Page 166 - Handbook Bachelor Degree of Science Academic Session 20202021
P. 166
Faculty of Science Handbook, Session 2019/2020
References: Chemistry.3 Edition. CRC Press
rd
1. A.J Bard and L.R Faulkner, Electrochemical Methods 4. A. Aveyard, D. A.Haydon. (1993) An Introduction to
Fundamental and Application, 2nd. Edition, John Wiley & Principles of Surfaces Chemistry. Cambridge University
Sons, 2001. Press
2. D. Pletcher and F.C. Walsh, Industrial Electrochemistry, 5. D.F. Evans, H. Wennerstrom. (1999). The Colloidal
nd
Springer netherland, 1993. Domain.2 Edition. Wiley
3. K. Oldheim, J. Mayland and A. Bond, Electrochemical 6. D.H. Everett. (1998). Basic Prinsciple of Colloid Science.
Science and Technology: Fundamental and RSC
Applications, John Wiley and Sons, 2011.
4. P. W. Atkins and J. de Paula, Physical Chemistry, 11 SID2014 PROCESSING OF THERMOPLASTICS AND
th
ed., Oxford University Press, 2018. THERMOSETS
Materials: Thermoplastic, thermoset, additives.
SID2012 COMPUTATIONAL METHOD IN APPLIED Applications, differences, advantages and disadvantages
CHEMISTRY between them.
Introduction to computers – history, elements in computers, Processing of thermoplastic:
operating system, computers in chemistry, internet. Internet Overview of processing technology – selection and
based chemistry – introduction to web technologies useful application. Extrusion – machine construction, process
in chemistry, chemical databases, use of chemical web analysis.
services. Injection blow moulding, injection moulding – principle of
machine design, mould, temperature control.
Introduction to computational chemistry – history and Other processes – calendering, thermoforming, rotational
development, techniques, molecular mechanics and moulding, etc
molecular simulations as well as application examples.
Processing of thermoset and rubber:
Practical laboratory – Basic programming and practical Types/classification of materials, include composite and
computational chemistry software. fibres, properties and application. Vulcanisation and cure.
Extrusion, compression moulding, transfer moulding,
Assessment Methods: injection moulding and specialised techniques.
Practical: 40%
Continuous assessment: 10% Assessment Methods:
Final examination: 50% Continuous assessment: 40%
Final examination: 60%
Medium of instruction:
English Medium of instruction:
English
References:
1. Hinchliffe, A. (2008). Molecular Modelling for Beginners. References:
John Wiley & Sons Ltd. UK. 1. Donald G. Baird, Dimitris I. Collias (2014), Polymer
2. Leach, A. R. (2001). Molecular Modeling Principles and Processing: Principles and Design, 2nd Edition, Wiley
nd
Applications. 2 Ed. Prentice Hall, New Jersey. 2. Charles A. Harper, Edward M. Petrie (2013), Plastics
3. Grant, G. H. and Richards, W. G. (1995). Computational Materials and Processes: A Concise Encyclopedia, Wiley
Chemistry. Oxford University Press, Oxford. 3. S Thomas, Weimin Yang (Ed.) (2009), Advances in
4. Young, David C. (2001). Computational Chemistry: A Polymer Processing: From Macro- To Nano- Scales,
Practical Guide for Applying Techniques to Real World Elsevier
Problems, John Wiley & Sons, Inc., New York.
5. Dill, K.A. and Bromberg, S. (2003). Molecular Driving SID3001 ADVANCED INORGANIC CHEMISTRY
Forces: Statistical Thermodynamics in Chemistry &
Biology, Garland Science, USA. Organometallics Chemistry
Introduction to organometallics complexes of transition
metals, lanthanide, actinide and main group metals;
SID2013 COLLOID AND INTERFACIAL CHEMISTRY preparation of carbonyl, olefin, carbene and metallocene
complexes; application of organometallics as catalyst.
Introduction to colloidal dispersion and types of colloidal Introduction to inorganic reaction mechanism; dissociative,
dispersions. Particles in the box and colloid chemistry. associative and interchange mechanisms; derivation of rate
Brownian motion, Surface charge and colloidal stability. law; substitution reactions of octahedral, tetrahedral & 5-
Particle size and fluid deformation. Viscosity, coordinate systems; substitution reactions catalysed by
sedimentation and rheology. Self-assembly colloids and acid and base; inner-sphere and outer-sphere mechanisms
their interfacial properties. Instrumentations in Colloidal
Chemistry, interfaces, nano-science and nanotechnology. Physical methods in Inorganic Chemistry
Spectroscopic techniques: vibrational, EPR/ESR,
Assessment Methods: multinuclear NMR (eg. P, F, 119 Sn)
31
19
Continuous assessment: 40% Vibrational: Introduction, theoretic background, selection
Final examination: 60% rules, applications.
Medium of instruction: EPR/ESR: background, introduction, electronic structure of
English atoms and open-shell ions, spin-orbit coupling, g-values,
Zeeman interaction, hyperfine coupling, hyperfine
References: anisotropy, applications
1. A.W. Adamson. (1997). Physical Chemistry of Multinuclear NMR: Introduction, theoretic background,
th
Surfaces.7 Edition. Wiley applications
2. D.J. Shaw. (1992). Introduction to Colloid & Surfaces
th
Chemistry. 4 Edition. BH
3. P.C. Hiemanz. (1997). Principles of Colloid & Surfaces
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