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B-TECH-M-TECH in Nanotechnology at Shanmugha Arts Science Technology & Research Academy (SASTRA)
Thanjavur, Tamil Nadu
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About the Specialization
What is Nanotechnology at Shanmugha Arts Science Technology & Research Academy (SASTRA) Thanjavur?
This Nanotechnology program at SASTRA focuses on the fundamental principles and applications of materials at the nanoscale. It integrates concepts from chemistry, physics, and engineering to explore synthesis, characterization, and device fabrication. The program is highly relevant in India''''s growing R&D sector, fostering innovation in areas like advanced materials, electronics, and healthcare. Its multidisciplinary approach is a key differentiator, preparing graduates for cutting-edge challenges.
Who Should Apply?
This program is ideal for ambitious 10+2 graduates with a strong foundation in science (especially Physics, Chemistry, and Math/Biology) who are keen on research and development. It also suits engineering graduates seeking to specialize in advanced materials or micro/nanosystems. Working professionals in chemical, materials, or electronics industries looking to upskill into high-tech domains would also find this integrated course beneficial. A passion for interdisciplinary scientific inquiry is a significant prerequisite.
Why Choose This Course?
Graduates of this program can expect diverse India-specific career paths in R&D labs, manufacturing industries, and academic institutions. Roles include Nanomaterials Scientist, Process Engineer, Device Fabrication Engineer, or Research Associate, with entry-level salaries typically ranging from INR 4-7 LPA, growing to INR 10-18+ LPA with experience. The program provides a strong foundation for higher studies (PhD) and aligns with certifications in material science and advanced characterization techniques.
Student Success Practices
Foundation Stage
Build Strong Scientific & Engineering Fundamentals- (Semester 1-2)
Focus intensely on core subjects like Mathematics, Physics, Chemistry, and basic engineering principles. Develop a disciplined approach to problem-solving, attending tutorials regularly and clarifying doubts promptly. Prioritize understanding concepts over rote learning.
Tools & Resources
NPTEL for supplemental lectures, Textbook exercises, Peer study groups, Departmental workshops
Career Connection
A solid foundation is crucial for grasping advanced Nanotechnology concepts and excelling in subsequent specialized courses and interviews.
Cultivate Programming and Analytical Skills- (Semester 1-2)
Master programming in C/C++ or Python, as computational skills are increasingly vital in materials science and nanotechnology. Practice data structures and algorithms, and learn to apply computational tools for basic scientific simulations.
Tools & Resources
HackerRank, LeetCode, GeeksforGeeks for coding practice, MATLAB/Scilab for numerical analysis, Python libraries like NumPy and SciPy
Career Connection
Essential for data analysis, modeling nanoscale phenomena, and developing automated systems in future R&D roles.
Engage in Early Research Exposure- (Semester 1-2)
Seek opportunities to assist faculty members in their ongoing research projects, even for small tasks. Attend departmental seminars and workshops to get acquainted with current research trends and identify areas of interest within nanotechnology.
Tools & Resources
SASTRA''''s research labs, Faculty websites, Departmental seminar series
Career Connection
Early exposure helps in developing research aptitude, understanding lab environments, and identifying potential master''''s thesis or project topics.
Intermediate Stage
Master Core Chemical Engineering & Nanomaterial Synthesis- (Semester 3-5)
Deeply understand chemical engineering principles (fluid mechanics, heat/mass transfer, reaction engineering) that form the backbone of Nanotechnology. Actively participate in lab sessions for synthesizing and characterizing basic nanomaterials.
Tools & Resources
Chemical process simulators (e.g., ASPEN HYSYS), Advanced lab equipment demonstrations, Online tutorials on specific synthesis methods
Career Connection
These skills are directly applicable in industries focusing on nanomaterial production, advanced chemical processes, and process optimization.
Pursue Relevant Internships and Mini-Projects- (After Semesters 4 and 5)
Actively look for summer internships in chemical, materials, or nanotechnology-focused companies/research labs in India. Participate in mini-projects, either industry-sponsored or faculty-guided, to apply theoretical knowledge to practical problems.
Tools & Resources
SASTRA''''s placement cell, LinkedIn, NPTEL internships, Industry contacts
Career Connection
Internships provide invaluable industry exposure, networking opportunities, and often lead to pre-placement offers, enhancing employability significantly.
Develop Technical Communication and Presentation Skills- (Semester 3-5)
Practice writing clear and concise technical reports for lab experiments and projects. Participate in student conferences, departmental symposia, and group presentations to hone your public speaking and scientific communication abilities.
Tools & Resources
IEEE format guidelines, Grammarly, Presentation software, Toastmasters International (if available)
Career Connection
Effective communication is critical for presenting research findings, writing project proposals, and collaborating in a professional R&D environment.
Advanced Stage
Specialize in Nanotechnology Core Areas & Advanced Characterization- (Semester 6-8)
Dive deep into specialized Nanotechnology subjects like Nanomaterials Science, Nanofabrication, and their applications. Gain hands-on expertise in advanced characterization techniques (SEM, TEM, XRD, AFM) crucial for understanding nanoscale properties.
Tools & Resources
Access to SASTRA''''s central instrumentation facilities, Workshops by equipment manufacturers, Advanced textbooks
Career Connection
This specialization prepares you for research positions in industries developing nano-enabled products, or for roles requiring expertise in materials characterization.
Undertake a Significant Design Project / Research Project- (Semester 6-8)
Commit fully to the Design Project (Sem 8) or Project Work Phase I/II (Sem 6/9). Choose a topic aligned with your career aspirations in nanotechnology. Focus on problem definition, experimental design, data analysis, and rigorous report writing.
Tools & Resources
Research journals (e.g., ACS Nano, Nano Letters), Reference management software (Zotero, Mendeley), Statistical analysis software (OriginLab, SPSS)
Career Connection
A strong project serves as a portfolio piece, demonstrating your ability to conduct independent research, solve complex problems, and contribute to the field, highly valued by employers and for higher studies.
Prepare for Placements and Higher Studies- (Semester 7-8)
Actively participate in campus placement drives, refining your resume, interview skills, and technical knowledge. Simultaneously, if pursuing higher education, prepare for competitive exams (GATE, GRE, TOEFL/IELTS) and identify suitable universities/research programs.
Tools & Resources
SASTRA''''s Career Development Centre, Mock interviews, Online aptitude tests, Previous year''''s question papers
Career Connection
Focused preparation ensures successful entry into either the industry as a Nanotechnology Engineer or Research Associate, or into a PhD program in India or abroad.
Program Structure and Curriculum
Eligibility:
- A Pass in 10+2 (or equivalent) examination with Physics, Chemistry, Mathematics / Biology / Biotechnology / Computer Science as subjects and a valid score in JEE Main / SASTRA Aptitude Test.
Duration: 5 years / 10 semesters
Credits: 182.5 Credits
Assessment: Internal: 40%, External: 60%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHSB101T | English for Engineers | Core | 3 | Technical communication, Report writing, Presentation skills, Business correspondence, Language proficiency |
| UMAE101T | Engineering Mathematics I | Core | 4 | Differential calculus, Integral calculus, Sequences and Series, Multiple Integrals, Vector calculus |
| UPHB101T | Engineering Physics | Core | 3 | Optics, Wave mechanics, Quantum physics, Solid state physics, Semiconductor devices |
| UCHB101T | Engineering Chemistry | Core | 3 | Electrochemistry, Corrosion, Water treatment, Fuels and combustion, Material science |
| UCSB101T | Programming in C | Core | 3 | C language syntax, Control structures, Functions, Arrays, Pointers, File I/O |
| UCSB101P | Programming in C Lab | Lab | 1 | C programming exercises, Debugging techniques, Problem solving |
| UPHB101P | Engineering Physics Lab | Lab | 1 | Optics experiments, Semiconductor characteristics, Magnetic fields |
| UCHB101P | Engineering Chemistry Lab | Lab | 1 | Volumetric analysis, Instrumental methods, Water quality testing |
| UNXB101P | Engineering Drawing | Lab | 1.5 | Orthographic projections, Sectional views, Isometric views, AutoCAD basics |
| UNAB101P | NSS / NCC / NSO | Core | 1 | Community service, Leadership, Physical fitness, Discipline |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHSB201T | Professional English | Core | 3 | Business communication, Report writing, Presentation skills, Group discussions, Interview skills |
| UMAE201T | Engineering Mathematics II | Core | 4 | Differential equations, Laplace transforms, Fourier series, Vector spaces, Linear algebra |
| UMEB201T | Engineering Mechanics | Core | 3 | Statics, Dynamics, Kinematics, Kinetics, Friction |
| UEEB201T | Basics of Electrical & Electronics Engineering | Core | 3 | DC circuits, AC circuits, Diodes, Transistors, Operational amplifiers |
| UCSB202T | Data Structures and Algorithms | Core | 3 | Arrays, Linked lists, Stacks, Queues, Trees, Sorting, Searching |
| UCSB202P | Data Structures and Algorithms Lab | Lab | 1 | Implementation of data structures, Algorithm design, Time complexity analysis |
| UEEB201P | Basics of Electrical & Electronics Engineering Lab | Lab | 1 | Circuit analysis, Device characteristics, Op-amp applications |
| UMEB201P | Workshop Practice | Lab | 1 | Carpentry, Welding, Fitting, Sheet metal work, Foundry |
| UHAB201P | Human Values | Core | 1 | Ethics, Morals, Professional values, Social responsibility |
| UNAB202P | NSS / NCC / NSO | Core | 1 | Community service, Leadership, Physical fitness, Discipline |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UMAE301T | Partial Differential Equations and Transforms | Core | 4 | Fourier transforms, Z-transforms, PDEs, Boundary value problems, Numerical methods |
| UCHB301T | Organic Chemistry | Core | 3 | Reaction mechanisms, Stereochemistry, Spectroscopy, Aliphatic compounds, Aromatic compounds |
| UCHB302T | Physical Chemistry | Core | 3 | Thermodynamics, Chemical kinetics, Electrochemistry, Quantum chemistry, Surface chemistry |
| UCHB303T | Fluid Mechanics | Core | 3 | Fluid properties, Fluid statics, Fluid flow, Viscous flow, Pipe flow |
| UCHB304T | Engineering Thermodynamics | Core | 3 | Laws of thermodynamics, Entropy, Free energy, Thermodynamic cycles, Refrigeration |
| UCHB301P | Organic Chemistry Lab | Lab | 1 | Organic synthesis, Qualitative analysis, Quantitative analysis |
| UCHB302P | Physical Chemistry Lab | Lab | 1 | Thermochemistry, Reaction rates, Conductometry, Potentiometry |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UMAE401T | Numerical Methods and Optimization | Core | 4 | Root finding, Interpolation, Numerical integration, Optimization techniques, Linear programming |
| UCHB401T | Chemical Engineering Thermodynamics | Core | 3 | Phase equilibrium, Fugacity, Activity coefficients, Chemical reaction equilibrium, Solution thermodynamics |
| UCHB402T | Heat Transfer | Core | 3 | Conduction, Convection, Radiation, Heat exchangers, Boiling and condensation |
| UCHB403T | Mass Transfer I | Core | 3 | Diffusion, Mass transfer coefficients, Interphase mass transfer, Absorption, Stripping |
| UCHB404T | Analytical Methods in Chemistry | Core | 3 | Spectrophotometry, Chromatography, Electrophoresis, Thermal analysis, Microscopy |
| UCHB401P | Heat Transfer Lab | Lab | 1 | Conduction experiments, Convection experiments, Heat exchanger performance |
| UCHB402P | Chemical Engineering Thermodynamics Lab | Lab | 1 | Phase equilibrium studies, Calorimetry, Vapor-liquid equilibrium |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UHSB501T | Managerial Economics and Accountancy | Core | 3 | Demand and supply, Market structures, Cost analysis, Financial statements, Project evaluation |
| UCHB501T | Process Control | Core | 3 | Process dynamics, Feedback control, PID controllers, Stability analysis, Advanced control strategies |
| UCHB502T | Mass Transfer II | Core | 3 | Distillation, Extraction, Leaching, Drying, Crystallization |
| UCHB503T | Reaction Engineering | Core | 3 | Reaction kinetics, Reactor design, Isothermal reactors, Non-isothermal reactors, Catalysis |
| UCHB504T | Mechanical Operations | Core | 3 | Particle technology, Size reduction, Separation techniques, Filtration, Mixing |
| UCHB501P | Mass Transfer Lab | Lab | 1 | Distillation experiments, Absorption, Drying, Filtration |
| UCHB502P | Process Control Lab | Lab | 1 | Controller tuning, Level control, Flow control, Temperature control |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UCHB601T | Process Plant Design | Core | 3 | Process flow diagrams, Equipment sizing, Plant layout, Cost estimation, Safety analysis |
| UCHB602T | Environmental Engineering | Core | 3 | Water pollution, Air pollution, Waste management, Environmental impact assessment, Green technologies |
| UHSB601T | Professional Ethics and Human Values | Core | 2 | Ethical theories, Professional responsibility, Corporate social responsibility, Cyber ethics |
| UNTB601T | Nanomaterials Science | Core | 3 | Nanoscale phenomena, Quantum dots, Carbon nanotubes, Graphene, Nanoparticles synthesis |
| Elective I | Program Elective I | Elective | 3 | As per chosen elective curriculum |
| UCHB601P | Chemical Reaction Engineering Lab | Lab | 1 | Batch reactor kinetics, CSTR studies, PFR experiments |
| UNTP601P | Nanomaterials Synthesis Lab | Lab | 1 | Chemical synthesis of nanoparticles, Physical vapor deposition, Characterization |
| UCHB603P | Project Work - Phase I | Project | 2 | Literature review, Problem definition, Methodology design, Preliminary experiments |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UNTB701T | Nanofabrication and Characterization | Core | 3 | Top-down fabrication, Bottom-up fabrication, SEM, TEM, XRD, AFM, Spectroscopy, Lithography techniques |
| Elective II | Program Elective II | Elective | 3 | As per chosen elective curriculum |
| Elective III | Program Elective III | Elective | 3 | As per chosen elective curriculum |
| UMTB701T | Research Methodology | Core | 3 | Research design, Data collection, Statistical analysis, Technical writing, Ethics in research |
| UNTP701P | Nanomaterials Characterization Lab | Lab | 1 | SEM/TEM imaging, XRD analysis, Spectroscopic characterization, Particle size analysis |
| UCHB701P | Process Simulation and Modelling Lab | Lab | 1 | Process simulation software (e.g., ASPEN), Unit operation modeling, Optimization |
| UNTP702P | Mini Project | Project | 2 | Project proposal, Design, Implementation, Report writing |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| UNTB801T | Nanoscience and Nanotechnology Applications | Core | 3 | Nanoelectronics, Nanomedicine, Energy applications, Environmental remediation, Catalysis |
| Elective IV | Program Elective IV | Elective | 3 | As per chosen elective curriculum |
| Elective V | Program Elective V | Elective | 3 | As per chosen elective curriculum |
| UNTP801P | Design Project | Project | 3 | Engineering design principles, Problem solving, Technical report, Presentation |
| UCHB801T | Industrial Safety and Hazards | Core | 3 | Hazard identification, Risk assessment, Safety regulations, Accident prevention, Emergency planning |
| UCHB802P | Summer Internship | Internship | 3 | Industry exposure, Practical skills, Project work, Professional development |
Semester 9
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| Elective VI | Program Elective VI | Elective | 3 | As per chosen elective curriculum |
| Elective VII | Program Elective VII | Elective | 3 | As per chosen elective curriculum |
| Elective VIII | Program Elective VIII | Elective | 3 | As per chosen elective curriculum |
| UMTB901P | Project Work Phase II | Project | 10 | Advanced research, Experimental design, Data analysis, Thesis writing, Presentation |
Semester 10
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| Elective IX | Program Elective IX | Elective | 3 | As per chosen elective curriculum |
| Elective X | Program Elective X | Elective | 3 | As per chosen elective curriculum |
| UNTP001P | Project Work Phase III | Project | 10 | Comprehensive research, Thesis defense, Publication preparation, Final reporting |
