M.Sc. (Nano Technology)

Course Structure

M.Sc ( Nano-Technology )

Nanotechnology Syllabus -NEP2020 (click here)


Msc ( Nano-Technology )

Revised MSc Nano CBCS Syllabus Final June 2017(click here)


Revised MSc Nano CBCS Syllabus Final June 2016(click here)

syallabus MSc Nano (click here)


Outline Syllabus of each course offered:

First Semester
 
Course Type
Course Code Course Name
Teaching Scheme
Credits Assigned
     

Theory

(Hrs./ week)

Practical

(Hrs./ week)

Theory

Practical Total Credits
Major Mand atory DSC
NTTC-500 Foundation of Nanoscience and Nanotechnology
2
---- 2 ---- 8T
NTTC -501 Chemistry of Nanomaterials 2 ---- 2 ---
NTTC -502 Synthesis of Nanomaterials and Fabrication Techniques 2 ---- 2 ---
NTTC -503 Scientific Commutation and Simulation in Nanoscience and    Nanotechnology 2 ---- 2 ---
NTTC -504 Laboratory –I --- 4 --- 2 6L
NTTC -505 Laboratory-II --- 4 --- 2
NTTC -506 Laboratory-III -- 4 --- 2
DSE (Choose any two)
NTTE-507 Introduction to Bionanotechnolgy
2
---- 2 ---- 4T
NTTE -508 Materials and Methods of Nanocoatings 2 ---- 2 ---
NTTE -509 Societal Impacts of Nanotechnology 2 ---- 2 ---
NTTE -510 Introduction to Nanoelectronics and Quantum Devices 2 ---- 2 ---
RM
NTRM -511 Research Methodology-I
2
---- 2 ---- 4T
NTRM -512 Research Methodology-II 2 ---- 2 ---
Total 16 12 16 06 22

*- a) Choice of DSE courses for offline mode is to the students subject to prior reporting of minimum ten students. b) Among the Four courses from DSE, one DSE is compulsory for offline mode and one among the remaining three for online (MOOC, NPTEL) mode. c) If online course for DSE is not available, students should choose two courses for offline mode.

Course Code Nomenclature:DSC-Discipline Specific Core, DSE- Discipline Specific Elective, T-Theory, L- Laboratory course, NTTC- Nanotechnology Theory Core, NTLC-Nanotechnology Laboratory Core, NTTE-Nanotechnology Theory Elective, NTRM- Nanotechnology Research Methodology, NTOJT- Nanotechnology on the Job Training, NTFP- Nanotechnology Field Project

Second Semester
 
Course Type
Course Code Course Name
Teaching Scheme
Credits Assigned
     

Theory

(Hrs./ week)

Practical

(Hrs./ week)

Theory

Practical Total Credits
Major Mand atory DSC
NTTC-550 Nanomaterials Based Devices:MEMS and NEMS
2
---- 2 ---- 8T
NTTC-551 Physics of Nanomaterials 2 ---- 2 ---
NTTC-552 Characterization Techniques for Nanomaterials 2 ---- 2 ---
NTTC-553 Carbon Nanomaterials: Synthesis, Functionalization and Applications 2 ---- 2 ---
NTTC-554 Laboratory –IV --- 4 --- 2 6L
NTTC-555 Laboratory-V --- 4 --- 2
NTTC -556 Laboratory-VI -- 4 --- 2
DSE* (Choose any two)
NTTE-557 Advancement to Bionanotechnolgy
2
---- 2 ---- 4T
NTTE -558 Theoretical Studies in Nanoscience: Scientific Computation and Simulation 2 ---- 2 ---
NTTE -559 Nanocomposites: Fabrication, Properties and Applications 2 ---- 2 ---
NTTE -560 Nanotechnology in Energy and Environment 2 ---- 2 ---
OJT
NTOJT-561 On the Job Training
--
4 -- 4 4L
NTOJT-562 Field Project --
Total 12 20 12 10 22

*- a) Choice of DSE courses for offline mode is to the students subject to prior reporting of minimum ten students. b) Among the Four courses from DSE, one DSE is compulsory for offline mode and one among the remaining three for online (MOOC, NPTEL) mode. c) If online course for DSE is not available, students should choose two courses for offline mode.

Course Code Nomenclature:DSC-Discipline Specific Core, DSE- Discipline Specific Elective, T-Theory, L- Laboratory course, NTTC- Nanotechnology Theory Core, NTLC-Nanotechnology Laboratory Core, NTTE-Nanotechnology Theory Elective, NTRM- Nanotechnology Research Methodology, NTOJT- Nanotechnology on the Job Training, NTFP- Nanotechnology Field Project

M.Sc. Nanoscience and Technology Semester-III

 

Course Type

Course Code

Course Name

Teaching Scheme

(Hrs./ week)

Credits Assigned

Marks

 

Theory

Practical

Theory

Practical

Theory

Internal

Total

Total Credits

Major Mandatory DSC

NTTC-600

Advances in Energy Materials

2

-

2

-

30

20

50

8T

NTTC -601

Fundamentals and Engineering of Solar Energy Devices

2

-

2

-

30

20

50

NTTC -602

Thin Films and Devices Fabrication

2

-

2

-

30

20

50

NTTC -603

Applied Surface Science

2

-

2

 

30

20

50

NTLC-604

Laboratory –VII

-

4

-

2

30

20

50

6L

NTLC-605

Laboratory –VIII

-

4

-

2

30

20

50

NTLC-606

Laboratory –IX

-

4

-

2

30

20

50

DSE* (Choose any two)

NTTE-607

Multiphysics Modelling

2

-

2

-

30

20

50

4T

NTTE -608

MEMS and Micro-system Design

2

-

2

-

30

20

50

NTTE -609

Semiconductor Based Sensors

2

-

2

-

30

20

50

NTTE -610

Advanced Topics in Magnetic Nanomaterials

2

-

2

-

30

20

50

Course Type: Research Project

NTRP-611

Research Project-I

-

8

-

4

80

20

100

4L

Total

12

20

12

10

440

210

650

22

 

M. Sc. Nanoscience and Technology Semester- IV

Course Type

Course Code

Course Name

Teaching Scheme

(Hrs./ week)

Credits Assigned

Marks

 

Theory

Practical

Theory

Practical

Theory

Internal

Total

Total Credits

Major Mandatory DSC

NTTC-650

Electrochemical Energy Conversion

2

-

2

-

30

20

50

8T

NTTC -651

Corrosion Science and Engineering

2

-

2

-

30

20

50

NTTC -652

Nanophotonics and Plasmonics

2

-

2

-

30

20

50

NTTC -653

Spintronics and Magnetic Nanomaterials

2

-

2

 

30

20

50

NTLC-654

Laboratory –X

-

4

-

2

30

20

50

6L

NTLC-655

Laboratory –XI

-

4

-

2

30

20

50

NTLC-656

Laboratory –XII

-

4

-

2

30

20

50

DSE* (Choose any two)

NTTE-657

Non-Conventional Energy Sources

2

-

2

-

30

20

50

4T

NTTE -658

Nanotechnology for Environmental Remediation

2

-

2

-

30

20

50

NTTE -659

Biosensors and Bioelectronics

2

-

2

-

30

20

50

NTTE -660

Applied Photoelectrochemistry

2

-

2

-

30

20

50

Course Type: Research Project

NTRP-661

Research Project-I

-

8

-

4

80

20

100

4L

Total

12

20

12

10

440

210

650

22

 

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