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Double resonance experiments. NMR spectra of 5. D. L. Pavia, G. M. Lampman, G. S. Kritz, J. A.
solids. Vyvyan, Introduction to spectroscopy, 4th ed.,
Cengage, 2009.
Assessment Weightage
Continuous assessment 40%
Summative assessment 60% SIC2025 CHEMISTRY AND SOCIETY
References: This course exposes students to community
1. 1. C. N. Banwell, Fundamentals of services and volunteerism with the knowledge of
Molecular Spectroscopy, McGraw Hill, 1994. chemistry to assist the community in solving
2. P. W. Atkins, J. D. Paula, Physical Chemistry, 11th current issues. Students need to plan and
ed., Oxford University Press, 2018. implement programs in groups, as well as group
3. P. J. Hore, Nuclear Magnetic Resonance, Oxford reports and presentations based on experiences
University Press, 1995. with the communities.
4. M. Diem, Modern Vibrational Spectroscopy, John
Wiley, 1993. Assessment Weightage
Continuous assessment 100%
SIC2024 SPECTROSCOPIC METHODS IN References:
ORGANIC CHEMISTRY 1. Lina D. Dostilio, 2017. The Community
Engagement Professional in Higher
IR spectroscopy: Characteristic functional group 2. Education: A Competency Model for an Emerging
absorptions in organic molecules. Field, Campus Compact.
3. Julia Preece 2017. University Community
UV spectroscopy: electronic transitions and Engagement and Lifelong
common chromophores in organic compounds; 4. Learning: The Porous University, Springer.
Beer-Lambert Law and Woodward-Fieser Rules. Benneworth,Paul.editor. 2013. University
Correlation between optical spectra and MO Engagement With Socially Excluded Communities,
theory. Dordrecht: Springer Netherlands: Imprint:
Springer.
NMR spectroscopy: 1H-NMR – Chemical shift: A. Hoy, M. Johnson, 2013. Deepening Community
inductive and anisotropic effects; Spin-spin Engagement in Higher Education: Forging New
coupling: geminal, vicinal, and allylic coupling, Pathways, Springer.
Karplus equation; examples of 1H-1H splitting
patterns; techniques to improve NMR spectra: use
of shift reagents. 13C NMR: completely-coupled, SIC3020 INORGANIC CHEMISTRY III
completely-decoupled, off-resonance-decoupled;
APT and DEPT spectra; carbon chemical shifts Organometallic Chemistry: Historical background,
and functional groups. classification/bonding types of organometallic
compounds of transition elements, main group
Mass spectrometry: EIMS – molecular ions, organometallics & lanthanides, 18-electron rules,
isotope peaks, fragmentation ions and patterns. ligands in organometallics (carbonyl, hydride,
HREIMS and determination of molecular formula of alkyl/alkene, carbene, carbyne, metallocene &
organic compounds. Application of combined fullerene), organometallic reactions.
techniques in organic structure determination.
Metal chemistry: Occurrence, methods of
Assessment Weightage extraction, chemical reactions and applications of
Continuous assessment 40% metals, chemistry of block d and f metals.
Summative assessment 60%
Assessment Weightage
References: Continuous assessment 40%
1. R. M. Silverstein, F. X. Webster, D. J. Kiemle, Summative assessment 60%
Spectroscopic identification of organic compounds,
7th ed., John Wiley, 2005. References:
2. Kamaliah Mahmood dan Noorsaadah Abd 1. E. Housecroft and A. G. Sharpe, Inorganic
Rahman, Kaedah Kimia dalam pengenalpastian Chemistry, 5th edn., Pearson Prentice Hall, 2018.
Sebatian Organik, Penerbit Universiti Malaya, 2. M. Weller, T. Overton and J. Rourke, Inorganic
1998. Chemistry, 7th edn, Oxford University Press, 2018.
3. P. Crews, J. Rodriguez, M. Jaspars, Organic 3. J. E. House and K. A. House, Descriptive Inorganic
structure analysis, 2nd ed., Oxford University Chemistry, 3rd edn., Academic Press, 2015.
Press, New York, 2009.
4. D. Williams, I. Flemming, Spectroscopic methods
in organic chemistry, 6th ed., McGraw-Hill, 2007.
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