Teaching
UG courses
CML-101 (Sem II, 2023-24): Introduction to Chemistry for First Year B. Tech. Student
3 credits (3-1-0)
Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, the physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure, and reactivity of organic, inorganic, and organometallic compounds, basic strategies for the synthesis of carbon and silicon-containing compounds, coordination chemistry, the role of inorganic chemistry in living systems.
CMP-100 (Sem II, 2023-24): Basic Chemistry Laboratory Course for First Year B. Tech. Student
2 credits (0-0-4)
Experiments involve the following: Titrations, Surface Tension, and Viscosity, Potentiometery, Conductometry, Preparation of metal complexes and important organic compounds, Kinetics, Chromatography, Qualitative and quantitative estimation of organic compounds.
CML-101 (Summer Sem, 2023): Tutorials for First Year B. Tech. Student
3 credits (3-1-0)
Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, the physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure, and reactivity of organic, inorganic, and organometallic compounds, basic strategies for the synthesis of carbon and silicon-containing compounds, coordination chemistry, the role of inorganic chemistry in living systems.
CMP-100 (Sem II, 2022-23): Basic Chemistry Laboratory Course for First Year B. Tech. Student
2 credits (0-0-4)
Experiments involve the following: Titrations, Surface Tension, and Viscosity, Potentiometery, Conductometry, Preparation of metal complexes and important organic compounds, Kinetics, Chromatography, Qualitative and quantitative estimation of organic compounds.
CMP-100 (Sem I, 2022-23): Basic Chemistry Laboratory Course for First Year B. Tech. Student
2 credits (0-0-4)
Experiments involve the following: Titrations, Surface Tension, and Viscosity, Potentiometery, Conductometry, Preparation of metal complexes and important organic compounds, Kinetics, Chromatography, Qualitative and quantitative estimation of organic compounds.
CML-101 (Sem II, 2021-22): Introduction to Chemistry for First Year B. Tech. Student
3 credits (3-1-0)
Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, the physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure, and reactivity of organic, inorganic, and organometallic compounds, basic strategies for the synthesis of carbon and silicon-containing compounds, coordination chemistry, the role of inorganic chemistry in living systems.
CML-101 (Sem I, 2020-21): Introduction to Chemistry for First Year B. Tech. Student
3 credits (3-1-0)
Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, the physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure, and reactivity of organic, inorganic, and organometallic compounds, basic strategies for the synthesis of carbon and silicon-containing compounds, coordination chemistry, the role of inorganic chemistry in living systems.
CMP-100 (Sem I, 2019-20): Basic Chemistry Laboratory Course for First Year B. Tech. Student
2 credits (0-0-4)
Experiments involve the following: Titrations, Surface Tension, and Viscosity, Potentiometery, Conductometry, Preparation of metal complexes and important organic compounds, Kinetics, Chromatography, Qualitative and quantitative estimation of organic compounds.
CMP-100 (Sem II, 2019-20): Basic Chemistry Laboratory Course for First Year B. Tech. Student
2 credits (0-0-4)
Experiments involve the following: Titrations, Surface Tension, and Viscosity, Potentiometery, Conductometry, Preparation of metal complexes and important organic compounds, Kinetics, Chromatography, Qualitative and quantitative estimation of organic compounds.
PG courses
CML-741 (Sem I, 2023-24): Organo and Organometallic Catalysis
3 Credits (3-0-0)
Introduction. Enamine catalysis. Iminium catalysis. Asymmetric proton catalysis. Ammonium ions as chiral templates. Chiral Lewis bases as catalysts. Asymmetric acyl transfer reactions. Ylide based reactions. Transition metal catalyzed reactions. C-H activation. N-Heterocyclic carbenes.
CML-741 (Sem II, 2022-23): Organo and Organometallic Catalysis
3 Credits (3-0-0)
Introduction. Enamine catalysis. Iminium catalysis. Asymmetric proton catalysis. Ammonium ions as chiral templates. Chiral Lewis bases as catalysts. Asymmetric acyl transfer reactions. Ylide based reactions. Transition metal catalyzed reactions. C-H activation. N-Heterocyclic carbenes.
CML-741 (Sem I, 2022-23): Organo and Organometallic Catalysis
3 Credits (3-0-0)
Introduction. Enamine catalysis. Iminium catalysis. Asymmetric proton catalysis. Ammonium ions as chiral templates. Chiral Lewis bases as catalysts. Asymmetric acyl transfer reactions. Ylide based reactions. Transition metal catalyzed reactions. C-H activation. N-Heterocyclic carbenes.
CMP-521 (Sem I, 2021-22): Laboratory-III (Organic Chemistry ) for PG Student
2 credits (0-0-4)
Basic laboratory techniques to synthesize, purify, and characterize small organic molecules by analytical and spectroscopic methods.
CML-523 (Sem II, 2022-23): Organic Synthesis
3 Credits (3-0-0)
Formation of carbon-carbon bonds including organometallic reactions, Synthetic applications of organoboranes and organosilanes, Reactions at unactivated C-H bonds, Oxidations, Reductions, Newer Reagents, Design of organic synthesis, Retrosynthetic analysis, Selectivity in organic synthesis, Protection and deprotection of functional groups, Multistep synthesis of some representative molecules.
CML-721 (Sem I, 2021-22): Design and Synthesis of Organic Molecules
3 Credits (3-0-0)
Selectivity in organic synthesis: chemo-, regio-, stereo-, and enantioselectivity. Target-oriented synthesis: Designing organic synthesis, Retrosynthetic analysis, disconnection approach, linear and convergent synthesis. Diversity-oriented synthesis: the concept of forward-synthetic analysis, appendage diversity, skeletal diversity, stereochemical diversity, complexity, and diversity. Asymmetric Synthesis: Use of chiral catalysts, organocatalysis, Chiron approach, and N-heterocyclic carbenes. Principles and use of enzymes in the synthesis of industrially important sugar / fatty acid esters, sugar nucleotide derivatives; enantiomeric pure compounds, and biobased platform chemicals.
CML-741 (Sem I, 2020-21): Organo and Organometallic Catalysis
3 Credits (3-0-0)
Introduction. Enamine catalysis. Iminium catalysis. Asymmetric proton catalysis. Ammonium ions as chiral templates. Chiral Lewis bases as catalysts. Asymmetric acyl transfer reactions. Ylide based reactions. Transition metal catalyzed reactions. C-H activation. N-Heterocyclic carbenes.
CML-741 (Sem I, 2019-20): Organo and Organometallic Catalysis
3 Credits (3-0-0)
Introduction. Enamine catalysis. Iminium catalysis. Asymmetric proton catalysis. Ammonium ions as chiral templates. Chiral Lewis bases as catalysts. Asymmetric acyl transfer reactions. Ylide based reactions. Transition metal catalyzed reactions. C-H activation. N-Heterocyclic carbenes.
CML-523 (Sem II, 2020-21): Organic Synthesis
3 Credits (3-0-0)
Formation of carbon-carbon bonds including organometallic reactions, Synthetic applications of organoboranes and organosilanes, Reactions at unactivated C-H bonds, Oxidations, Reductions, Newer Reagents, Design of organic synthesis, Retrosynthetic analysis, Selectivity in organic synthesis, Protection and deprotection of functional groups, Multistep synthesis of some representative molecules.
CML-101 (Sem II, 2021-22): Introduction to Chemistry for First Year B. Tech. Student
3 credits (3-1-0)
Entropy and free energy changes in chemical processes, chemical equilibria, phase transformations, structure and dynamics of microscopic systems, the physical basis of atomic and molecular structure, three-dimensional arrangement of atoms in molecules, structure, and reactivity of organic, inorganic, and organometallic compounds, basic strategies for the synthesis of carbon and silicon-containing compounds, coordination chemistry, the role of inorganic chemistry in living systems.