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	== CML738 : Applications of p-block Elements and their Compounds ==		== CML738 : Applications of p-block Elements and their Compounds ==
	Introduction, Structure, bonding and recent discussions on d orbital participation. Boranes, carboranes and metallaboranes and their use in BNCT and as control rods in nuclear reactors, modern electron counting methods such as Jemmis rules, chemistry of B(0) and B(1). GaAs, GaN, InSnO3: Synthesis and applications in solar cells, LED and as transparent conducting materials. Fullerenes, nanotubes, graphene, silicates, aluminosilicates, zeolites and their applications. Silicones and their industrial applications. Si(II) and Ge(II) chemistry. NHC's and their use in stabilizing main group compounds. Nitrogen based fertilizers, Ammonia, Haber-Bosch Process, nitrogen based explosives, hydrazines as rockel fuels, applications of azides and pentazenium. Phosphorus based fertilizer processes, phosphorus based pesticides, phosphorus-nitrogen compounds as multidentate ligands, superbases, dendrimer cores and polymers. Phosphines and their industrial uses. Frustrated Lewis acid bases as catalysts. Superacids and their uses. Sulphonamides, industrial applications of sulfur and selenium. Fluorine in pharmaceuticals, fluoropolymers. CML739/695 Applied Biocatalysis 3 Credits (3-0-0) Introduction to enzymes and enzyme catalysed reactions. Classification and mechanism of reaction. Purification and characterization of enzymes. Michelis Menten kinetics, Industrial enzymes. Applications of enzymes in diagnostics, analysis, biosensors and other industrial processes and bio-transformations. Enzyme structure determination, stability and stabilisation. Enzyme immobilization and concept of enzyme engineering. Nanobiocatalysis. CML740/675 Chemistry of Heterocyclic Compounds 3 Credits (3-0-0) Chemistry of heterocyclic compounds containing one, two and three heteroatoms. Total synthesis of representative natural products.		Introduction, Structure, bonding and recent discussions on d orbital participation. Boranes, carboranes and metallaboranes and their use in BNCT and as control rods in nuclear reactors, modern electron counting methods such as Jemmis rules, chemistry of B(0) and B(1). GaAs, GaN, InSnO3: Synthesis and applications in solar cells, LED and as transparent conducting materials. Fullerenes, nanotubes, graphene, silicates, aluminosilicates, zeolites and their applications. Silicones and their industrial applications. Si(II) and Ge(II) chemistry. NHC's and their use in stabilizing main group compounds. Nitrogen based fertilizers, Ammonia, Haber-Bosch Process, nitrogen based explosives, hydrazines as rockel fuels, applications of azides and pentazenium. Phosphorus based fertilizer processes, phosphorus based pesticides, phosphorus-nitrogen compounds as multidentate ligands, superbases, dendrimer cores and polymers. Phosphines and their industrial uses. Frustrated Lewis acid bases as catalysts. Superacids and their uses. Sulphonamides, industrial applications of sulfur and selenium. Fluorine in pharmaceuticals, fluoropolymers. [[CML739]]/695 Applied Biocatalysis 3 Credits (3-0-0) Introduction to enzymes and enzyme catalysed reactions. Classification and mechanism of reaction. Purification and characterization of enzymes. Michelis Menten kinetics, Industrial enzymes. Applications of enzymes in diagnostics, analysis, biosensors and other industrial processes and bio-transformations. Enzyme structure determination, stability and stabilisation. Enzyme immobilization and concept of enzyme engineering. Nanobiocatalysis. [[CML740]]/675 Chemistry of Heterocyclic Compounds 3 Credits (3-0-0) Chemistry of heterocyclic compounds containing one, two and three heteroatoms. Total synthesis of representative natural products.

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{{Infobox Course
| code = CML738
| name = Applications of p-block Elements and their Compounds
| credits = 3
| credit_structure = 3-0-0
| pre_requisites =
| overlaps =
}}

== CML738 : Applications of p-block Elements and their Compounds ==
Introduction, Structure, bonding and recent discussions on d orbital participation. Boranes, carboranes and metallaboranes and their use in BNCT and as control rods in nuclear reactors, modern electron counting methods such as Jemmis rules, chemistry of B(0) and B(1). GaAs, GaN, InSnO3: Synthesis and applications in solar cells, LED and as transparent conducting materials. Fullerenes, nanotubes, graphene, silicates, aluminosilicates, zeolites and their applications. Silicones and their industrial applications. Si(II) and Ge(II) chemistry. NHC's and their use in stabilizing main group compounds. Nitrogen based fertilizers, Ammonia, Haber-Bosch Process, nitrogen based explosives, hydrazines as rockel fuels, applications of azides and pentazenium. Phosphorus based fertilizer processes, phosphorus based pesticides, phosphorus-nitrogen compounds as multidentate ligands, superbases, dendrimer cores and polymers. Phosphines and their industrial uses. Frustrated Lewis acid bases as catalysts. Superacids and their uses. Sulphonamides, industrial applications of sulfur and selenium. Fluorine in pharmaceuticals, fluoropolymers. CML739/695 Applied Biocatalysis 3 Credits (3-0-0) Introduction to enzymes and enzyme catalysed reactions. Classification and mechanism of reaction. Purification and characterization of enzymes. Michelis Menten kinetics, Industrial enzymes. Applications of enzymes in diagnostics, analysis, biosensors and other industrial processes and bio-transformations. Enzyme structure determination, stability and stabilisation. Enzyme immobilization and concept of enzyme engineering. Nanobiocatalysis. CML740/675 Chemistry of Heterocyclic Compounds 3 Credits (3-0-0) Chemistry of heterocyclic compounds containing one, two and three heteroatoms. Total synthesis of representative natural products.

CML738 - Revision history

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