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Materials Research Centre
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Programme Description
Materials are at the root of man's progress in the modern world. Advances in technology today are limited by the availability of newer materials with desired properties and there processing. Development of newer materials and technologies requires a thorough study of existing materials and tailor making of new functional material. Such a task, however, requires an integrated approach to the subject using established principles of Materials Science and engineering. Keeping this objective in view and to provide focus and coordination for teaching, research and development, an Interdisciplinary Programme in Materials Science & Engineering with specialization in Polymers/ Ceramics/Electronics/Bio-Materials is offered by Materials Research Center at MNIT Jaipur.
Programme Objectives & Intake
Programme will be an interdisciplinary program in Material Science & Engineering with further specialization in Polymers/ Ceramics/Electronics/Bio-Materials. The programme is open to GATE/NET qualified students with Master's Degree in Sciences or Bachelors' Degree in specified field of Engineering. In the first semester all students (regardless of previous background and research interest) will take common courses which will be followed by specific courses in any of the desired specialization and research in a selected area of specialization. The program will lead to the Master's degree in Materials Science and Engineering with specialization in Polymers/ Ceramics/Electronics/Bio-Materials.
Who Can Apply?
Students who have qualified GATE from Science group (G1) and Engineering group (G2) are eligible to apply for admission to the programme.
G1
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Chemistry (S508 ) |
CY |
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Applied Science (S504) |
PH, CY, MA |
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Any of the Disciplines in M.Sc. Degree (S599 ) |
PH |
G2
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Applied Electronics and Instrumentation Engineering (T104) |
EC |
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Ceramic Engineering(T116) |
CH, XE |
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Chemical Engineering(T117) |
CH |
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Electrical and Electronics Engineering (T129) |
EC, EE |
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Electrical and Instrumentation Engineering(T130) |
EC, EE |
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Electrical Engineering(T131) |
EE |
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Electronics and Communication Engineering(T135) |
EC |
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Electronics and Instrumentation Engineering(T136) |
EC |
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Electronics Engineering(T138) |
EC |
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Engineering Physics(T141) |
PH, XE |
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Instrumentation and Control Engineering(T150) |
EC, XE, IN |
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Instrumentation Engineering(T151) |
EC, XE, IN |
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Manufacturing Engineering(T155) |
ME |
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Materials Science and Engineering(T157) |
MT, XE |
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Mechanical Engineering(T158) |
ME |
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Metallurgical and Materials Engineering(T160) |
MT, XE |
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Metallurgical Engineering(T162) |
MT |
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Metallurgical Engineering and Materials Science(T163) |
MT, XE |
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Nanotechnology (T168) |
PH, XE |
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Polymer Science and Technology(T173) |
CH, CY, XE |
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Production Engineering(T177) |
ME, XE, PI |
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Ceramic Technology(T204) |
MT, XE |
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Chemical Technology(T207) |
CH, XE |
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Electronics and Avionics(T232) |
EC |
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Electronics and Electrical Engineering(T236) |
EC |
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Electronics Science and Engineering(T243) |
EC |
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Instrument Technology(T269) |
EC, XE, IN |
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Materials Science and Metallurgical Engineering(T277) |
MT |
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Materials and Metallurgical Engineering(T278) |
MT |
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Polymer Engineering and Technology(T310) |
CH, XE |
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Chemical and Bio Engineering(T334) |
CH, XE |
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Manufacturing Technology(T355) |
ME |
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Metallurgy and Materials Technology(T360) |
MT |
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Optics and Optoelectronics (T364) |
EC, PH |
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Polymer Engineering (T377) |
CH, XE |
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Metallurgy and Materials (T386) |
MT |
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Applied Electronics and Instruments (T389) |
EC, IN |
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Instrumentation (T390) |
IN |
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Instrumentation and Electronics Engineering
(T 392) |
EC, IN |
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Electrical and Electronics (T393) |
EC, EE |
SEMESTER -1
Course Code |
Course Title |
Type |
Credits Total(L T P) |
MST 601 |
Thermodynamics of materials |
Core |
3 (3-0-0) |
MST 603 |
Synthesis of materials |
Core |
3 (3-0-0) |
MST 605 |
Kinetic processes in materials |
Core |
3 (3-0-0) |
MST 607 |
Degradation of materials |
Core |
3 (3-0-0) |
MST 609 |
Electrical, optical, magnetic & thermal properties of materials* |
Core |
3 (3-0-0) |
MST 611 |
Cells, tissues & development* |
Core |
3 (3-0-0) |
MST 613 |
Structural characterization of materials |
Core |
3 (3-0-0) |
MSP 615 |
Materials synthesis and characterization Lab –I |
Core |
3 (0-0-6) |
Total Semester Credits |
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21 |
SEMESTER -2
Course Code |
Course Title |
Type |
Credits Total(L T P) |
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(Common electives)- Any two |
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MST 602 |
Nanomaterials technology |
Elective |
3 (3-0-0) |
MST 604 |
Advanced theory of phase transformations |
Elective |
3 (3-0-0) |
MST 606 |
Computational materials engineering |
Elective |
3 (3-0-0) |
MST 608 |
Statistical thermodynamics |
Elective |
3 (3-0-0) |
MST 610 |
Fuel cell technology |
Elective |
3 (3-0-0) |
MST 612 |
Tribology of materials |
Elective |
3 (3-0-0) |
MST 614 |
Thermo-mechanical behavior of materials |
Elective |
3 (3-0-0) |
MST 616 |
Nano mechanics |
Elective |
3 (3-0-0) |
MST 618 |
Surface phenomena |
Elective |
3 (3-0-0) |
MST 620 |
Amorphous materials |
Elective |
3 (3-0-0) |
MST 622 |
Industrial ecology of materials |
Elective |
3 (3-0-0) |
MST 624 |
Molecular spectroscopy |
Elective |
3 (3-0-0) |
MST 626 |
Advanced spectroscopic techniques |
Elective |
3 (3-0-0) |
MST 628 |
Physics of semiconductors & semiconducting devices |
Elective |
3 (3-0-0) |
MST 630 |
Design of materials |
Elective |
3 (3-0-0) |
*MST 609 will be offered to students going to either of Electronics, Ceramics, Polymers division.
*MST 611 will be offered to students going to Biomaterials division.
Course Code |
Course Title |
Type |
Credits Total(L T P) |
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Division - Polymers (Any four) |
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Elective-I |
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MST 632 |
Surfaces & colloids |
Elective |
3 (3-0-0) |
MST 634 |
Polymer chemistry |
Elective |
3 (3-0-0) |
MST 636 |
Advanced organic chemistry of synthetic high polymers |
Elective |
3 (3-0-0) |
MST 638 |
Micro mechanics of polymers |
Elective |
3 (3-0-0) |
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Elective-II |
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MST 640 |
Polymer composites |
Elective |
3 (3-0-0) |
MST 642 |
Hybrid materials |
Elective |
3 (3-0-0) |
MST 644 |
Plastics engineering |
Elective |
3 (3-0-0) |
MST 646 |
Elastomer technology |
Elective |
3 (3-0-0) |
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Elective-III |
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MST 648 |
Polymer processing technology |
Elective |
3 (3-0-0) |
MST 650 |
Package engineering |
Elective |
3 (3-0-0) |
MST 652 |
Membrane technology |
Elective |
3 (3-0-0) |
MST 654 |
Coating & paint technology |
Elective |
3 (3-0-0) |
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Elective-IV |
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MST 656 |
Advanced polymer physics |
Elective |
3 (3-0-0) |
MST 658 |
Macromolecular solids |
Elective |
3 (3-0-0) |
MST 660 |
Conducting polymers |
Elective |
3 (3-0-0) |
MST 662 |
Eco-sustainable polymers |
Elective |
3 (3-0-0) |
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Division - Ceramics (Any four) |
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Elective-I |
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MST 664 |
Ceramic materials & properties |
Elective |
3 (3-0-0) |
MST 666 |
Advanced physical ceramics |
Elective |
3 (3-0-0) |
MST 668 |
Advanced mechanical properties of hard materials |
Elective |
3 (3-0-0) |
MST 670 |
Advanced glass ceramics |
Elective |
3 (3-0-0) |
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Elective-II |
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MST672 |
Bio-ceramics |
Elective |
3 (3-0-0) |
MST 674 |
Nano-ceramics |
Elective |
3 (3-0-0) |
MST 676 |
Electrical ceramics |
Elective |
3 (3-0-0) |
MST 678 |
Optical ceramics |
Elective |
3 (3-0-0) |
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Elective-III |
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MST 680 |
Advanced refractory engineering |
Elective |
3 (3-0-0) |
MST 682 |
Unit operation |
Elective |
3 (3-0-0) |
MST 684 |
Energy management in ceramic industry |
Elective |
3 (3-0-0) |
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Elective-IV |
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MST 686 |
Structural ceramics |
Elective |
3 (3-0-0) |
MST 688 |
Stones, cement & Concrete |
Elective |
3 (3-0-0) |
MST 690 |
Engineering ceramics & composites |
Elective |
3 (3-0-0) |
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Division- Electronics (Any four) |
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Elective-I |
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MST 692 |
Optoelectronic materials |
Elective |
3 (3-0-0) |
MST 694 |
Photonic materials & devices |
Elective |
3 (3-0-0) |
MST 696 |
Electrical ceramics |
Elective |
3 (3-0-0) |
MST 698 |
Advanced electronic materials |
Elective |
3 (3-0-0) |
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Elective-II |
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ECT 614** |
VLSI technology |
Elective |
3 (3-0-0) |
ECT 634** |
MEMS & NEMS |
Elective |
3 (3-0-0) |
MST 700 |
Advanced instrumentation technology |
Elective |
3 (3-0-0) |
MST 702 |
Advanced sensor technology |
Elective |
3 (3-0-0) |
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Elective-III |
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MST 704 |
Compound semiconducting devices |
Elective |
3 (3-0-0) |
MST 706 |
IC device theory |
Elective |
3 (3-0-0) |
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Elective-IV |
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MST 708 |
Modeling & simulation of devices |
Elective |
3 (3-0-0) |
MST 710 |
Quantum electronics |
Elective |
3 (3-0-0) |
MST 712 |
Electron microscopy |
Elective |
3 (3-0-0) |
MST 714 |
Advanced quantum physics |
Elective |
3 (3-0-0) |
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Division- Biomaterials (Any four) |
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Elective-I |
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MST 716 |
Organics & biomaterials chemistry |
Elective |
3 (3-0-0) |
MST 718 |
Biology & chemistry of materials |
Elective |
3 (3-0-0) |
MST 720 |
Science & engineering of biomaterials |
Elective |
3 (3-0-0) |
MST 722 |
Design & application of biomaterials |
Elective |
3 (3-0-0) |
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Elective-II |
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MST 724 |
Tissue & protein engineering |
Elective |
3 (3-0-0) |
MST 726 |
Separation technology |
Elective |
3 (3-0-0) |
MST 728 |
Nano medicine technology |
Elective |
3 (3-0-0) |
MST 730 |
Techniques in bio molecular engineering |
Elective |
3 (3-0-0) |
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Elective-III |
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MST 732 |
Biomedical imaging |
Elective |
3 (3-0-0) |
MST 734 |
Bio medical instrumentation technology |
Elective |
3 (3-0-0) |
MST 736 |
Advanced Bio Physics |
Elective |
3 (3-0-0) |
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Elective-IV |
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MST 738 |
Bio molecular materials science |
Elective |
3 (3-0-0) |
MST 740 |
Macro molecules/biomolecules |
Elective |
3 (3-0-0) |
MST 742 |
Molecular genetics |
Elective |
3 (3-0-0) |
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Total Semester Credits |
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18 |
SEMESTER -3
Course Code |
Course Title |
Type |
Credits Total(L T P) |
MSS 617 |
Seminar |
Core |
4 (0-0-8) |
MSD 619 |
Nanomaterials technology |
Core |
16 (0-0-32) |
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Total Semester Credits |
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20 |
SEMESTER -4
Course Code |
Course Title |
Type |
Credits Total(L T P) |
MSD 744 |
Dissertation |
Core |
16 (0-0-32 |
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Total Semester Credits |
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16 |
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Total Credits of all Semesters |
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75 |
** Subject to course being offered by the concerned department.
Career Options
The program is aimed at training graduate students to become leaders in industrial and university settings in the field of materials science and engineering.
The program emphasizes enhancement of professional skills, knowledge, and research techniques. It is highly valuable as preparation for professional practice, and it serves as a foundation for advancement to doctoral study.
Graduates are expected to keep the global demand for trained materials scientists growing in the the twenty-first century. Graduates typically find work in a number of fields including health care, information technologies, and energy.
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