (2020) 012001 doi:10.1088/1742-6596/1644/1/012001 ( Thomson Reuters Impact Factor : 0.54)
  58. Pasha W Sayyad, Nikesh N Ingle, Theeazen Al-Gahouari, Manasi M Mahadik, Gajanan A Bodkhe, Sumedh M Shirsat, Mahendra D Shirsat “Sensitive and Selective Detection of Cu2+ and Pb2+ Ions Using Field Effect Transistor (FET) Based on L-Cysteine Anchored PEDOT: PSS/rGO Composite” Chemical Physics Letters, (2020) 138056 ( Thomson Reuters Impact Factor : 3.71)
  59. Gajanan A Bodkhe, Bhavna S Hedau, Megha A Deshmukh, Harshada K Patil, Sumedh M Shirsat, Devdatta M Phase, Krishan K Pandey, Mahendra D Shirsat, Selective and sensitive detection of lead Pb (II) ions: Au/SWNT nanocomposite-embedded MOF-199, Journal of Materials Scienc, (2020) 1-14 (Thomson Reuters Impact Factor : 4.6)
  60. Nikesh Ingle, Pasha Sayyad, Gajanan Bodkhe, Manasi Mahadik,  Theeazen Al-Gahaouri, Sumedh M. Shirsat and Mahendra Shirsat, “ChemFET Sensor: nanorods of nickel-substituted Metal–Organic framework for detection of SO2”, Appl. Phys. A 126,  (2020) 1-9. https://doi.org/10.1007/s00339-020-03907-6 ( Thomson Reuters Impact Factor : 2.983)
  61. Manasi Mahadik, Harshada Patil, Gajanan Bodkhe, Nikesh Ingle, Pasha Sayyad,Theeazen Al-Gahaouri, Sumedh M. Shirsat and Mahendra Shirsat, “EDTA Modified PANI/GO Composite Based Detection of Hg (II) Ions”, Frontiers in Materials, April 2020 | Volume 7 | Article 81 ( Thomson Reuters Impact Factor : 3.985)
  62. Theeazen AL-Gahouari, Gajanan Bodkhe, Pasha Sayyad, Nikesh Ingle, Manasi Mahadik, Sumedh M. Shirsat, Megha Deshmukh, Nadeem Musahwar  and Mehendra Shirsat, “Electrochemical Sensor: L-Cysteine Induced Selectivity Enhancement of Electrochemically Reduced Graphene Oxide–Multiwalled Carbon Nanotubes Hybrid for Detection of Lead (Pb2+) Ions”, Frontiers in Materials, March 2020 | Volume 7 | Article 68 (Thomson Reuters Impact Factor : 3.985)
  63. Nikesh Ingle, Savita Mane, Pasha Sayyad, Gajanan Bodkhe, Theeazen AL-Gahouari, Manasi Mahadik, Sumedh Shirsat and Mahendra D. Shirsat, “Sulfur Dioxide (SO2) Detection Using Composite of Nickel Benzene Carboxylic (Ni3BTC2) and OH-Functionalized Single Walled Carbon Nanotubes (OH-SWNTs)”, Frontiers in Materials, April 2020 | Volume 7 | Article 93 ( Thomson Reuters Impact Factor : 3.985)
  64. Maqsood R.Waikar, Akash S.Rasal, Nitin S.Shinde, Suprimkumar D.Dhas, Annasaheb V.Moholkar, Mahendra D.Shirsat, Shiv K.Chakarvarti ,Rajendra G.Sonkawade, “Electrochemical performance of Polyaniline based symmetrical energy storage device”, Materials Science in Semiconductor Processing, Volume 120, December 2020, 105291( Thomson Reuters Impact Factor : 4.644 )
  65. S. N. Botewad, V. G. Pahurkar, G. G. Muley, D. K. Gaikwad, Gajanan A. Bodkhe, Mahendra D. Shirsat, P. P. Pawar “PANI-ZnO Cladding-Modified Optical Fiber Biosensor for Urea Sensing Based on Evanescent Wave Absorption”, Frontiers in Materials, June 2020 | Volume 7 | Article 184 ( Thomson Reuters Impact Factor : 3.91 )
  66. Rupali B.Kulkarni, S.S.Hussaini, Mahendra D.Shirsat, “Exploring the impressive nonlinear optical and dielectric properties of cadmium thiourea acetate crystal doped with oxalic acid”, Materials today Proceedings, Volume 23, Part 2, 2020, Pages 423-429( Thomson Reuters Impact Factor : 1.47 )
  67. Maqsood R. Waikar,  Pooja M.Raste, Rakesh K.Sonker, Vinay Gupta, Monik Tomar. Mahendra D.Shirsat, Rajendra G. Sonkawade, “Enhancement in NH3 sensing performance of ZnO thin-film via gamma-irradiation”, Journal of Alloys and Compounds, Volume 830, 25 July 2020, 154641 (Thomson Reuters Impact Factor : 6.371 )
  68. M.I.Baig, Mohd Anis, M.D.Shirsat, S.S.Hussaini, H.Algarni,  “Comparative analysis of pristine and Cd2+ influenced potassium acid phthalate single crystal for photonic device applications”,  Optik Volume 203, February 2020, 163903 (Thomson Reuters Impact Factor : 2.840 )
  69. M.I.Baig, MohdAnis, H.Algarni, M.D.Shirsat, S.S.Hussaini , “ Customizing optical and dielectric traits of ammonium dihydrogen phosphate (ADP) crystal exploiting Zn2+ ion for photonic device applications” Chinese Journal of Physics, Volume 63, February 2020, Pages 70-77 (Thomson Reuters Impact Factor : 3.957)
  70. M.I.Baig, MohdAnis, M.D.Shirsat, S.S.Hussaini, H.Algarni “Comparative analysis of pristine and Cd2+ influenced potassium acid phthalate single crystal for photonic device applications” Optik, Volume 203, February 2020, 163903 (Thomson Reuters Impact Factor : 2.840 )
  71. Gajanan A Bodkhe, Megha A Deshmukh, Harshada K Patil, Sumedh M Shirsat, Velaga Srihari, K K Pandey, Gyanendra Panchal, Devdatta M Phase, Ashok Mulchandani and Mahendra D. Shirsat “Field effect transistor based on proton conductive metal organic framework (CuBTC),  J. Phys. D: Appl. Phys. 52 (2019) 335105 (10pp) (Thomson Reuters Impact Factor : 3.409)
  72. Pankaj Koinkar, Yu Ohsumi, Akihiro Furube, Kei-Ichiro Murai, Toshihiro Moriga, Gajanan Bodkhe and Mahendra D. Shirsat “Field effect transistor behavior of Bi2Se3 nanostructure prepared by laser ablation, Modern Physics Letters B Vol. 33, No. 14n15, 1940015 (2019) (Thomson Reuters Impact Factor : 1.948)
  73. SM Azhar, SS Hussaini, M D Shirsat, G Rabbani, Mohd Shkir, S Alfaify, HA Ghramh, MI Baig, Mohd Anis “Growth and optical studies of tris (thiourea) potassium barium sulphate crystal: a novel semiorganic NLO bimetallic crystal”,   Materials Research Innovations, Volume 23, 2019 - Issue 3 (Thomson Reuters Impact Factor : 1.46)
  74. Swati S Kulkarni, SS Hussaini, Gajanan A Bodkhe, Mahendra D Shirsat, “Natural Hibiscus Dye And Synthetic Organic Eosin Y Dye Sensitized Solar Cells Using Titanium Dioxide Nanoparticles Photo Anode: Comparative Study”, Surface Review and Letters,  Vol. 26, No. 03, 1850164 (2019) (Thomson Reuters Impact Factor : 1.240)
  75. Kulkarni, R.B., Anis, M., Hussaini, S.S., Shirsat, M.D., “Illustrious influence of amino acid L-threonine (LT) on structural and optical insights of Zinc Thiourea Sulphate (ZTS) crystal”  International Journal of Modern Physics BVol. 33, No. 04, 1950010 (2019) (Thomson Reuters Impact Factor : 1.404)
  76. Kulkarni, R.B., Anis, M., Hussaini, S.S., Shirsat, M.D., “Tuning optical properties of cadmium thiourea acetate nonlinear optical crystal exploiting organic ligand of L-proline” Modern Physics Letters B, 33(01), 1850424, 2019 (Thomson Reuters Impact Factor : 1.948)
  77. S.M. Azhar, Mohd Anis, G. Rabbani, M.D. Shirsat, M.I. Baig, S.S. Hussaini, S. AlFaify, M. Ajmal Khan, “Growth of NH4H2PO4 crystal in urea environment to optimize linear-nonlinear optical traits for photonic device applications” Optik - International Journal for Light and Electron Optics 185 (2019) 1247–1252 (Thomson Reuters Impact Factor : 2.44)
  78. Megha A. Deshmukh, Gajanan A. Bodkhe, Sumedh Shirsat, Arunas Ramanavicius and Mahendra D. Shirsat, “Nanocomposite Platform Based on EDTA Modified Ppy/SWNTs for the Sensing of Pb(II) Ions by Electrochemical Method” Frontiers in Chemistry, October 2018 | Volume 6 | Article 451 (Thomson Reuters Impact Factor : 5.545)
  79. Arti Rushi, Prashant Ghosh, Kunal Dutta, Ashok Mulchandani and Mahendra D. Shirsat, “Exercising substituents in porphyrins for real time selective sensing of volatile organic compounds, Sensors and Actuators B Volume 257,March 2018, Pages 389-397  (Thomson Reuters Impact Factor : 9.221)
  80. Arti Rushi, Kunal Datta, Prasanta Ghosh, Ashok Mulchandani and Mahendra Shirsat, “Tuning Coating Thickness of Iron Tetraphenyl Porphyrin on Single Walled Carbon Nanotubes by Annealing: Effect on Benzene Sensing Performance”, Phys. Status Solidi A 2018, 1700956 (Thomson Reuters Impact Factor : 1.77)
  81. Megha A. Deshmukh, Mahendra D. Shirsat, Almira Ramanaviciene, Arunas Ramanavicius, “Composites Based on Conducting Polymers and Carbon Nanomaterials for Heavy Metal Ion Sensing (Review)”, Critical reviews in Analytical Chemistry (Taylor and Francis) Pages 1-12 | Accepted author version posted online: 08 Jan 2018, Published online: 06 Feb 2018 (Thomson Reuters Impact Factor : 5.686)
  82. Megha A. Deshmukh, Harshada K. Patil, Gajanan A. Bodkhe, Mikito Yasuzawa, Pankaj Koinkar, Almira Ramanaviciene, Mahendra D. Shirsat, Arunas Ramanavicius EDTA-modified PANI/SWNTs nanocomposite for differential pulse voltammetry based determination of Cu(II) ions”, Sensors and Actuators  B  260 (2018) 331-338 (Thomson Reuters Impact Factor : 9.221)
  83. Megha A. Deshmukh, Raimonda Celiesiute, Almira Ramanaviciene, Mahendra D. Shirsat, Arunas Ramanavicius, “EDTA_PANI/SWCNTs Nanocomposite Modified Electrode for Electrochemical Determination of Copper (II), Lead (II) and Mercury (II) Ions”, Electrochimica Acta, 259, (2018) 930-938 (Thomson Reuters Impact Factor : 7.336 )
  84. Megha A. Deshmukh, Harshada K. Patila, Gajanan A. Bodkhea, Mikito Yasuzawac, Pankaj Koinkar, Arunas Ramanaviciuse Sadhna Pandey, and Mahendra D. Shirsat EDA Modified PANI/SWNTs Nanocomposite for Determination of Ni(II) Metal Ions , Colloids and Surfaces A: Physicochem. Eng. Aspects, 537 (2018) 303–309 (Thomson Reuters Impact Factor : 5.518)
  85. Harshada K. Patil, Megha A. Deshmukh, Gajanan A. Bodkhe, Sumedh M. Shirsat,K. Asokan, Mahendra D. Shirsat, Reinforcement of polyaniline and poly-(o-toluidine) with SWNTs and tuning of their physicochemical properties by heavy ion beams, Applied Physics A (2018) 124:491 (Thomson Reuters Impact Factor : 2.983)
  86. Harshada K. Patil, Megha A. Deshmukh, Gajanan A. Bodkhe, Sumedh M. Shirsat, K. Asokan, Mahendra D. Shirsat “Dimethylglyoxime modified swift heavy oxygen ions irradiated polyaniline/ single walled carbon nanotubes composite electrode for detection of cobalt ions” Materials Research Express, Volume 5, Number 6 (Published 27 June 2018) (Thomson Reuters Impact Factor: 2.025)
  87. S. S. Kulkarni., S. S. Hussaini, Gajanan A.  Bodkhe, Sumedh M. Shirsat, S. S. Shejwal, Mahendra D.  Shirsat “Dye sensitized solar cell based on environmental friendly eosin y dye and Al doped titanium dioxide nano particles” Materials Research Express 3(3) (2018) 36205 (Thomson Reuters Impact Factor: 2.025)
  88. R. B. Kulkarni, M. Anis., S. S. Hussaini, Mahendra D. Shirsat “Transfiguring structural, optical and dielectric properties of cadmium thiourea acetate crystal by the addition of L-threonine for laser assisted device applications” Materials Research Express 5(3)  (2018) 36204 (Thomson Reuters Impact Factor : 2.025)
  89. Yogesh B Rasal, M D Shirsat & S S Hussaini, “Investigation on thiourea crystal grown in presence of ammonium acetate”, Indian Journal of Pure & Applied Physics, Vol. 56, July 2018, pp. 522-528 (Thomson Reuters Impact Factor : 0.846)
  90. Harshada K. Patil, Megha A. Deshmukh, Gajanan A. Bidkhe, Mahendra D. Shirsat, “Sensitive detection of heavy metal ions: An electrochemical approach, International Journal of Modern Physics B Vol. 32, No. 19 (2018) 1840042 (6 pages)  (Thomson Reuters Impact Factor : 1.129)
  91. Mohd Anis, M.I. Baig, G.G. Muley, G. Rabbani, M.D. Shirsat, Mohd Shkir, H.A. Ghramh, “Gamma glycine crystal for efficient second harmonic generation of 1064 nm Nd:YAG laser light”, Materials Letters 233 (2018) 238–241(Thomson Reuters Impact Factor : 3.42)
  92. R.N.Shaikh, Mohd Anis, M.D.Shirsat, S.S.Hussaini, “Systematic analysis on linear and nonlinear optical traits of citrulline doped NH4H2PO4 (ADP) crystal”, Optik - International Journal for Light and Electron Optics, Volume 154, February 2018, Pages 435-440 (Thomson Reuters Impact Factor : 2.840)
  93. S.M. Azhar, G. Rabbani, M.D. Shirsat, S.S. Hussaini, M.I. Baig, H.A. Ghramh, Mohd Anis, “ Luminescence, laser induced nonlinear optical and surface microscopic studies of potassium thiourea chloride crystal”, Optik 165 (2018) 259–265  (Thomson Reuters Impact Factor : 2.840)
  94.  S.P.Ramteke, M. I. Baig, Mohd Shkir, D. S. Kalainathan, M. D. Shirsat, G. G. Muley, Mohd Anisa, “ Novel report on SHG efficiency, Z-scan, laser damage threshold, photoluminescence,dielectric and surface microscopic studies of hybrid inorganic ammoniumzincsulphate hydrate single crystal” Optics and Laser Technology 104 (2018) 83-89 (Thomson Reuters Impact Factor : 4.93)
  95. Mohd Anis, M. I. Baig, S. S. Hussaini., Mahendra D. Shirsat, M. Shkir, H.A Ghramh.Linear and nonlinear optical analysis on semiorganic L-proline cadmium chloride single crystal” Chinese Physics B 27(4) (2018) 47801 (Thomson Reuters Impact Factor : 1.652)
  96. Gaikwad D.K., Obaid S.S., Sayyed M.I., Bhosale R.R., Awasarmol V.V., Kumar A., Mahendra D. Shirsat, Pawar P.P. “Comparative study of gamma ray shielding competence of WO3-TeO2-PbO glass system to different glasses and concretes”, Materials Chemistry and Physics 213 (2018) 508-517 (Thomson Reuters Impact Factor : 4.778)
  97. Pranjali S. Rajegaonkar, Bhakti A. Deshpande, Manjushri S. More, Shivaji S. Waghmare,Vishal V. Sangawe, Areeb Inamdar, Mahendra D. Shirsat, Nitin N. Adhapure, “Catalytic reduction of p-nitrophenol and methylene blue by microbiologically synthesized silver nanoparticles” Materials Science & Engineering C 93 (2018) 623–629(Thomson Reuters Impact Factor : 8.477 )
  98. Kunal Datta, Arti Rushi, P. Ghosh., Mahendra D. Shirsat “Comparative VOCs sensing performance for conducting polymer and porphyrin functionalized carbon nanotubes based sensors”, AIP Conference Proceedings 1953 (2018) 20002 (Thomson Reuters Impact Factor : 0.49 )
  99. Harshada. K. Patil, Megha A. Deshmukh, Gajanan A. Bodkhe, Mahendra D. Shirsat “Glassy carbon electrode modified with polyanilne/ethylenediamine for detection of copper ions”, AIP Conference Proceedings 1953 (2018) 100034 (Thomson Reuters Impact Factor : 0.49)
  100. Harshada. K. Patil, Megha A. Deshmukh, Gajanan A. Bodkhe, K. Asokan, Mahendra D. Shirsat “Spectroscopic investigations upon 100MeV oxygen ions irradiation on polyaniline and poly-o-toluidine”, AIP Conference Proceedings 1953 (2018) 100070 (Thomson Reuters Impact Factor : 0.49)
  101. Pooja C. Yadav, Harshada. K. Patil, Megha A. Deshmukh, Gajanan A. Bodkhe, Pasha W. Sayyad, Nikesh N. Ingle, Mahendra D. Shirsat “Copolymers of polyaniline and poly-o-toluidine: Electrochemical synthesis and characterization”, AIP Conference Proceedings 1953 (2018) 100058 (Thomson Reuters Impact Factor : 0.49)
  102. Megha A. Deshmukha,  Mindaugas Giceviciusa, Almira Ramanaviciene, Mahendra D. Shirsat, Roman Vitera, Arunas Ramanavicius,  Hybrid electrochemical/electrochromic Cu(II) ion sensor prototype based on PANI/ITO-electrode, Sensors and Actuators B 248 (2017) 527535  (Thomson Reuters Impact Factor :9.221)
  103. S. M. Azhar, S. S. Hussaini, M. D. Shirsat, G. Rabbani, Mohd Shkir, S. Alfaify, H. A. Ghramh, M. I. Baig & Mohd Anis, “  Growth and optical studies of tris (thiourea) potassium barium sulphate crystal: a novel semiorganic NLO bimetallic crystal”Material Research Innovation, Pages 1-6 | received 22 Aug 2017, Accepted 10 Oct 2017, Published online: 26 Oct 2017 (Thomson Reuters Impact Factor:  1.46 )
  104. Harshada K. Patil, Megha A. Deshmukh, Sumedh D. Gaikwad, Gajanan A. Bodkhe, K. Asokan, MikitoYasuzawa, Pankaj Koinkar, and Mahendra D. Shirsat,   “ Influence of Oxygen ions Irradiation on Polyaniline/Single Walled Carbon Nanotubes Nanocomposite” Radiation Physics and Chemistry 130 (2017) 4751 (Thomson Reuters Impact Factor : 2.776)
  105. Mohd Anis, S.P. Ramteke, M.D. Shirsat, G.G. Muley, M.I. Baig , “Doping effect of L-cystine on structural, UVvisible, SHG efficiency, third order nonlinear optical, laser damage threshold and surface properties of cadmium thiourea acetate single crystal, Optics and Laser Technology, 87 (2017), 11-16 (Thomson Reuters Impact Factor : 4.939)
  106. Azhar, S.M., Anis, M., Hussaini, S.S.,  Kalainathan, S, M. D. Shirsat, , Rabbani, G. Novel report on γ-glycine crystal yielding high second harmonic generation efficiency, Optical Materials  72 (2017), 590-595  (Thomson Reuters Impact Factor : 3.754)
  107. Rasal, Y.B., Shaikh, R.N., Shirsat, M.D., Kalainathan, S., Hussaini, S.S. “ Influence of bis-thiourea nickel nitrate on the structural, optical, electrical, thermal and mechanical behavior of a KDP single crystal for NLO applications” Materials Research Express ( IOP), Volume 4, Number 3 ( 2017) (Thomson Reuters Impact Factor : 2.025)
  108. Rasal Y.B., Anis M., M.D. Shirsat, Growth, structural, UVvisible, SHG, mechanical and dielectric studies of bis-thiourea zinc chloride doped KDP crystal for NLO device applicationsMaterials Research Innovations 21(1) (2017) 45-49 (Thomson Reuters Impact Factor : 1.46)
  109. S. M. Azhar, S. S. Hussaini & M. D. Shirsat, G. Rabbani, Mohs Shkir, S. Alfaify, H.A. Ghramh, M. T. Baig, Mohd Anis Growth and Optical Studies of Tris (Thiourea) pattasium barium suaphate Crystal: A Novel semiorganic NLO Bimetalic Crystal” Materials Research Innovations  (2017) Pages 1-6 | Received 22 Aug 2017, Accepted 10 Oct 2017, Published online: 26 Oct 2017 (Thomson Reuters Impact Factor : 0.473)
  110. Y. B. Rasal, Mohd Anis, M. D. Shirsat & S. S. Hussaini , Bulk growth and analysis on luminescence, third order nonlinear optical, laser damage threshold, dielectric and thermal properties of KDP crystal doped with BTZC complex Materials Research Innovations (2017) Pages 1-5 | Received 09 Mar 2017, Accepted 01 May 2017, Published online: 19 May 2017 (Thomson Reuters Impact Factor : 1.46)
  111. N.N. Shejwal, S.S. Hussaini, Ramesh B. Kamble, Mohd Anis and M.D. Shirsat, Studies on the Structural, Thermal, Fluorescence and Linear–Non-linear Optical Properties of Glycine Sodium Acetate Single Crystal for Electro-Optic Device Applications Springer Proceedings in Physics 189, DOI 10.1007/978-3-319-44890-9_45 (2017)
  112. M. A. Deshmukh, H. K. Patil, A. Ramanavicius,  and M. D. Shirsat, Electrochemical detection of Hg (II) ions using EDTA-PANI/SWNTs nanocomposite” AIP Conference Proceedings, 1832, 050084 (2017); doi: 10.1063/1.4980317 (Thomson Reuters Impact Factor :0.49)
  113. Mohd Anis, G. G. Muley, M. I. Baig, S. S. Hussaini & M. D. Shirsat,Doping effect of carboxylic acids on optical, electrical, mechanical and thermal traits of KDP crystal” Materials Research Innovations  (2017) VOL. 21, NO. 7, 439–446  (Thomson Reuters Impact Factor : 1.46)
  114. Y. B. Rasal, R. N. Shaikh, M. D. Shirsat, S. Kalainathan & S. S. Hussaini, “ The investigation of potassium tetra thiourea chloride on linear-nonlinear optical, electrical and mechanical properties of KDP crystal for NLO applications” Ferroelectrics, Pages 59-74 | Received 13 Feb 2017, Accepted 24 Aug 2017, Published online: 11 Dec 2017  (Thomson Reuters Impact Factor : 0.695)
  115. Mohd Anis, M.I.Baig, G.G. Muley, S.S. Hussaini, M.D. Shirsat, Monocrystal growth, X-ray diffraction, photoluminescence, thermal and dielectric studies of cadmium thiourea acetate complex doped with L-cystine”Optik 127 (24(2016) 12043-12047  (Thomson Reuters Impact Factor : 2.840)
  116. M. Anis,  S. S. Hussaini, M. D. Shirsat,  “A systematic study on electrical and physical properties of calcium bis-thiourea chloride crystal”, Optik 127 (2016) 97349737  (Thomson Reuters Impact Factor : 2.840)
  117. Mohd Anis, S.S. Hussaini, M.D. Shirsat, R.N. Shaikh, G.G. Muley, “Analysis on X-ray diffraction, etching, luminescence, photoconductivity, thermal and dielectric properties of ADP crystal influenced by bimetallic additive sodium metasilicate (Na2SiO3)”  Materials Research Express, 3 (2016), 106204) (Thomson Reuters Impact Factor : 2.025)
  118. N.N. Shejwal, Mohd Anis, S.S. Hussaini, M.D. Shirsat, “Investigation on Structural, UV-visible, SHG efficiency, dielectric, mechanical and thermal behavior of l-cystine doped Zinc Thiourea Sulphate Crystal for NLO Device Applications, International Journal of Modern Physics B  Vol. 30, No. 0 (2016) 1650159 (11 pages) ( DOI: 10.1142/S0217979216501599) 2016 (Thomson Reuters Impact Factor : 1.404)
  119. C.K. Dubey , V.R.Ratnaparkhe , G. A. Bodkhe, M. D. Shirsat,  “Single-walled carbon nanotube-Polyaniline/Poly Porphyrin composite for gas sensing - A mini review, Proceedings of the 3rd International Conference on Devices, Circuits and Systems, ICDCS 2016,  7570644 (2016), 141-144  
  120. M.Anis, S. S. Hussaini , M. D. Shirsat, G. G. Muley, “Investigation on nonlinear optical and dielectric properties of L-arginine doped ZTC crystal to explore photonic device applications, Materials Science- Poland, 34, (2016), 548-554 (Thomson Reuters Impact Factor 0.889 )
  121. Azhar S.M., Anis M., Hussaini S.S., M.D Shirsat., Rabbani, G., “Dielectric, etching and Z-scan studies of glycine doped potassium thiourea chloride crystal, Materials Science- Poland,  34(4), 2016, pp. 800-805 (2016)  (Thomson Reuters Impact Factor 0.889 )
  122. Shaikh R.N., Anis, M. Rabbani, G., M. D. Shirsat, Hussaini S.S., “Studies on optical, thermal, mechanical and dielectric properties of L-cysteine doped KDP crystal to explore NLO device applications”, Optoelectronics and Advanced Materials, Rapid Communications,10, (2016), 526-531 (Thomson Reuters Impact Factor : 0.556  )
  123. Azhar S.M., Anis M., Hussaini S.S., M.D Shirsat., Rabbani, G., “Comparative characterization study of pure and glycine doped potassium thiourea chloride crystal for laser frequency conversion applications”, Optik, 127, (2016), 4932-4936 (Thomson Reuters Impact Factor 2.840)
  124. Rushi, A.D., Gaikwad, S., Deshmukh, M., Patil, H.,  G. A. Bodkhe, , M. D. Shirsat, Functionalized carbon nanotubes: Facile development of gas sensor platform, AIP Conference Proceedings, 1728 (2016), 02016 (Thomson Reuters Impact Factor :0.22)
  125. M. Anis,  S. S. Hussaini, A. Hakeem, M. D. Shirsat, G. G. Muley, “Synthesis, growth and optical studies of novel organometallic NLO crystal: Calcium bis-thiourea chloride”, Optik 127 (2016) 21372142 (Thomson Reuters Impact Factor 2.840)
  126. Shaikh R.N., Anis M., M. D. Shirsat, Hussaini, S.S., Investigation on fluorescence, third order non-linear optical and mechanical performance of glycine doped ADP crystal for applications of photonic devices, Materials Technology, 31, 4 (2016), 187-191 (Thomson Reuters Impact Factor : 3.297 )
  127. M. Anis; S. S. Hussaini, M. D. Shirsat, G. G. Muley “Evaluate the effect of L-valine on linear–nonlinear optical and electrical properties of BTCA crystal to identify photonic device applications” Material Research Innovation, Volume 20, Issue 4 (2016), pp. 312-316 (Thomson Reuters Impact Factor 0.83 )
  128. Shejwal N.N., Anis M., Hussaini S.S., M. DShirsat,  “Ab-initio UV–vis, SHG efficiency, photoluminescence, dielectric, thermal and mechanical studies of pure and L-glutamine doped ZTS crystal for optoelectronics device applications”, Optik, 127 (2016), 6525-6531 (Thomson Reuters Impact Factor : 2.840)
  129. M. Anis;  M. D. Shirsat, S. S. Hussaini, B. Joshi, G. G. Muley “Effect of Sodium Metasilicate on Structural, Optical, Dielectric and Mechanical Properties of ADP Crystal”, Journal of Materials Science & Technology 32 (2016) 6267 (Thomson Reuters Impact Factor 10.319 )
  130. Kunal Datta, Prasanta Ghosh, Arti  Rushi, Ashok Mulchandani and Mahendra Shirsat, “Fe Nanoparticles Tailored Poly(N-Methyl Pyrrole) Nanowires Matrix: A CHEMFET Study in Perspective of Discrimination Among Electron Donating Analytes” J. Phys. D: Appl. Phys. 48 (2015), 1-8 (Thomson Reuters Impact Factor : 3.409)
  131. Shaikh R.N., Anis, M., M. D. Shirsat, Hussaini S.S.,Study on optical properties of L-valine doped ADP crystal”, Spectrochimica Acta - Part A: Molecular and Biomolecular Spectroscopy, 136 (2015), 1243-1248 (Thomson Reuters Impact Factor 4.831)
  132. Mohd Anis, G.G. Muley, M.D. Shirsat, S.S. Hussaini, “Single crystal growth, structural, optical, mechanical, dielectric and thermal studies of formic acid KDP crystal for NLO device applications” Cryst. Res. Technol., 50 (2015), 372-378 (Thomson Reuters Impact Factor 1.164 )
  133. R.N. Shaikh, Mohd Anis, M.D. Shirsat, S.S. Hussaini, “ Effect of L-Cysteine on optical, thermal and mechanical properties of ADP crystal for NLO application”Optics & Laser Technology, Vol. 69 (2015) 8-12 (Thomson Reuters Impact Factor :2.10)
  134. M. Anis; G. G. Muley; M. D. Shirsat; S. S. Hussaini, “Growth, linear–non-linear optical, fluorescence, thermal and electrical studies of glycine-doped bis-thiourea cadmium formate crystal for electro-optic device applications” Material Research Innovation, Volume 19, Issue 5 (August 2015), pp. 338-344 (Thomson Reuters Impact Factor : 0.83)
  135. Mohd Anis, G.G. Muley, A. Hakeem, M.D. Shirsat, S.S. Hussaini, “Exploring the influence of carboxylic acids on nonlinear optical (NLO) and dielectric properties of KDP crystal for applications of NLO facilitated photonic devices” Optical Materials 46 (2015) 517521 (Thomson Reuters Impact Factor :3.074)
  136. Mohd. Anis, R.N. Shaikh, , M.D. Shirsat and S.S. Hussaini, “ Optical, photoconductivity, dielectric and thermal studies of L-arginine doped zinc thiourea chloride crystal for photonics applications”, Materials Technology: Advanced Performance Materials, No. 3, Vol. 3 ( 2015129-133. (Thomson Reuters Impact Factor :2.997)
  137. Sumedh Gaikwad, Gajanan Bodkhe, Megha Deshmukh, Harshada Patil, Arti Rushi, Pankaj Koinkar, Yun-Hae Kim, Ashok Mulchandani, Mahendra D. Shirsat, “Conducting polyaniline nanowire electrode junction” Mod. Phys. Lett. B 29, 1540036 (2015) [5 pages] DOI: 10.1142/S0217984915400369 (Thomson Reuters Impact Factor :1.948)
  138. Sumedh Gaikwad, Gajanan Bodkhe, Megha Deshmukh, Harshada Patil, Arti Rushi, Pankaj Koinkar, Yun-Hae Kim, Ashok Mulchandani,  Mahendra D. Shirsat, “Chemiresistive sensor based on polythiophene-modified single-walled carbon nanotubes for detection of NO2Mod. Phys. Lett. B 29, 1540046 (2015) [5 pages] DOI: 10.1142/S0217984915400461 (Thomson Reuters Impact Factor :1.948)
  139. Pankaj Koinkar, Sumedh Gaikwad, Gajanan Bodkhe, Megha Deshmukh, Harshada Patil, Arti Rushi, Yun-Hae Kim, Ashok Mulchandani, Mahendra D. Shirsat, “Glucose sensor based on conducting polyaniline nanowire electrode junction”, Mod. Phys. Lett. B 29, 1540045 (2015) [4 pages] DOI: 10.1142/S02179849154004 (Thomson Reuters Impact Factor :1.948)
  140. N.N. Shejwal, Mohd Anis, S.S. Hussaini, M.D. Shirsat, “Optical, thermal and electrical properties of pure and doped bis-thiourea cadmium formate (BTCF) crystal”, Physica Scripta, 89 (2014), 125804 (7pp) ( IOP Journal)          (Thomson Reuters Impact Factor :3.081)
  141. Arti  Dinkarrao Rushi, Kunal Prasanta Datta, Prasanta Sudarson Ghosh, Ashok Mulchandani, Mahendra Dasharath Shirsat, “Selective Discrimination among BTX: Probing Metalloporphyrin Functionalized SWNTs based Field Effect Transistors” ACS  J. Phys. Chem. C 2014, 118, 2403424041     (Thomson Reuters Impact Factor :4.48)
  142. Mohd Anis, M. D. Shirsat, Gajanan Muley and  S.S.Hussaini and “Influence of formic acid on electrical, linear and nonlinear optical properties of potassium dihydrogen phosphate (KDP) crystals” Physica B : Condensed Matter (Elsevier) Volume 449, 15 September 2014, Pages 6166       (Thomson Reuters Impact Factor :2.988)
  143. Mohd Anis, R.N.Shaikh, M.D. Shirsat and S.S.Hussaini, “Investigation of optical and electrical properties of L-Cystein doped zinc thiourea chloride ( ZTC) crystal for nonlinear optical ( NLO) applications”, Optics & Laser Technology 60 (2014)            124129 (Thomson Reuters Impact Factor : 4.939)
  144. Shaikh, R N; Anis, Mohd; Gambhire, A B; Shirsat, Mahendra; Hussaini, S “Growth, optical and dielectric studies of glycine doped ammonium dihydrogen phosphate NLO crystal: potential material for optoelectronics applications” Materials Research Express ( IOP Journal1 (2014) 015016 (Thomson Reuters Impact Factor : 2.025)
  145. R.N. Shaikh, Mohd. Anis, M.D. Shirsat and S.S. Hussaini, “A study on optical, dielectric and NLO properties of L-Alanine added ammonium hydrogen phosphate Single crystal” Journal of Optoelectronics and Advanced Materials,   Vol. 16, No. 9-10, September October 2014, p. 1147 1152           (Thomson Reuters Impact Factor :0.500)
  146. R. B. Kulkarni, Mohd Anis, Yogesh Rasal, S. S. Hussaini and Mahendra D. Shirsat, “Growth, structural & optical Studies of Potassium dihydrogen phosphate (KDP) doped cadmium thiourea acetate (CTA) metal complex crystal”,  Int.J. Chem Tech Res. 2014, 6(3),pp 1571-1574            (Thomson Reuters Impact Factor :0.34)
  147. R.N.Shaikh, S.R. Mitkar, Mohd Anis, Mahendra D. Shirsat and S.S.Hussaini1“Optical Studies of Amino acids doped Ammonium Dihydrogen Phosphate (ADP) crystals for NLO Applications”,  IntJ. Chem. TechRes. 2014, 6(3), pp 1617-1620 (Thomson Reuters Impact Factor :0.34)
  148. Kunal Datta, Prasanta Ghosh, , Ashok Mulchandani, Sung-Hwan Han, Pankaj Koinkar and Mahendra D. Shirsat, “Organic Field Effect Transistors: Predictive Control on Performance Parameters”  J. Phys. D: Appl. Phys. 46 (2013) 495110 (7pp) (Thomson Reuters Impact Factor :3.409)
  149. Prasanta Ghosh, Kunal Datta, Ashok Mulchandani, Sung-Hwan Han, Pankaj Koinkar and Mahendra D. Shirsat, “Poly(o-toluidine) Nanowires Based Organic Field Effect Transistors: A Study on Influence of Anionic Size of Dopants and SWNTs as a Dopant”  J. Phys. Chem. C 2013, 117, 154141542 (Thomson Reuters Impact Factor :4.509)
  150. P Ghosh, K Datta, Ashok Mulchandani, R.G. Sonkawade, K. Asokan, and M D Shirsat “A Chemiresistive Sensor based on Conducting Polymer / SWNTs composite Nanofibrilar matrix – Effect of  100 MeV O16+ ion irradiation on Gas sensing properties”  Smart Mater. Struct. 22 (2013) 035004 (8pp) (Thomson Reuters Impact Factor :4.131)
  151. Yasir Ali, Vijay Kumar, R G Sonkawade, M D Shirsat and A S Dhaliwal, “Two step electrochemical synthesis of Au nano particles decorated polyaniline nano fiber” Vacuum, Volume 93, July 2013, Pages 7983        (Thomson Reuters Impact Factor :4.110)
  152. Arti Rushi, K Datta, P. Ghosh,  Ashok Mulchandani, and  M D Shirsat "Iron Tetraphenyl Porphyrin functionalized Single Wall Carbon nanotubes    for detection of Benzene ”  Materials Letters 96 (2013) 3841  (Thomson Reuters Impact Factor :3.574)
  153. K Datta, P Ghosh, M A More, M D Shirsat and Ashok Mulchandani “Controlled functionalization of single wall carbon nanotubes for enhanced ammonia sensing- a comparative study”   J. Phys. D: Appl. Phys. 45 (2012) 355305 (8pp) (Thomson Reuters Impact Factor :3.40)
  154. Mahendra D. Shirsat, Tapan Sarkar, James Kakoullis Jr, Nosang V. Myung, Bharatan Konnanath, Andreas Spanias and Ashok Mulchandani,”Porphyrins-Functionalized Single-Walled Carbon Nanotubes Chemiresistive Sensor Arrays for VOCs” , J. Phys. Chem. C, 2012, 116(5) pp 3845-3850 (Thomson Reuters Impact Factor :4.12)
  155. Dupare, D.B., Shirsat, M.D., Aswar, A.S.” Synthesis and characterization of polypyrrole-polyvinyl alcohol composite film with various organic acids dopants and their gas sensing behavior, Indian Journal of Chemical Technology, Volume 18, Issue 6, November 2011, Pages 446-450 (Thomson Reuters Impact Factor :0.760)
  156. Santosh B. Kadam,  Kunal Datta, Prasanta Ghosh, Mahendra D. Shirsat, “Poly(Pyrrole)-Poly(N-Methylpyrrole) Composite Matrix For Amperometric Biosensor Design” International Journal of Polymeric Materials, 60: 233-243, 2010 (Thomson Reuters Impact Factor :2.60)
  157. S. B. Kadam, K. Datta, P. Ghosh, A. B. Kadam, P.W. Khirade, Vijay Kumar, R.G. Sonkawade, A.B. Gambhire, M. K. Lande, and Mahendra D. Shirsat “Improvement Of Ammonia Sensing Properties Of Poly(pyrrole) – Poly (N-Methylpyrrole) Composite By Ion Irradiation”, Applied Physics A; Volume 100, Number 4, 1083-1088( 2010), DOI: 10.1007/s00339-010-5705-1     (Thomson Reuters Impact Factor :2.9)
  158. P. A. Savale, Kunal Datta, Prasanta Ghosh and Mahendra D. Shirsat,Synthesis and characterization of POA-PVS-DBS, POA-PVS-pTS, POA-pTS-DBS co-dopants composite films:   A comparative study”, International Journal of Polymeric Materials , Volume 59, Issue 2 February 2010 , pages 87- 97 (Thomson Reuters Impact Factor : 2.60)
  159. P. A. Savale, M. D. Shirsat, “Synthesis of poly (o-anisidine) /H2SO4 film for the development of glucose biosensor”,  Appl Biochem Biotechnol (2009) 159:299309 (Thomson Reuters Impact Factor :2.43)
  160. M.N. Rode, G.G.Muley, D.V.Meshram, S. S. Hussaini, V.G.Dongre, B.H.Pawar and M.D.Shirsat, “Growth and characterization of L-Tartaric acid doped and mixed Di-sodium hydrogen phosphate (DSHP) Single crystal for Laser applications” Optoelectronics and Advanced Materials Rapid Communications, Vol 3, No. 9 (Sept 2009927-932 (Thomson Reuters Impact Factor :0.559)
  161. S.S. Hussaini, N.R. Dhumane, V.G. Dongre and M.D. Shirsat, “Synthesis, Growth and Characterization of Non-Linear Optical Crystal: Tri-Glycine Acetate (TGAc)”, Material Science Poland, Vol 27, No 2 ( 2009)    (Thomson Reuters Impact Factor :0.77)
  162. N.R. Dhumane, S.S. Hussaini, V.G. Dongre, P. Ghugare and M.D. Shirsat “Growth and Characterization of L-Alanine doped Zinc Thiourea Chloride single crystal (ZTC)” Applied Physics : A ( 2009) 95, 727-732     (Thomson Reuters Impact Factor :2.9)
  163. Mahendra D. Shirsat, Mangesh A. Bangar, Marc A. Deshusses, Nosang V. Myung, and Ashok Mulchandani, “Polyaniline Nanowires-Gold Nanoparticles Hybrid Networks based Chemiresistive Hydrogen Sulfide Sensor” Applied Physics Letters, 94, 083502 ( 2009) (Thomson Reuters Impact Factor :3.971)
  164. N.R. Dhumane, S.S. Hussaini, V.G. Dongre, P.P. Karmuse and M.D. Shirsat, “Growth and characterization of glycine doped bis thiourea cadmium chloride single crystal”, Crystal Research Technology, 44, 3,  269274 ( 2009) (Thomson Reuters Impact Factor :1.599)
  165. A.B. Gambhire, M. K. Lande,  S. B. Kalokhe, M. D. Shirsat,  K. R. Patil, R. S. Gholap, B. R. Arbad, “Synthesis and characterization of high-surface-area Ag2O-doped SnO2 nanomaterial”, Materials Chemistry and Physics 112 (2008), 719-722 (Thomson Reuters Impact Factor :4.778)
  166. A.B. Gambhire, M. K. Lande,  S. B. Kalokhe, M. D. Shirsat,  K. R. Patil, R. S. Gholap, B. R. Arbad, “Synthesis and characterization of high surface area CeO2-doped SnO2 nanomaterial”, Philosophical Magazine Letters (2009), Vol 89, Issue 3, 213-129 (Thomson Reuters Impact Factor :1.195)
  167. M. N. Rode, S. S. Hussaini, G. Muley, B. H. Pawar, M. D. Shirsat, “Effect of thiourea on the optical properties of Di-sodium hydrogen phosphate (DSHP) single crystal” Optoelectronics and Advanced Materials Rapid Communications, Vol 2, No.12      ( December  2008855-858 (Thomson Reuters Impact Factor :0.556)
  168. N.R. Dhumane, S.S. Hussaini, V.G. Dongre and M.D. Shirsat, “Study the effect of Glycine on the nonlinear optical (NLO) properties of Zinc (tris) Thiourea Sulfate (ZTS) single crystal”, Optical Materials 31 (2008) 328332 (Thomson Reuters Impact Factor :3.754)
  169. H. J. Kharat, K. P. Kakde, P. A. Savale, K. Datta, P. Ghosh, M. D. Shirsat Development of Ppy-PVS optical fiber Ammonia sensor” Optoelectronics and Advanced Materials Rapid Communications, Vol 2, No.9 (Sept 2008108-112 (Thomson Reuters Impact Factor :0.556)
  170. S.S. Hussaini, N.R. Dhumane, V.G. Dongre, M.D. ShirsatGrowth and dielectric study of ZTC semi organic nonlinear optical (NLO) crystal for electro-optic modulation” Optoelectronics and Advanced Materials Rapid Communications, Vol 2, No. 8 (August 2008470-473 (Thomson Reuters Impact Factor :0.556)
  171. M. D. Shirsat, S.S. Hussaini, N. R. Dhumane, and V.G. Dongre, “Influence of Lithium Ion (Li+) on NLO Properties of KDP Single Crystal”, Crystal Research Technology ,  43, No. 7, 756 761 (2008) (Thomson Reuters Impact Factor :1.595)
  172. P. A. Savale, H. J. Kharat, K. Datta, P. Ghosh and M. D. Shirsat, “Development of POA/DBS/ Gox biosensor for the determination of glucose”  International Journal of Polymeric Materials, (2008) 57: 730-744           (Thomson Reuters Impact Factor : 2.60)
  173. M.D. Shirsat, P.A. Savale, “Electrochemical Synthesis and Characterization of Poly (O-anisidine) film with various dopants: Comparative study, International Journal of Polymeric Materials, (2008) 57, 506-514             (Thomson Reuters Impact Factor : 2.60)
  174. S. S. Hussaini, N. R. Dhumane, V. G. Dongrea, M. D. Shirsat, “Effect of glycine on the optical properties of Zinc Thiourea chloride (ZTC) single crystal”, Optoelectronics and Advanced Materials Rapid Communications, Vol 2, No.2 (Feb, 2008108-112 (Thomson Reuters Impact Factor :0.556)
  175. Mahendra D. Shirsat, Chee O. Too and Gordon G. Wallace, “Amperometric glucose biosensor on layer by layer assembled carbon otentio and polypyrrole multilayer film”, Electroanalysis, 20, (2008), No. 2, 150 156 (Thomson Reuters Impact Factor :3.077)
  176. P.A. Savale, D.J. Shirale, K. Datta, P. Ghosh and M.D. Shirsat, “Synthesis and characterization of poly (O-anisidine) films under galvanostatic conditions by using ECP technique” International Journal of  Electrochemical  Science, 2 (2007) 595-606 (Thomson Reuters Impact Factor :1.692)
  177. P.D. Gaikwad, D.J. Shirale, P.A. Savale, K. Datta, P. Ghosh, A.J. Pathan,  G. Rabbani and   M.D. Shirsat,Development of PANI-PVS-GOD electrode by Potentiometric method for determination of glucose” International Journal of  Electrochemical  Science, 2 (2007)-488-497 (Thomson Reuters Impact Factor :1.692)
  178. V.K. Gade, D.J. Shirale, P.D. Gaikwad, K.P. Kakde, P.A. Savale, H.J. Kharat, B.H. Pawar and M.D. Shirsat, “Synthesis and characterization of Ppy-PVS, P(NMP)-PVS and their co-polymer Ppy-P(NMP)-PVS films by galvanostatic method” International Journal of  Electrochemical  Science, 2 (2007), 270-277 (Thomson Reuters Impact Factor :1.692)
  179. V K Gade, D J Shirale, P D Gaikwad, P A Savale, K P Kakde, H J Kharat and M D Shirsat, “Immobilization of GOD on Ppy-PVS composite film for determination of glucose: A comparative study of phosphate and acetate buffers” International Journal of Polymeric Materials, 56, (2007) 1051-1065 (Thomson Reuters Impact Factor : 2.60)
  180. S S Hussaini, N R Dhumane, G. Rabbani, P. Karmuse, V.G. Dongre  and M D Shirsat,Growth and High Frequency Dielectric Study Of Pure and Thiourea Doped KDP Crystals”, Crystal Research Technology, 42, No 11, 1110, 1116  ( 2007) (Thomson Reuters Impact Factor :1.599)
  181. Kharat H J, Kakde K P, Savale P A, Datta K, Ghosh P and Shirsat M D, “Synthesis of polypyrrole films for the development of ammonia sensor” Polymers for Advanced Technologies, Vol 18, 5, (2007), 397-402 (Thomson Reuters Impact Factor :3.66)
  182. D J Shirale, V K Gade, P D Gaikwad, P A Savale and M D Shirsat,Galvanostatic deposition of Poly(N-methylpyrrole) film with various dopants and co-dopants: A comparative study”, Materials Letters 61 (20071372-1375 (Thomson Reuters Impact Factor :3.574)
  183. V K Gade, D J Shirale, P D Gaikwad, P A Savale and M D Shirsat, “Influence of process parameters on the conductivity and surface morphology of polypyrrole films by galvanostatic method”, International Journal of Polymeric Materials 56 (2007), 167-176 (Thomson Reuters Impact Factor :2.60)
  184. V K Gade, D J Shirale, P D Gaikwad, K P Kakde, P A Savale, H J Kharat and M D Shirsat, “Synthesis and characterization of Ppy-PVS, Ppy-pTS and Ppy-DBS composite films”, International Journal of Polymeric Materials, 56 (2007),107-114 (Thomson Reuters Impact Factor :2.60)
  185. H J Kharat, K P Kakde, D J Shirale, V K Gade, P D Gaikwad, P A Savale and M D Shirsat, “Designing of optical fiber sensing probe”, Fiber and Integrated Optics, 25 (2006) 411422 (Thomson Reuters Impact Factor :0.976)
  186. V K Gade, D J Shirale, P D Gaikwad, P A Savale, K P Kakde, H J Kharat and M D Shirsat, “Immobilization of GOD on electrochemically synthesized Ppy-PVS composite film by cross-linking via glutaraldehyde for determination of glucose”, Reactive and Functional Polymers 66 (2006) 1420-1426 (Thomson Reuters Impact Factor 4.966)
  187. P D Gaikwad, D J Shirale, V K Gade, , P A Savale, H J Kharat, K P Kakde, and M D Shirsat, “Immobilization of GOD on Electrochemically Synthesized PANI Film by Cross-linking via Glutaraldehyde for Determination of Glucose” International Journal of  Electrochemical  Science, 1 (2006) 425-434 (Thomson Reuters Impact Factor :1.692)
  188. D J Shirale, V K Gade, P D Gaikwad, P A Savale, K P Kakde, H J Kharat and M D Shirsat, “Studies of immobilized glucose oxidase on galvanostatically synthesized poly(N-methylpyrrole) film with PVS-NaNO3 composite dopant”, International Journal of  Electrochemical  Science, 1 (2006) 62-70 (Thomson Reuters Impact Factor :1.692)
  189. D J Shirale,V K Gade, P D Gaikwad, P A Savale, K P Kakde, H J Kharat and M D Shirsat, “Glucose oxidase immobilized on galvanostatically synthesized Poly(N-methylpyrrole)/PolyVinyl Sulfonate film for determination of glucose, International Journal of Polymer Analysis and Characterization, 11, 5, (2006), 369-382 (Thomson Reuters Impact Factor :1.837)
  190. P D Gaikwad, D J Shirale, V K Gade, P A Savale, K P Kakde, H J Kharat and M D Shirsat,Potentiometric study of polyaniline film synthesized with various dopant and composite-dopant: A comparative study, Bulletin of Material Science Vol 29, No 4, August 2006, 417-420 (Thomson Reuters Impact Factor :1.878)
  191. N R Dhumane, S S Hussaini, V V Navarkhele and M D Shirsat,Dielectric Studies of Metal Complexes of Thiourea Crystals for Electro-optic Modulation”, Crystal Research Technology 41, No 9 ( 2006) 897-901       (Thomson Reuters Impact Factor :1.599)
  192. D.J. Shirale, V.K. Gade, P.D. Gaikwad, H.J. Kharat, K.P. Kakde, P.A. Savale, S.S. Hussaini, N.R. Dhumane, M.D. Shirsat, “The influence of electrochemical process parameters on the conductivity of poly(N- methylpyrrole) films by galvanostatic method”, Materials Letters 60 (2006) 1407-1411    (Thomson Reuters Impact Factor :3.574)
  193. P D Gaikwad, D J Shirale, V K Gade, P A Savale, K P Kakde, H J Kharat andM D Shirsat, “Optimization of various electrochemical process parameter for synthesis of polyaniline doped with inorganic supporting electrolyte on platinum substrate”, Transaction of The SAEST  41 (2006) 52-56  
  194. P D Gaikwad, D J Shirale, V K Gade, P A Savale, H J Kharat, K P Kakde, S S Hussaini, N R Dhumane and M D Shirsat, “Synthesis of H2SO4 doped polyaniline film by otentiometric method, Bulletin of Material Science Vol29, No 2, April 2006, 169-172 (Thomson Reuters Impact Factor : 1.878)
  195. D.J. Shirale, V.K. Gade, P.D. Gaikwad, H.J. Kharat, K.P. Kakde, P.A. Savale,            S.S. Hussaini, N.R. Dhumane and M.D. Shirsat,  “Synthesis of P(NMP) film for glucose oxidase electrode”, Transaction of SAEST 40 (2005) 128-133

Thrust Area

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Research Scholar

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Details list of Students Academic Year 2017-18
Sr.No. Name of Candidate
1Ms. Ansari Tubiya Rubab
2Mr. Aurangabadkar Venkatesh Ratnakar
3Mr. Dabhade Manoj Sures
4Mr. Dhakne Sunil Madhavrao
5Mr. Gaikwad Mahendra Madhukar
6Mr. Gawali Gajanan Ashok
7Mr. Ghule Prashant Sukhdev
8Mr. Gore Vishal Kisan
9Mr. Khobragade Swarup Nandu
10Mr. Rakhe Sumit Sheshrao
11Ms. Winkare Rutika Harish

Details list of Students Academic Year 2018-19
Sr.No. Name of Candidate
1 Pawan Bhagwan Salve
2 Angad Taterao Bokhare
3 Balraj Lekhraj Kamble
4 Anand Keshavrao Chokhat
5 Akshay Ramprasad Meshram
6 Vikas Dadasaheb Gaikwad
7 Bhagyashree Nagnath Suslade
8 Sagar Kirtikumar Dabhade
9 Kailash Bhagwat Patil
10 Amit Prabhakarrao Bele
11 Akash Babanrao Huse
12 Tupe Rohit Sanjay

Details list of Students Academic Year 2019-20
Sr.No. Name of Candidate
1 Miss. Harsha Bhimraj Shejwal
2 Miss. Madhuri Samadhan Birare
3 Miss. Mrunali Ramesh Fulzele
4 Mr. Rajesh Madhukar Shelke
5 Mr. Ajay Vijay Bhaware
6 Mr. Akash Kallu Jadiyar
7 Mr. Vivek Siddharth Meshram
8 Mr. Swapnil Prakash Nikalje
9 Mr. Babasaheb Vijay More

Details list of Students Academic Year 2020-21
Sr.No. Name of Candidate
1 PRADYUMNA NILESH PAWAR
2 ADITYA RAGHUNATH MUTTHE
3 CHISHTI HASEEBUDDIN CHISHTI SALEEMUDDIN
4 YOGESH BABAN SANAP
5 ANURAG VASANTA RAUT
6 SUMEET PRABHAKAR KIRTIKAR
7 SHUBHAM RAJENDRAWANKHEDE
8 INGALE SAPANA BHAURAO
9 SUJIT SHANKAR LODE
10 THAKUR NEHA MANOJSINHA
11 UMARE MINAKSHI CHANDRAKANT
12 SOMTHANE HANMANT RAMCHANDRA
13 SITAWAR SHRINIVAS BABARAO
Details list of Students Academic Year 2021-22
Sr.No. Name of Candidate
1 BONGANE RAMESHWAR PRAKASHRAO
2 HALEEMA PARVEEN IQBAL AHMED
3 JAMBHALE PRANAV MOHAN
4 KALAWANT VISHWABHUSHAN PRATAP
5 KASARE PRASHANT KESHAV
6 KENDRE VIKAS NAGNATH
7 NAGPURE ROSHNI VITHOBA
8 PADGHAN VIKKY NARAYAN
9 PRAJAPATI TEJPUNJ ANIRUDH
10 SABA NAAZ IRSHAD AHMED
11 SHAIKH FARHAT UBEDULLAH
12 KHANDARE SANJAY NAMDEO

Details list of Students Academic Year 2023-24

Sr.No.

Name of Candidate

1

AMBHORE TUSHAR ASHOK

2

KHANDARE ANIKET CHAKRADHAR

3

KHILLARE BUDDHABHUSHAN SUDHAKAR

4

NEURGAONKAR TANNMAY SHIRISH

5

SATDIVE PURVA VIJAY

Details list of Current Students M.Sc-II

Sr.No.

Name of Candidate

1

PRADIP SUBHASH CHAVAN

2

VITTHAL BAJIRAO MUJMULE

Details list of Current Students M.Sc-I

Sr.No.

Name of Candidate

1

JERUSHA KAMBLE

2

SAMRUDHI LOKHANDE

3

YATISH REDDY

4

PRIYANKA PATODE

5

ABHIJIT JADHAV

6

MHASKE DIPALI

7

SHUBHADA THORAT

8

PRANALI KHARATE
Sr. No Student Name Year of Joining for PhD Country/Designation University/Lab/Institute Name Department Guide/Supervisor Name
1 Nobel U Hajare 2023 Taiwan National Dong Hwa University, Taiwan Department of Physics Prof. Yuan Ron Ma
2 Swapnil Prakash Nikalje 2022 Associate Professor Epitaxial Growth of Optoelectronic Materials Laboratory Yijia Chen
3 Vikas Nagnath Kendre 2023 PhD. Program Energy and Opto-electronic Materials Program (EOMP), National Taipei University of Technology, Taipei, Taiwan Prof. Sea-Fue Wang
4 Prashant Keshav Kasare 2023 PhD. Program PhD. Program at Department of EOMP, National Taipei University of Technology, Taiwan President Prof. Sea-Fue Wang
5 Siddiqui Yahhya 2023 Taiwan NDHU EE Professor Shieh
6 Madhuri S Birare 2021 Taiwan National Dong Hwa University, Taiwan Department of Material Science and Engineering Prof. Yen-Pei Fu
7 Rameshwar Prakashrao Bongane 2023 Taiwan National Cheng Kung University, Taiwan Ph.D Program on Smart and Sustainable Manufacturing
8 Pranav Mohan Jambhale 2023 Taiwan National Cheng Kung University, Taiwan Department of Material Science and Engineering, Ph.D Program on Smart and Sustainable Manufacturing
9 Shaikh Farhat Upbedullah 2024 Europe Comenius University, Bratislava, Slovak Republic Department of Electronics