Page 170 - Handbook Bachelor Degree of Science Academic Session 20202021
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Faculty of Science Handbook, Session 2019/2020
4. W.D. Kingery, H.K. Bowen and D.R. Uhlmann, Introduction 3. Skoog, Holler and Nieman, Principles of Instrumental
to Ceramics, John Wiley & Sons. Analysis, 1998.
5. H. R. Allock. Introduction to Materials Chemistry. John
Wiley & Sons, 2011. SID3013 APPLIED CATALYSIS
SID3011 APPLIED ORGANOMETALLIC CHEMISTRY Principles of catalysis, importance and implication of
catalysts in a reaction. Concept of homogeneous,
General introduction to types of ligands like phosphines, heterogeneous and biocatalysis (enzyme) in general.
CO, hydrides and carbenes. Industrial catalytic cycles such Catalytic function and structure, catalyst design, synthetic
as hydrogenations, hydroformilations & oligomerization methods.
were discussed. Homogeneous and heterogenous
catalysis: the use of transition metal complexes in catalytic Catalyst performance and causes for the deactivation.
cycle and application of organometallic compounds in Examples in the application of homogeneous,
organic synthesis were also studied. heterogeneous and biocatalysis in industrial processes.
Assessment Methods:
Identify organometallic compounds used in biological Continuous assessment: 30%
processes & drugs. Definition of cancer cells & treatments Final examination: 70%
using organometallic compounds. Reaction mechanism.
Defination of diabetic mellitususage of organometallic Medium of instruction:
compounds in treating diabetic patients. Preparation of English
these complexes. Structure and activity relationship. Other
biological applications of organometallic compounds. References:
1. Rothenberg, G. (2008). Catalysis: Concept and Green
Assessment Methods: Applications, Wiley-VCH.
Continuous assessment: 30% 2. Moulijn, J.A. van Leeuwen, P.W.N.M and van Santen,
Final examination: 70% R.A (1993). Catalysis: An Intergrated Approach to
Homogeneous, Heterogeneous and Industrial Catalysis.
Medium of instruction: (Studies in surface science and catalysis). Elsevier.
English
SID3014 FOOD PROCESSING AND SAFETY
References:
1. Christopher Elschenbroich & Albrecht Salzer, Type and function of food additives. Chemical and
Organometallics: A Concise Introduction, VCH, 1989 biochemical reactions during processing that influence food
2. W. Kaim and B. Schwederski, Bioinorganic Chemistry: quality. Preservation techniques; food analysis and
Inorganic elements in the Chemistry of Life, John Wiley & monitoring. Introduction to legislation on food safety.
Sons, 1995.
3. Coordination Chemistry Reviews Journal Assessment Methods:
4. Journal of Inorganic Biochemistry Continuous assessment: 50%
5. Journal of Organometallic Chemistry Final examination: 50%
Medium of instruction:
SID3012 APPLIED ELECTROCHEMISTRY English
Electroplating: describe, define and contrast different types References:
of deposition techniques. Identify and describe advantages 1. Srinivasan Damodaran, Kirk L. Parkin, Owen R.
and disadvantages of electroplating. Fennema (2007). Fennema’s Food Chemistry, 4th
Edition, CRC Press.
Battery and fuel cells: describe fundamentals and analyze 2. Bloomfield (1996). Chemistry and living organism. John
components of a battery, charge and discharge of battery, Wiley & Sons.
types of battery, types of fuel cells. Compare and contrast
different types of batteries and fuel cells. SID3015 OLEOCHEMISTRY
Corrosion: describe “corrosion cell”. Describe, define and Oleochemistry is about understanding, modification and
compare different of types of corrosion in industry. use of chemicals which are environmentally friendly, based
Describe, explain and define types of corrosion protection. oils and fats from plants and animals. Nowadays
oleochemical ingredients can be produced from oil and fat
Electrochemical sensors: describe, define, compare and by processing plant or via modification in the catalytic
contrast potentiometric and amperometric sensors and the cracking without catalyst or enzymatic. Oleochemical
fundamentals underlying them, identify factors for a good substances used as raw materials in the food and non-food
electrochemical sensor, describe examples of industries after making certain additions and alterations to
electrochemical sensors. convert it to other oleochemical compounds for
multipurpose application. Exploration of the use of the
Assessment Methods: compound in the oleochemical manufacturing sector (20%)
Continuous assessment: 30% such as advanced materials, construction, machinery,
Final examination: 70% printing, cleaning, pharmaceutical, personal care and
grooming has helped the development of oil and fat,
Medium of instruction: especially in the oil palm industry.
English
Assessment Methods:
References: Continuous assessment: 30%
1. D. Pletcher and F.C. Walsh, Industrial Electrochemistry, Final examination: 70%
nd
2 Edition, 1990.
2. J. Wang, Analytical Electrochemistry, 2000. Medium of instruction:
English
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