PRACTICAL (30 Hours)


                 1.  Analysis  of  mixtures  by  gravimetric  and  volumetric  methods  from  the  mixture
                     solutions:
                     Copper- Nickel
                     Copper -Magnesium
                     Copper-Zinc
                     Iron-Magnesium
                     Silver-Zinc
                     Copper-Nickel-Zinc
                     Fe(II)-Fe(III)
                 2.  Green methods of Preparation of the following:
                     Bis(acetylacetonato)copper(II)
                     Tris(acetylacetonato)iron(III)
                     Tris(acetylacetonato)manganese(III)

               SUGGUESTED READINGS:


                 1.  Purcell  K.F.  and  Kotz  J.C.,  Inorganic  Chemistry,  Pubs:  W.B.  Saunders  &  Co.,  London
                    (1977).
                 2.   Jolly W.L., Modern Inorganic Chemistry, Pubs: W.B. Saunders & Co., London (1984).
                 3.  Cotton  F.A.  and  Wilkinson  G,  Advanced  Inorganic  Chemistry,  5  th  Edition,  Pubs:Willey
                    Eastern (1989).
                 4.   Hughes M.N., Inorganic Chemistry of Biological Processes, Pubs: Willey (1972).
                 5.   Dennis,  Brown  G.,  Chemistry  of  Vitamin  B-12  and  Related  Inorganic  Model,  Systems,
                    Progress in Inorganic Chemistry (Vol.18)

               Chem.422                   Pericyclic and Asymmetric Synthesis                            3+1

               LEARNING OBJECTIVES:


               Objectives of this course are:
                     to make students familiar about the concepts and applications of pericyclic reactions and
                       asymmetric organic synthesis.
                      to  give  information  about  the  basic  principle  of  enantioselective  reactions  and
                       enantiomeric excess determination.

               LEARNING OUTCOMES:

               The student will be able to
                          To  apply  the  information  about  the  synthetic  applications  of  asymmetric  organic
                            synthesis
                          To understand the mechanisms of various pericyclic reactions.

               THEORY (45 Hours)

               UNIT-I: Pericyclic Reactions-I                                                     (11 Hours)

                Classification of pericyclic reactions, Molecular orbital and their symmetry properties, molecular
               orbitals  of  ethylene,  1,3-butadiene;1,3,5-hexatriene;  allyl  system,  Woodward-Hoffmann‘s
               conservation  of  orbital  symmetry  rule;  Analysis  of  pericyclic  reactions:  FMO  approach,
               correlation  diagrams  method  and  Perturbation  of  molecular  orbital  approach.  Cycloaddition
               reactions: Supra and antra facial additions, 4n and 4n+2 systems, 2+2 additions of ketenes. Diels-
               Alder  reactions,  1,3-Dipolar  cycloaddition  and  cheletropic  reactions,  ene  reaction,  retro-Diels-


                                                                                                           106