Page 225 - Handbook Bachelor Degree of Science Academic Session 20202021
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Faculty of Science Handbook, Academic Session 2020/2021
infrared spectroscopy, four-point probe, thermogravimetry, differential multijunction, Light-absorbing dyes. Material engineering for high
scanning calorimetry, electrical impedance spectroscopy and simple efficiency solar cells
material process technology. Students will be exposed with Labview Light emitting diode: Material engineering for different colour of LED
programming. and high efficiency white LED.
Assessment Method:
Assessment Method: Final Examination: 60%
Continuous Assessment: 100% Continuous Assessment: 40%
Medium of Instruction: Medium of Instruction:
English English
Soft-skills: Soft-skills:
CS2, CT3, LL2 CS3, CT3, LL2
References: References:
1. Y. Leng, Materials Characterization: Introduction to Microscopic 1. Semiconductor Material and Device Characterization by Dieter K.
and Spectroscopic Methods, 1 edition (Wiley, Jun 2, 2008) Schroder (Jan 30, 2006)
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2. Sam Zhang, Lin Li, Ashok Kumar Materials Characterization 2. Fundamentals of Semiconductors: Physics and Materials
Techniques, 1 edition (CRC Press, Disember 22, 2008) Properties (Graduate Texts in Physics) [Hardcover] Peter Y. Yu
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3. Angelika H. Hofmann, Scientific Writing and Communication: (Author), Manuel Cardona (Author)
Papers, Proposals, and Presentations, 1 edition (Oxford University 3. Semiconductor Device Fundamentals by Robert F. Pierret (Apr
Press, Disember 16, 2009) 12, 1996)
LEVEL 3 SMEB3202 COMPOSITE MATERIALS
SMEB3271 MATERIAL SCIENCE LABORATORY II Introduction to composite materials. Various types of matrix and
reinforcements and its properties. Mechanical properties of single and
Students are attached to research labs carrying out mini-projects on multi layered composite materials. Fatigue and environmental effects of
experiments in material science in characterizing electrical, optical, composite materials and its applications..
magnetic, mechanical, thermal properties of photonic materials, smart
materials electrochemistry, polymer composites, semiconductor Assessment Method:
materials organic electronics, devices and advanced material Final Examination: 60%
processing while learning to use various characterizing equipments Continuous Assessment: 40%
such as scanning electron microscopy, micro-raman spectroscopy, UV-
VIS-NIR spectroscopy, Light microscopy, x-ray diffraction, scanning
probe microscopy, transmission electron microscopy, auger electron Medium of Instruction:
spectroscopy, fast fourier transform infrared spectroscopy, four-point English
probe, thermogravimetry, differential scanning calorimetry, electrical
impedance spectroscopy and simple material process technology. Soft-skills:
Students will be exposed with labviews programming. CS3, CT3, LL2
Assessment Method: References:
1. Mechanics of Composite Materials by R. M. Christensen (Aug 1,
Continuous Assessment: 100% 2005)
2. Composite Materials: Design and Applications, Second Edition by
Medium of Instruction: Daniel Gay and Suong V. Hoa (Apr 25, 2007)
English 3. Principles of Composite Material Mechanics, Second Edition
(Dekker Mechanical Engineering) by Ronald F. Gibson (May 30,
Soft-skills: 2007).
CS2, CT3, LL2
References: SMEB3291 INDUSTRIAL TRAINING
1. Y. Leng, Materials Characterization: Introduction to Microscopic
and Spectroscopic Methods, 1 edition (Wiley, Jun 2, 2008) This course provides opportunities for students to obtain training and
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2. Sam Zhang, Lin Li, Ashok Kumar Materials Characterization working experience in selected companies/ organization or industries
Techniques, 1 edition (CRC Press, Disember 22, 2008) engaged in activities in Materials Science during special semester.
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3. Angelika H. Hofmann, Scientific Writing and Communication:
Papers, Proposals, and Presentations, 1 edition (Oxford University Assessment Method:
Press, Disember 16, 2009) Continuous Assessment: 100%
Medium of Instruction:
SMEB3201 SEMICONDUCTOR MATERIAL AND DEVICES English
Charge Carriers in Semiconductors, Dopant Atoms and Energy Soft-skills:
Levels, The Extrinsic and Intrinsic Semiconductor, Fermi Energy Level, CS3, CT3, TS3, LL2, EM2, LS2
Carrier Drift, Carrier Diffusion, The Hall Effect, Carrier Generation and
Recombination, The pn Junction, pn Junction Diode, Metal- References:
Semiconductor and Semiconductor Heterojunctions, None
Semiconductor devices: Bipolar Transistor, Field-Effect Transistor,
Solar Cells, Photodetectors, Light Emitting Diodes, Tunnel Diode,
Microwave devices. SMEB3181 PROJECT I
Semiconducting Materials Technology:
Materials used for photovoltaics cells: Crystalline Silicon, Cadmium Research project in Materials Science including contract research
telluride, Copper indium galium selenide, Gallium arsenide obtained from industry
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