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Faculty of Science Handbook, Session 2019/2020
References: SMEB4301 ELECTROCHEMISTRY
1. Fundamentals of Photonics (Wiley Series in Pure and Applied
Optics) by Bahaa E. A. Saleh and Malvin Carl Teich (Mar 9, 2007) Electrolytes-Liquid Electrolyte Solutions, Ionic Melts, Ionic
2. Photonics: Optical Electronics in Modern Communications (The Conductance in Polymers, Ionic Conductance in Solids
Oxford Series in Electrical and Computer Engineering) by Amnon Electrode Potentials-Pure Metals, Alloys, Intermetallic Phases and
Yariv and Pochi Yeh (Jan 26, 2006) Compounds
3. Physics of Photonic Devices (Wiley Series in Pure and Applied Ad-Atoms and Underpotential Deposition-The Thermodynamic
Optics) by Shun Lien Chuang (Jan 20, 2009) Description of the Interphase, The Thermodynamic Description of the
Interphase, Ad-Atoms, Underpotential Deposition
Mass Transport.: Stationary Diffusion, Diffusion in Solid Phases,
SMEB3305 ORGANIC ELECTRONICS Methods to Control Diffusion Overpotential
Charge Transfer-Electron Transfer, Electrochemical Reaction Orders,
Organic electronics as a green technology Ion Transfer, Charge Transfer and Mass Transport
Fundamental of organic semiconducting materials: Pi-conjugation, Deposition of Alloys-Alloy Nucleation and Growth: The Partial Current
HOMO, LUMO levels, electron withdrawing and donating groups, Concept,
molecular engineering, electronic charge transport, packing and phases. Oxide Particles, Corrosion and Corrosion Protection
Device Physics: Charge transport and injection, magnetic field effect, Electrolyte devices
interface effect, polaron, exciton, organic light emitting diode, singlet,
triplet, emission efficiency organic field effect transistor, insulator- Assessment Method:
semiconductor properties, organic solar cells, Bulk heterojunction, Final Examination: 50%
bilayer, power conversion efficiency, materials used for organic Continuous Assessment: 50%
electronic devices.
Materials for organic electronics as chemical and biological sensors. Medium of Instruction:
Encapsulation technology, fabrication and process technology, material English
degradation
Soft-skills:
Assessment Method: CS3, CT3, LL2
Final Examination: 50%
Continuous Assessment: 50% References:
Medium of Instruction: 1. Allen J. Bard and Larry R. Faulkner , Electrochemical Methods:
English Fundamentals and Applications , 2 Edition (Wiley, 2001)
nd
2. John O'M. Bockris, Amulya K.N. Reddy and Maria E. Gamboa-
Soft-skills: Aldeco, Modern Electrochemistry 2A: Fundamentals of Electrodics,
CS2, CT3, LL2 Volume 2 (Springer, 2001)
3. John Newman and Karen E. Thomas-Alyea, Electrochemical
References: Systems, 3rd Edition (Wiley, 2004)
1. Organic Electronics: Materials, Processing, Devices and
Applications by Franky So (Nov 24, 2009)
2. Organic Electronics: Materials, Manufacturing, and Applications by SMEB4302 ADVANCED MATERIALS PROCESSING TECHNOLOGY
Hagen Klauk (Aug 31, 2006)
3. Introduction to Organic Electronic and Optoelectronic Materials and Physical process: Thermal vacuum deposition, e-beam sputtering,
Devices (Optical Science and Engineering) by Sam-Shajing Sun plasma etching, plasma cleaning and conditioning , chemical vapour
and Larry R. Dalton (May 29, 2008) deposition, Metal –organic vapour phase epitaxy, molecular-beam
epitaxy, vacuum pressure impregnation, micro-nano-laser fabrication
SMEB3306 SMART MATERIALS and processing,
Chemical process: sol-gel processing, hydrothermal, solvothermal,
Smart materials versus high performance materials, ionothermal, self-assembly assisted method, pyrolysis, radiation
Mechanism and applications of Piezoelectric materials ,shape memory assisted method
alloys, light induced shape-memory polymer, electro-active induced Basic processing of bulk ceramic: Preparation of polymers and glass
shape memory polymer, thermal induced shape memory polymer, pH- Fabrication methods, diffusion, ion implantation, lithography,
sensitive polymers, electrochromic materials, photochromic material, metallization.
Ferrofluid, Self-healing materials, dielectric elastomers, aerogel, Invitation from industry to give a presentation on Advanced Materials
integration of smart materials into a system: micro-electromechanical Processing Technology in his/her company.
systems, smart dust.
Assessment Method:
Assessment Method: Final Examination: 50%
Final Examination: 50% Continuous Assessment: 50%
Continuous Assessment: 50%
Medium of Instruction:
Medium of Instruction: English
English
Soft-skills:
Soft-skills: CS2, CT3, LL2
CS3, CT3, LL2
References:
References: 1. Thin-Film Deposition: Principles and Practice by Donald Smith
1. Donald J. Leo, Engineering analysis of smart material systems 2. Handbook of Physical Vapor Deposition (PVD) Processing
(Wiley 2007) (Materials Science and Process Technology) by Donald M. Mattox
2. H. R. Chen, Shape Memory Alloys: Manufacture, Properties and 3. Advanced Ceramic Processing & Technology (Materials Science
Applications (Nova Science Pub Inc, 2010) and Process Technology)
3. Andreas Lendlein, Shape-Memory Polymers (Springer 2010)
SMEB4303 COMPUTATION AND SIMULATION
This course explores the basic concepts of computer modelling and
simulation in science and engineering. We'll use techniques and
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