spectroscopy.   Introduction   of   Raman   effect.   Electronic   organometallics (carbonyl, hydride, alkyl/alkene, carbene, carbyne,
     spectroscopy of atoms and molecules; electronic term symbols for   metallocene & fullerene) organometallic reactions.
     atoms and molecules. Introduction of photoelectron spectroscopy.
     Basics  of  diatomic  and  polyatomic  molecular  electronic   Metal chemistry:
     spectroscopy.  Magnetic  nuclei  in  an  external  magnetic  field.  FT   Occurrence,  methods  of  extraction,  chemical  reactions  and
     NMR experiments. Boltzman distribution and population of energy   applications of metals, chemistry of block d and f metals.
     levels.  Relaxation  processes  and  width  of  spectral  lines.  High
     resolution  NMR  spectra:  chemical  shift  and  spin-spin  coupling.   Assessment Weightage:
     First-order  and  second-order  spectrum.  Exchange  processes.   Continuous assessment:  40%
     Double resonance experiments. NMR spectra of solids.   Final examination:   60%

     Assessment Weightage:
     Continuous assessment:  40%              SIC3021 PRACTICAL OF INORGANIC CHEMISTRY III
     Final examination:   60%
                                              Synthesis of organometallic compounds, spectroscopic analysis for
                                              structural determination and investigation of point group based on
     SIC2024   SPECTROSCOPIC   METHODS   IN   ORGANIC   IR and Raman spectra.
     CHEMISTRY
                                              Assessment Weightage:
     IR  spectroscopy:  Characteristic  functional  group  absorptions  in   Continuous assessment:  100%
     organic molecules.                       Final examination:   -

     UV   spectroscopy:   electronic   transitions   and   common
     chromophores  in  organic  compounds;  Beer-Lambert  Law  and   SIC3022 ORGANIC CHEMISTRY III
     Woodward-Fieser Rules. Correlation between optical spectra and
     MO theory.                               Strategies in multistep synthesis: retrosynthetic analysis. Synthesis
     NMR  spectroscopy:  1H-NMR  –  chemical  shift:  inductive  and   of C-C-bonds.
     anisotropic  effects;  Spin-spin  coupling:  geminal  and  vicinal
     coupling, Karplus equation; examples of 1H-1H splitting patterns;   Asymmetric  synthesis:  axial  chirality,  importance  of  enantiopure
     allylic and long-range coupling; techniques for improving the NMR   compounds,  chiral  pool;  selected  examples  of  asymmetric
     spectrum:  use  of  shift  reagents.  13C  NMR  spectrum  –  e.g.,   synthesis  including  hydrogenation,  epoxidation,  dihydroxylation,
     completely-coupled,   completely-   decoupled;   off-resonance-  use of chiral auxiliaries.
     decoupled;  APT  and  DEPT  spectra;  carbon  chemical  shifts  and
     functional groups.                       Reactivity; intermediates and product studies, energetics and
                                              kinetics, isotope effects and linear free energy relationships.
     Mass  spectrometry:  EIMS  –  molecular  ions,  isotope  peaks,
     fragmentation  ions  and  patterns.  HREIMS  and  determination  of   Assessment Weightage:
     molecular formula of organic compounds. Application of combined   Continuous assessment:  40%
     techniques in organic structure determination.   Final examination:   60%

     Assessment Weightage:
     Continuous assessment:  40%
     Final examination:   60%                 SIC3023 PRACTICAL OF ORGANIC CHEMISTRY III

                                              ‘Oligo-step’ organic synthesis; Carbonyl chemistry: Correlation of
                                              experimental operations with theory;
     SIC2025 CHEMISTRY AND SOCIETY
                                              Separation  of  organic  compounds  using  an  acid-base  extraction
     This  course  exposes  students  to  community  services  and   scheme;  application  of  qualitative  elemental  analysis,  functional
     volunteerism  with  the  knowledge  of  chemistry  to  assist  the   group tests, spectroscopy and small- scale chemical conversion for
     community in solving current issues.     the identification of organic compounds.

     Students need to plan and implement programs in groups, as well   Assessment Weightage:
     as group reports and presentations based on experiences with the   Continuous assessment:  100%
     communities.                             Final examination:   -

     Assessment Weightage:
     Continuous assessment:  100%             SIC3024 PHYSICAL CHEMISTRY III
     Final examination:   -
                                              Part A: Electronic Structure Theory and Photochemistry
                                              Linear  variational  method,  Time  independent  and  dependent
     SIC3020 INORGANIC CHEMISTRY III          perturbation theories, Angular momentum theory. Energy diagram
                                              of  many-electron  atoms,  Molecular  orbital  theory  and  electronic
     Organometallic Chemistry:                potential energy.
     Historical   background,   classification/bonding   types   of
     organometallics  compounds  of  transition  elements,  main  group   Absorption  and  emission  of  light,  Fluorescence  and  quenching,
     organometallics  &  lanthanides,  18-electron  rules,  ligands  in   Intramolecular vibrational energy redistribution, Internal conversion,
                                              Intersystem crossing, Phosphorescence, Photodissociation, Laser-