AC – 14/06/2018
Item No. 4.72
UNIVERSITY OF MUMBAI
Program : M .Sc.
( Choice Based Credit System )
Course : M.Sc. Physical Chemistry
Syllabus for Semester III & IV
(To be implemented from the Academic year 2018 -2019 )
M.Sc. PHYSICAL CHEMISTRY
SEMESTER III
PSCHP 301
Paper I
Chemistry: Polymer, Surface &
Photo
UNIT - I: Polymer Chemistry -I (15L)
1.1 Introduction : Polymer Science, fundamental terms, historical outline, classification
based on: the origin (natural, semi -synthetic, synthetic etc.),the structure (linear,
branched, network, hyper branched, dendrimer, ladder, cross linked, IPN),the type of
atom in the main chain(homochain,heter ochain),the
formation(condensation,addition), homo polymers,co
polymers(random,alternate,block,graft),the behavior onapplication of heat
(thermoplastic and thermosetting),the form and application (plastics, fibre,
elastomersan dresins). (05L)
1.2 Molar Mass : Molecular weight averages, fractionation, molecular weight
determination by GPC/SEC ,end group analysis, viscometry, vapour phase osmometry,
gradient elution, and molecular weight distribution curve . (05L)
1.3 Types of polymerization : conde nsation, addition (cationic and
anionic)and copolymerization(withk inetics),chain transfer reactions. (05L)
Reference Books ;
1. P. Bahadur and N. V. Sastry, Principles of Polymer Science, second
edition,NarosaPublishingHouse,2005.
2. C. E. Carrah er, Jr., Carraher’s Polymer Chemistry, 8thedition, CRC Press, New
York,2010.
3. JoelR.Fried,PolymerScienceandTechnology,Prentice -HallofIndiaPvt.Ltd., 2000.
4. V.R.Gowarikar,H.V.ViswanathanandJ.Sreedhar,PolymerScience.NewAge
InternationalPvt.Ltd.,NewDelhi,1990.
5. F. W. Billmeyer Jr., Text Book of Polymer Science, 3rdedition, John Wiley and
Sons,1984.
6 V.K.Ahluwalia&A. Mishra , Polymer Scienc e, A text book,Ane -Books Pvt.
Ltd,2008.
7 R.Sinha, Outline of Polymer Technology manufacture of Polymers, Prenticehall
ofIndiaPvt.Ltd.2000
8 F.J.Davis,PolymerChemistry,Oxford UniversityPress,2000.
9 D.Walton&P.lotimer,Polymer,Oxford UniversityPress,2000.
10R.Ypung,IntroductiontoPolymers,Chapman&Hall,reprint,989.
11V.Jain.OrganicPolymerChemistry,IVYPublishingHouse,2003.
12A.S ingh,PolymerChemistry,CampusBookInternational,2003.
Books for further reading:
1. J. M. G. Cowie, Polymers: Chemistry and Physics of Modern Materials, 2nded.
(firstIndianReprint2004),ReplikaPressPvt.Ltd.
2. G.S.Misra ,IntroductoryPolymerChemistry,NewAgeInternational(P)Limited,
Publishers,1993.
3. L. H. Sperling, Introduction to Physical Polymer Science. 2ndEdition, John
WileyandSons.Inc.
4. Hans -GeorgElias,AnIntroductiontopolymerScience,VCH1997.
5. Charles E. Seymour, Jr., Seym our/Carraher’s Polymer Chemistry, 6thed., Marcel
Dekker, Inc.,2003.
6. A. Ravve, Principles of Polymer Science, 2nded., Kluwer Academic/Plenum
Publishers,NewYork,2000.
7. Vidyagauri Lele, Chemical modification of starch by green process, Techno
World Press, 2015.
8. Vidyagauri Lele, Graft copolymers of starch -Synthesis & Characterization,
Neeraj Publishing House, 2015.
UNIT -II Modern Applications of Surface Chemistry (15L)
2.1 Surface active agents and micelle : (08L)
2.1.1 Surface active agents andt their classification,hydrophile -lipophile
balance (02L)
2.1.2 Micellization : shape and structure of micelles , hydrophobic interaction, critical
Micelles concentration ( cmc) , factors affecting cmc of surfactants, counter i on binding
to micelles, micelle catalysis,reverse micelles. (04L)
2.1.3 Emulsions : Solubilization, micro emulsions, characterization of
microemulsions, (02L)
Reference Books :
1. M. J. Rosen. Surfactants and Interfacial Phenomena (3rd edn.), John Wiley
(2004).
2. Y. Moroi, Micelles: Theoretical and Applied Aspects, (1992) Plenum Press,New
York
3. ArunK.Chattopadhyay ,KashmiriLalMittal ,SurfactantsinSolution, Volume64of
Surfactant Science Series ,Volume 64 of Lecture Notes in Pure and Applied
Mathematics ,illustrated,MarcelDekker,1996
4. K.L.Mittal ,AmericanChemicalSociety ,Micellization,solubilization,and
microemulsions,Volume1
Micellization,Solubilization,andMicroemulsions ,AmericanChemicalSociet y,
illustrated,PlenumPress,1977
5. DeepakThassu ,MichelDeleers ,YashwantPathak ,NanoparticleDrugDelivery
Systems
Volume166ofDrugsandthePharmaceuticalSciencesSeries illustrated,CRC
Press,2007
Reference Books
1. K.R.Lange.Surfactants,HanserPub.(1999).
2. R.Zana(ed.). DynamicsofSurfactantSelf -Assemblies,CRCPress(2005).
3. M.Abe&J.F.Scamehorn.MixedSurfactantSystems,CRCPress(2004).
2.2 Hydrogen storage by Adsorption : (07L)
2.2.1 Hydrogen storage : fundamentals physisorption , temperature and pressure
influence,chemisorption,adsorption energy,‘Electrochemical’adsorption. (03L)
2.2.2. Practical adsorption : storage of hydrogen with carbon materials, activated
carbon,graphite graphene,carbon nano structures,fullerene.Carbon nano fibres(CNF)
and graphite nano fibers electrochemical storage of hydrogen in carbon materials. (04)
Reference books:
1.Tushar K. Ghosh , Energy Resources and Systems: Volume 2: Renewable
Resources, Volume2 of Energy Resources and Systems ,Energy Resources and
Systems ,Springer Link:Büch er,Springer,2011
2.R. Str¨obel a, J. Garche b, P.T. Moseley c, L. J¨orissen b, G. Wolfd. "Review
Hydrogen storage by carbon materials." Journal of Power Sources
(WWW.Sciencedirect.com) 159 (June 2006): 781 –801.
3. Agata Godula -Jopek ,Walter Jehle ,Joerg Wellnitz ,Hydrogen Storage
Technologies:New Materials,Transport,and Infrastructure,JohnWiley&Sons,
2012
4. Yury Gogotsi ,CarbonNanomaterials,illustrated Volume1of Advanced Materials
Series ,Advanced Materials and Technologies Series ,CRCPress,2006
5. Robert A. Varin ,TomaszCzujko ,Zbigniew S. Wronski ,Nano materials for Solid
State Hydrogen Storage FuelCellsandHydrogenEnergy illustratedSpringer,2009
UNIT -III Photo Chemistry -I (15L)
3.1 Photo chemical principles : Environmental effect on absorption and emission
spectra, properties ofexcited states, excited stateacidity constants, dipole momentsand
redox properties, Importance of photochemistry, origin of life, (04L)
3.2 Photo physical processes in electronically e xcited molecules: types of photo
physical pathways, types of radiation less transitions, fluorescence emission,
fluorescence and structure. Triplet state and phosphorescence emission, delayed
fluorescence –etypeandp -typedelayedfluorescence. (06L)
3.3 Photo chemical reactions : ketones,olefins conjugated olefins andaromatic
compounds , photosynthesis. (05L)
Reference Books for Photochemistry
1 C.H.DePuy,O.L.Chapman,Molecular reactions and photo
chemistry,Prenticehall of India PVT.LTD.1988.
2 K.K.Rohatgi -Mukherjee. Fundamentals of Photochemistry. Reprint 2002. New
Age International Publisher,1978.
UNIT -IV Applications of Fluorescence Phenomena (15L)
4.1 Fluorescence sensing: Mechanism of sensing; sensing techniques based on
Coalitional quenching, energy transfer , elect ron transfer; examples of pH sensors
glucose sensors and protein sensors . (05L)
4.2 Novel fluorophores : Quantum dots, lant hanides and long -lifetime
Metal - ligand complexes. (05L)
4.3 Radiative decay engineering : metal enhanced fluorescence (03L)
4.4 DNA technology –sequencing. (02L)
Reference Books :
1. B. Valeur, Molecular Fluorescence: Principles and Applications, Wiley -VCH
(2001).
2. J.R.Lakowicz, Principles of Fluorescence Spectroscopy,Springer(2006).
Reference Book
1. D.L.Andrews &A. A. Demidov, Resonance Energy Transfer, John Wiley & Sons
(1999).
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Semester – III
PSCHP 302
Paper II
Nano chemistry, statistical mechanics &Nuclear chemistry
UNIT -I:Nano chemistry of ,gold,cadmium ,selenide. (15L)
1.1 Variation of optica l and magnetic properties of non material lwith
size,shape,surface characteristics and impurities (04L)
1.2 Relationship between size and shape of nano materials (03L)
1.3 Nano architecture: self assembly and template methods (03L)
1.4 Diagnosis and treatment of diseases using nano particles (03L)
1.5 Safety and ethics of use of nano particles (02L)
UNIT -II Nano chemistry of silica and poly dimethyl siloxane: (15L)
2.1 Variation of optical and magnetic properties of nano materials with size, shape,
surface characteristics and impurities (04L)
2.2 Relationship between size and shape of nano materials. (03L)
2.3 Nano architecture:self assembly and template methods. (04L)
2.4 Diagnosis and treatment of diseases using nano particles (04L)
Reference Books :
1. Ludovico Cademartiri and GeoffreyA.Ozin,Concepts of Nano chemistry,Wiley –
VCHVerlagGmbH&co,2009
2. C.Bréchignac ,P.Houdy ,MarcelLahmani , Nano materials and Nano
chemistry, Springer,2007
3. C.N.R.Rao ,Achim Müller ,Anthony K. Cheetham , Nano materials Chemistry
,John Wiley & Sons, 2007
4. Geoffrey A. Ozin ,André C. Arsenault ,Ludovico Cademartiri , Nano chemistry: A
Chemical Approach to Nano materials, Royal Society of Chemistry
(GreatBritain)2, illustrated, Royal Society of Chemistry,2009
Unit- III Statistical Mechanics (15L)
3.1Thermodynamic probability: Combinatral problems, Strilling apporoximation ,
Lagranges method , macro and microstates,ensembles,Boltzmann distribution law.(03)
3.2 Partition functions :Translational,rotational,vibrational,electronic and nuclear
partition functions, Expressions for the thermodynamic functions interms of partition
function -Internal energy, heat capacity, the Helmholtz and Gibbs functions, Enthalpy,
entropy and equilibrium constants. Sackur –Tetrode equation for the entropy of a mono
atom ic gas. Molecular partition function. (07L)
3.3 Maxwell -Boltzmann,Bose -Einstein and Fermi -Dirac statistics. (03L)
3.4 Debye and Einstein theory of specific heats of solids. (02L)
Reference Books :
1. AtkinsP.W,PhysicalChemistry,Oxford UniversityPress,6thedition,1998
2. JohnM.Seddon&JulianD.Gale,Thermodynamics and statistical mechanics,
Tutorial Chemistry Textsseries,Vol.10,Royalsociety of Chemistry,2001.
3. Silbey RJ & Alberty RA,Physical Chemistry,3rd edition,John Wiley and sons,
Inc.2002.
4. Laidler K.J. and Meiser J.H., Physical Chemistry, 2ndedition, CBS publishers &
distributors,1999.
5. B.K.Agarwal and M.Eisner,Statistical Mechanics,(1988)Wiley Eastern,New
Delhi.
6. D.A.McQuarrie,Statistical mechanics, (1976)Harper and Row Publishers, New
York.
UNIT—IV Nuclear Chemistry (15L)
4.1 Charged particle accelerator - linear acc elerator, cyclotron, Betatron, S ynchro -
cyclotron, synchrotron (04L)
4.2 Nuclear forces - characteristics and Meson field theory of nuclear forces (02L)
4.3 Nuclear Models -Liquid drop model , Fermi Gas Model, Shell Model, Collective
Model, Optical Model . (04L)
4.4 Applications of Nuclear radiations - geological applications of radioactivity,
age of mineral s and rocks, age of earth and solar system, medical, industrial and
agricultural applications of radiochemistry, positron emission tomography,
Radio immune assay. (05L)
Reference Books :
1. G.Friedlander,J.W. Kennedy.Nuclear and Radio chemistry.Third.John
Wiley and sons,,1981.
2. H.J.Arnikar,Essentials of Nuclear Chemistry.second.Wiley Eastern Ltd.,
1989.
SEMESTER -III
PSCHP 303
Paper -III
Atomic and Molecular: Structure and
Spectroscopy
UNIT -I:Atomic structure (15L)
1.1: Introduction to approximate methods in Quantum Mechanics - (09)
1.1.1 Variation Theore m, linear and nonlinear variation function s.
1.1.2 Perturbation Theory, Non degenerate Perturbation Theory, first order wave function
correction, first order and second order energy correction.
1.1.3 Application of variation and perturbation theory to ground state of Helium Atom.
1.2 :Multi –electron atoms :Antisymmetry and Pauli principle, Slater determi nants, Hartree . –
Fock and configu ration interaction wave functions, Slater type orbitals, Gaussian orbitals,
orbitals plots, Basis sets . Density functional theory. (06)
UNIT -II Atomic spectroscopy (15L)
2.1 Angular momentum, orbital and spin, total angular momentum, total angular
momentum (J) of many electron atoms, Russell Saunders (L-S) coupling and J-J coupling,
(04L)
2.2 Term symbols, term symbols for multi electron atoms like He, Li, Be, B etc. (04L)
2.3 Exchange of interactions and multiplicity of states . (02L)
2.4 Anomalous Zeeman Effect and Paschen Back effect. (02L)
2.5 Atomic spectra and selection rules, energy level diagram of atomic sodium. (03L)
UNIT -III: Molecular Structure (15L)
3.1 The Born –Oppenheimer approximation (01L)
3.2 LCAO method -molecular orbital formation (01L)
3.3 Calculation of energy of hydrogen molecule ion using (05L)
3.3.1 Valence bond method
3.3.2 Heitler -London treatment
3.3.3 Improvements in Heitler -London treatment
3.4 Electronic structure of polyatomic molecules (08L)
3.4.1 Valence bond method for BeH 2, H2O, NH 3, BH3 ,CH 4.
3.4.2 Huckel molecular orbital 's Theory for –ethylene , Allyl system, cyclopropenyl system
and cyclobutadiene. .
Reference Books:
1. Laidler and Miser, Physical Chemistry,2ndedition, CBS publishers, New
Delhi.(chapters11 -14)
2. Silbey and Alberty, Physical Chemistry,3rdedition, JohnWiley and
sons, 2000.( Parttwo quantum chemistry)
3. Atkins P.W, Physical Chemistry, Oxford University Press,6th edition, 1998.
4. William Kemp, Organic spectroscopy, 3rd Edition,ELBS, 1996.
th
5. I.N. Levine, Quantum Chemistry, 5
Delhi. Edition (2000), Pearson Educ. Inc., New
6. .D.A.McQuarrie andJ.D.Simon, Physical Chemistry: A Molecular
Approach,(1998)Viva Books, NewDelhi.
nd
7. J.N.Murrell,S.F.A.KettleandJ.M.Tedder,ValenceTheory,2(1965),J
ohnViley, NewYork. edition
th
8. A.K.Chandra,Introductory Quantum Chemistry, 4McGrawH
ill,NewDelhi edition (1994),Tata
9. D.A.McQuarrie, Quantum Chemistry, Viva Books Private Limited, New Delhi,
first Indian ed.,2003.
10.R. K. Prasad, Quantum Chemistry, 3rd Ed., New Age International
Publishers, 2006.
11. James E. House, Fundamentals of Quantum Chemistry, Second Ed.,Academic
Press, 2005.
12.T.A. Littlefield and N. Thorley, Atomic and Nuclear Physics – An
Introduction, Van Nostrand, 1979.
UNIT -IV:Molecular spectroscopy (15L)
4.1Rotational spectroscopy: Einstein coefficients, classification of poly atomic
Molecules spheric al top, symmetric top and asymmetric top molecules, rotational
spectra of polyatomic molecules Stark modulated microwave spectrometer.
(03L)
4.2 Raman Spectroscopy -Classica l theory of molecular polarizability, pure rotational,
vibrational and vibration -rotation spectra of diatomic and polyatomic molecules polarization
and depolarization of Raman lines correlation between IR and Raman spectroscopy
instrum entation. (05L)
4.3 Electronic Spectra of molecules: Term symbols for linear molecules, selection rules
characteristics of electronic transitions -Franck -Condon principle, types of electronic
transitions -d-d, vibronic, charge transfer, π-π*,n-π*transitions, fate of electronically excited
states, fluorescence, phosphorescence, dissociation and pree-dissociation
(07L)
ReferenceBooks
1. C.N.Banwell and E.M.McCash,Fundamentals of Molecular
Spectroscopy, 4thEd.,Tata -McGraw -Hill,1994.
2. M. L. Gupta, Atomic and Molecular Spectroscopy, New Age International
Publishers, 2001.
3. H.S.Randhawa, Modern Molecular Spectroscopy,McMillan India Ltd.,2003
4. G.Aruldas, Molecular Structure and Spectroscopy,Prentice -HallofIndia, 2001.
5. J.Michael Hollas, Modern Spectros copy, 4thEd., John Wiley and Sons,2004.
List of Books for further reading:
1. R.Drago, Physical Methods for Chemists,Saunders, Philadelphia,1992.
2. B.P.Straughan and S.Walker (Eds.), Spectroscopy –Vol1 -3,Chapman and
Hall,New York,1976.
3. R.K.Harris,Nuclear Magnetic Resonance Spectroscopy,Pitman, London, 1983.
4. Donald L. Pavia, Gary M. Lampman and George S. Kriz, Introduction to
Spectroscopy, 3rded., Thomson, Brooks/Cole,2001.
5 John P. Lowe, Quantum Chemistry, 3rded.,Academic Press,New York,2006.
6 R. Anantharaman, Fundamentals of Quantum Chemistry, McMillan India
Limited, 2001.
7 Mahendra R. Awode, Quantum Chemistry,S. Chand and Co.Ltd.,New
Delhi,2002.
8 David O. Hayward, Quantum Mechanics for Chemists, Royal Society for
Chemistry,2002.
9 Jack Simons, An Introduction to Theoretical Chemistry, Cambridge University
Press, 2003.
10 Victor M.S.Gil, Orbitals in Chemistry, A Modern Guide to Students, Cambridge
University Press, 2000.
11 A.K.Chandra, Introduction to Quantum Chemistry, 4thEd.,Tata -McGraw -Hill,
1994.
12 S.N.Datta Lectures on Chemical Bonding and Quantum Chemistry, Prism
Books Pvt.Ltd.,1998.
13 R.McWeeny, Coulson’s Valence, 3rd.Ed.,Oxford University Press,1979.
14 J.N.Murell,S.F.A. Kettle and J.M.Tedder, The Chemical Bond, Wiley,1985.
15 F.A.Cotton,Chemical Applications of Group Theory, 3rdEd., John Wiley and
Sons (Asia) Pte. Ltm, 1999.
16 D.C.Harris and M.D.Bertolucci, Symmetry and Spectroscopy, Oxford
University.
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SEMESTER -III
PSCHP EC-I 304
Advanced Instrumental Techniques
UNIT -I Electron Spectroscopy and Microscopy (15L)
1.1 Electron Spectroscopy: principles, instrumentation and applications of the
following ESCA (XPS), AUGER, UPS. (09L)
1.2 Electron Microscopy : principles, instrumentation and applications of the following:
Scanning Probe Microscopes, Scanning Electron Microscope(SEM), Scanning
Tunneling electron Microscope(STEM) and Atomic Force Microscope(AFM) (06L)
UNIT -II Thermal Methods (15L)
2.1Thermogravimetry (TG): Principle and Instrumentation, factors affecting thermo
gravimetric curves, Interpretation of thermo gravimetric curves. applications of thermo
gravimetry (04L)
2.2 Differential thermal analysis(DTA)and Differential scanning calorimetry
(DSC): Princ iple and instrumentation, heat flux and power compensated DSC
,Interpretation of DTA and DSC curves applications of DTA and DSC. (05L)
2.3 Enthalpimetric methods (02L)
2.4 Thermometric titrations: principle instrumentation and applications (02L)
2.5 E volve d gas analysis (EGA) : principle and applications. (02L)
Reference Books :
1) Skoog DA, West DM, Fundamentals of Analytical Chemistry, Thomson
Asia Pvt ltd.,8th Ed,(2004)
Skoog, Holler, Nieman, Principles of Instrumental Analysis, Thomson Asia
Pvt ltd.,5th Ed(2003)
1) Sharma B. K., Instrumental Methods of Chemical Analysis, Goel
Publishing House.
2) Wendlandt., Thermal Methods, WW John Wiley,(1986).
3) Willard Merrit and Settle, Instrumental Methods of Analysis.
4) Douglas A.Skoog, Holler & Crouch, Instrumental analysis India
edition CENGAGE Learning (EighthIndianReprint2011)
5) Robert D.Braun. Introduction to Instrumental Analysis(IndianReprint2006)
6) J.W.Dodd, K.Tonge, Thermal Methods. Analytical Chemistry,
open Learning.
7) Pavia, Lapman, kriz, introduction to Spectroscopy, Thomson Pub.
8) H.Straw, & K. walker, Spectroscopy Vol.I&II, Science Paper backs.
9) M.Mahindersingh, Analytical chemistry, Instrumental techniques,
Dominant Pub. Delhi.
10) F.W.Fiefield, & D.Kealey, Principles and Practice of analytical
Chemistry, Blackwell Pub.
11) G.W.Ewing,Instrumental methods of Chemical analysis, MacGrawHill.
UNIT -III Hyphenated Techniques (15L)
3.1Introduction, need for hyphenation, possible hyphenation. (02L)
3.2Interfacing devices and applications of the following: GC-MS,GC -IR,MS -MS,HPLC -
MS, ICP -MS, spectro -electro chemistry and radio -chromatography. (13L)
Reference Books :
1 R.P.W.Scott, Tandem Techniques, Wiley India Pvt. Ltd.Reprint2009
2 J.Barker, Analytical chemistry for open learning, Mass
spectrometry ,WiileyIndiaED.
UNIT -IV Electro -Analytical Methods . (15L)
4.1 Over view of electrode process : Electro -capillary curve and electro -capillary
maximum potential. (02L)
4.2 Micro electrodes: mercury electrodes: Stationary mercury drop electrode
(SMDE).Hanging mercury drop electrode (HMDE), Mercury film electrode
(MFE),Carbon paste electrode and chemically modified electrodes. (03L)
4.3 Introduction to three electrode system : modern polarography and
voltammetry necessity and development of new vo ltammetric techniques and their
comparison with classical DC polarography, (03L)
4.4 Voltammetric methods: Sampled DC polarography (TAST), Linear sweep
voltammetry (LSV),Cyclic voltammetry (CV), diagnostic criteria of cyclic
voltammetry (07L)
Reference Books :
1) A.J.BardandL.R.Faulkner,Electrochemical Methods,2ndEd,John Wiley and
sons, Asia Pvt. Ltd,(2004)
2) J.J.Lingane , Electro -analytical Chemistry, 2ndEd, Inter science Publishers,
Inc., New York (1958)
3) A.M.Bond, Modern Polarographic Methods in Analytical Chemistry,
Marcel Dekker Publishers, Inc., New York,(1980)
4) A.J.Bard(Ed), Electro -analytical Chemistry, Marcel DekkreInc., New York
(A series of volumes)..
5) Donald T.Sawyer ,A.Sobkowiak and J.L.Roberts,Jr., Electro chemistry for
Chemists, 2ndEd., John Wiley and Sons, Inc., New York.,(1995).
6) D.A.Skoog, F.J.Holler, J.A.Nieman, Principles of Instrumental analysis, 6thEd.
7) R.D.Braun.introduction to Instrumental Analysis,MacGrawhill,1987.
8) H.A. Willard, L.L.Merritt, J.A.Dean&F.A.Settle, Instrumnetal methods of
analysis, 5thEd.CBS,1986.
9) M.noel,K.J.Vasu,Cyclic Voltammetry and Frontiers of electro
chemistry,IBH, NewDelhi,1990.
SEMESTER -III
PSCHPEC -II 304
Advanced Instrumental Technique s
UNIT -I Spectral Methods
Principle, instrumentation and applications of the following (15L)
1.1 Reflectance spectroscopy (03L)
1.2 Photo -acoustic spectroscopy (03L)
1.3 Polarimetry : ORD, CD (04L)
1.4 Chemiluminescence method (02L)
1.5 Nuclear quadruple resonance spectroscopy, ENDOR, ELDOR, EWDOR (03L)
UNIT -II Electro -analytical Methods – I
Principles, instrumentation and applications (15L)
2.1Ionselective field effect transistors, bio-catalytic membrane electrodes, disposable
multi layer pIon systems, screen –printed electrodes. (08L)
2.2 Chrono potentiometry and chrono amperometry (05L)
2.3 Fused salt electrolysis (02L)
Reference Books :
1) A.J.BardandL.R.Faulkner, Electrochemical Methods, 2ndEd, John Wiley
and sons, Asia Pvt. Ltd, (2004) .
2) J.J.Lingane, Electro -analytical Chemistry, 2ndEd, Inter science Publishers,
Inc., New York (1958)
3) A.M.Bond,Modern Polarographic Methods in Analytical Chemistry, Marcel
Dekker Publishers, Inc.,New York,(1980)
4) A.J.Bard(Ed), Electro -analytica lChemistry, Marcel DekkreInc., NewYork
(A series of volumes)..
5) DonaldT. Sawyer ,A.SobkowiakandJ.L.Roberts,Jr.,Electro chemistry for
Chemists,2ndEd.,JohnWileyandSons,Inc.,NewYork.,(1995).
6) D.A.Skoog,F.J.Holler, J.A.Nieman,Principles of Instrumental analysis, 6thEd.
7) R.D.Braun.introduction to Instrumental Analysis,MacGrawhill,1987.
8) H.A. Willard, L.L.Merritt, J.A.Dean&F.A.Settle, Instrumnetal methods of
analysis, 5thEd.CBS,1986.
9) M.noel,K.J.Vasu,CyclicVoltammetry and Frontiers of electro
chemi stry,IBH, NewDelhi,1990.
10) P.T.Kissinger,W.R.heinman,LaboratotyTechniques in electro analytical
Chemistry,Dekkar,NY.1984.
UNIT -III Radio -analytical Methods (15L)
3.1 Activation analysis -basic principles, fast neutron activation analysis, radio -
chemical method inactivation analysis (04L)
3.2 Isotopic dilution method -principle and applications . (02L)
3.3 Auto, x -ray and gamma radiography (04L)
3.4 Radiometric Titrations (03L)
3.5 Applications of radio -analytical techniques. (02L)
References Books for Radioanalytical Methods:
1) J.RutickaandJ.Stary, Sub stoichiometry in Radio chemical
Analysis, Pergamon Press,(1968)
2) R.A.FairesandG.G.J.Boswell,Radio isotope Laboratory Technique,4th,
Ed, Rutterworths; London, (1981)
3) D.Brune, B. Forkman, B.Person, Nuclear Analytical Chemistry,
Chartwell - Bratt Ltd.,(1984)
4) Maheshwar Sharon and Madhuri Sharon, NuclearChemistry, Ane Books
Pvt. Ltd.(2009)
5) Nuclear Chemistry By Arnikar
UNIT -IV Pulse polarography: (15L)
4.1 Normal pulse polarography(NPP), Differential pulse polarography(DPP),
Double differential pulse polarography(DDPP), (08L)
4.2 Sinusoidal AC polarography, Square wave polarography (05L)
4.3 Applications of electrochemical methods in Organic synthesis . (02L )
References :
1) M. Noel and KI.Vasu, Cyclic Voltammetry and the frontiers of
Electrochemistry, IBH, NewDelhi,(1990)
2) A.M.Bond, Modern Polarographic Methods in Analytical Chemistry, Marcel
Dekker Publishers, Inc., New York,1980.
3) A. J. Bard and Faulkner, Electrochemical Methods, 2ndEd, John Wileyand
Sons ( Asia) Pvt. Ltd., 2004.
Practicals
SEMESTER -III
PSCHP3P1
1. To determine of the formula of the copper (II) ammonia complex by partition method.
2 .To determine the transport no. of copper(II)ions by H ittorf’s method.
3. To determine the isoelectric point of gelatin by viscosity measurement.
PSCHP3P2
1. To determine the mean ionic activity coefficient of zinc chloride by emf method.
2. To construct the phase diagram for a two component system forming a
simple eutectic..
Non instrumental
3. To determine the equilibrium constant for the reaction
CaSO 4 (s) + 2Ag+1 (aq) = Ag 2SO 4(s) + Ca-2 (aq)
4. To determine the partial molar volume of ethanol.
PSCHP3P3
1. Determination of the energy of activation and other thermodynamic parameters
of activation for the acid catalyzed hydrolysis of methyl acetate.
2. To determine the proton ligand stability constant of an organic acid and metal
ligand stability constant of its complex by pH measurement.
Conductometry
1 To determi ne the molar conductance of a weak electrolyte at infinite dilution hence
to determine its dissociation constant.
2To titrate potassium ferrocyanide with zinc sulphate and hence to determine the
formula of the complex.
Potentiometry
1To determine the E0 of the quinhydrone electrode.
2 To determine the formula of the zinc(II)ferrocyanide complex by titration of
Zn(II) sulphate with potassiumferrocyanide.
p H metry
1To estimate the amount of hydrochloric acid and acetic acid in a mixture by titration
with a n alkali using a pH meter.
2To determine hydrolysis constant and degree of hydrolysis of ammonium chloride and
hence to estimate the dissociation constant of the base.
PSCHP3P4
1. To determine the molar mass of a nonvolatile solute by cryoscopic method.
Colorimetr & spectrophotometry
1.To determine the ionization constant of bromophenol blue
2. Tostudycomplexformationbetweennickel(II)witho -phenanthroline.
3. To determine the rate constant and the order of the reaction between
persulphate and iodide ions.
1.The candidate is expected to submit a journal certified by the Head of the
Department/institutionatthetimeofthepracticalexamination.
2.A candidate will not be allowed to appear for the practical examination unless
he / she produces a certified journal or a certificate from the Head of the
institution/department stating that the journal is lost and the candidate has
performed the required number of experiments satisfactorily. The list of the
experiments performed by the candidate shoul d be attached with such
certificate.
3.Use of non -programmable calculator is allowed both at the theory and the
practicalexamination.
List of reference Books for Practicals:
1. B.VishwanathanandP.S.Raghavan,PracticalPhysicalChemistry,Viva
BooksPrivateLimited,2005.
2. A.M.JamesandF.E.Prichard,PracticalPhysicalChemistry,3rded.,
Longman,1974.
3. B.P.Lewitt(ed.),Findlay’sPracticalPhysicalChemistry,9thed.,1973.
4. C.D.BrennanandC.F.H.Tipper,ALaboratoryManualofExperimentsin
PhysicalChemistry,McGraw -Hill,1967.
5. F.Daniel&Others,ExperimentalPhysicalchemistry,19665,KogakashaCoLt
d.,Tokyo.
__________________________________________________________________
SEMESTER -IV
PSCHP 401
Paper -I
Chemistry: Polymer, Green, Biophysical and
Applied.
Unit I: Polymer Chemistry -II (15L)
1.1 Polymers in solid state – Transitions (glass transition and crystalline melting
temperature), crystalline behaviour, factors affecting crystallinity, polymer blends and
Alloys. (03L)
1.2 Identificationandcharacterizationofpolymers :Chemical analysis - End group analysis ;
Physical analysis by Spectral methods: IR, UV, Ramam, NMR ,X-ray
diffractionanalysis, Microscopic methods: SEM, TEM , Thermal analysis -TGA,DTA, DSC.
(06L)
1.3 Properties of polymers : Thermal (glass transition temperature, and its
determination),mechanical(deformationandfracture)effectsinpolymers,viscoelasticity
surface (surface tension, hardness, friction, abrasion) , physical
(Impactstrength,Tensilestrength,solubility ) of polymers, weatherability, rheology and
mechanic al models, mechanical behavior, Rubber elastici ty, (04L)
1.4 Polymer degradation and stabilizat ion: Oxidative, thermal, radiation,
Biodegradation (02L)
Unit II: Polymer Chemistry -III (15L)
2.1Techniquesofpolymerization :Bulkpolymerization,solutionpolymerization,suspens
ionpolymerization,emulsionpolymerizations, (03L)
2.2Thermodynamicsofpolymersolutions :Solubility parameter, thermodynamics of
mixing ,theta temprature (02L)
2.3 Polymer technology : (05L)
2.3.1 Polymer auxiliaries, plasticizers, heat Stabilizers, colorants , flame
retardants. Fillers, reinforcements.
2.3.2 Elastomers: Introduction, Processing, Rubber Types, Vulcanization,
Properties .Reclaiming.
2.3.3 Fibers: Introduction, production, Fiber spinning, Textile fibers, Industrial
fibers, recycling.
2.3.4 Films sheets : Introduction and processing techniques (injection and
blow moulding extrusion),Recyling of plastics.
2.4 Properties and applications of some commercially important polymers .
Carbon chain polymers - Polyolefins , ABS group, elastomers, vinyl polymers, acrylic
polymers, heterochain polymers - polyethers, polycarbonates, polysaccharides,
polyamides fluoropolymers, Resins (epoxy, alkyd, phenol -formaldehyde and urea -
formaldehyde), Silicones, polyphosphazenes, sulphur containing polymers (05L)
Reference Books :
1. P. Bahadur and N. V. Sastry, Principles of Polymer Science, second
edition,NarosaPublishingHouse,2005.
2. C. E. Carraher, Jr., Carraher’s Polymer Chemistry, 8thedition, CRC Press, New
York,2010.
3. JoelR.Fried,Polymer Science and Technology, Prentice -Hall of India Pvt.
Ltd., 2000.
4. V.R.Gowarikar, H.V.Viswanathan and J.Sreedhar,Polymer Science.New Age
International Pvt.Ltd., New Delhi,1990.
5. F. W. Billmeyer Jr., Text Book of Polymer Science, 3rdedition, John Wiley and
Sons ,1984.
6 V.K.Ahluwalia&A. Mishra, Polymer Science , A text book,Ane Books Pvt.
Ltd,2008.
7 R.Sinha, Outline of Polymer Technology manufacture of Polymers,
Prenticehall ofIndiaPvt.Ltd.2000
8 F.J.Davis,Polymer Chemistry, Oxford university Press,2000.
9 D.Walton&P.lo timer,Polymer, Oxford university Press,2000.
10 R.Ypung,Introduction to Polymers,Chapman&Hall,reprint,1989.
11 V.Jain.OrganicPolymerChemistry, IVY Publishing House,2003.
12 A.Singh,Polymer Chemistry,Campus BookInternational,2003.
13 Books for further reading:
1. J. M. G. Cowie, Polymers: Chemistry and Physics of Modern Materials, 2nded.
(firstIndianReprint2004),Replika Press Pvt. Ltd.
2. G.S.Misra, Introductory Polymer Chemistry, New Age International (P)
Limited, Publishers,1993.
3. L. H. Sperling, Introduction to Phys ical Polymer Science. 2ndEdition, John
Wiley and Sons.Inc.
4. Hans -Georg Elias,An Introduction to polymer Science, VCH 1997.
5. Charles E. Seymour, Jr., Seymour/Carraher’s Polymer Chemistry, 6thed., Marcel
Dekker, Inc.,2003.
6. A. Ravve, Principles of Polymer
UNIT -IIIBio-physical Chemistry and Green Chemistry (15L)
3.1 Biophysical Chemistry (08)
3.1.1 Introduction to Complex Biomolecules: Proteins, enzymes, DNA, RNA,
polysaccharides andlipids.chirality and pH dependence of biomolecules. 02L)
3.1.2 Biosensors : Enzyme based, Electrochemical, immunosensor, fluorescence,
optical, Piezoelectric Biosensors (02L )
3.1.3 Electrophoresis (Technique for bio -molecular study) : Principle and factors
affecting electro -phoreticmobility, zone electrophoresis –Paper electrophoresis,cellules
acetate electrophoresis, Gel electrophoresis. capillary Electrophoresis, Application of
electrophoresis. (04L)
Reference Books :
1. U.N Dash,.AText Book of Biophys ical Chemistry,Macmillan India Ltd
2. Gurtu and Gurtu, Biophysical Chemistry, Pragati Prakashan.
3. R.P.Budhiraja,Separation chemistry,New Age International(P)Limited,Publisher
4. Avinash Upadhyay, Kakoti Upadhyay, Nirmalendu Nath.Biophysical
Chemistry Principles and Techniques Himalaya
5. Susan R.Mikkelson ,Eduardo Corton, Bioanalytical Chemistry, Wiley
Interscience.08Science,2nded.,Kluwer Academic/Plenum Publishers, New
York,2000.
3.2 Green Chemistry : (07L)
3.2.1 Recapitulation of principles of green chem istry, Waste minimization techniques.
(01L)
3.2.2 Catalysis and Green Chemistry: Phase transfer catalysts, biocatalyst, photo
catalysis. 02L)
3.2.3 Organic solvents, solvent free system, supercrit ical fluid, ionic liquid, their
characteristics,use as catalyst and solvents. 02L)
3.2.4 Alternative energy sources for initiation and execution of chemical reaction:
Microwave and sonochemistry. 02L)
Reference Books :
1. MikeLancaster, Green Chemistry An Introductory Text, Royal Society
of Chemistry .
2. V.K.Ahluwalia, M.Kidwai, Kluwer Academic Publisher .
UNIT -IV Photochemistry -II: Kinetics and Applications (15L)
4.1: Photophysical Kinetics of bimolecular processes. (10L)
4.1.1: Mechanism of fluorescence quenchin g.
4.1.2: Collisions in solutions
4.1.3: Kinetics of collisional quenching and Stern -Volmer equation and
deviations from Stern Volmer equation ,
4.1.4: Concentration dependence of quenching and excimer formation
4.1.5: Quenching by added substances –charge transfer mechanism
and energy transfe rmechanis m.
4.2: Solar Cells : photovoltaic and photogalvanic cells; photoelectron chemistry;
prospects of solar energy conversion and storage,organic solar cells. 05L)
Reference Book :
K.K.Rohatgi -Mukherjee. Fundamentals of Photochemistry.Reprint 2002. New
AgeInternationalPublisher,1978. -
----------------------------------------------------------------------------------------------------------------------
Semester -IV
PSCHP402
Paper -II
Material Science, network and irreversible thermodynamics,
UNIT -I Metals and alloys : (15L)
1.1 Solidification of metals and alloys -homogeneous and heterogeneous nucleation
Growth of crystals, growth of silicon single crystal. (04L)
1.2 Metallic solid solutions -substitutional and interstitial solid solutions. (03L)
1.3 Crystalline imperfections -point ,line and boundary defects (04L)
1.4 Atomic diffusions in solids -diffusion mechanisms, steady state and non -steady
state diffusions, -impurity diffusion into silicon wafers for integrated circuits. (04L)
UNIT -II Mec hanical properties of solid materials (15L)
2.1 Stress and strain in metals - Engineering stress and engineering strain, shear
stress and shear strain, the tensile test and engineering stress -strain diagram,
modulus of elasticity, yield strength. (05L)
2.2 Hardness and hardness testing plastic deformations of metals in single crystals
plastic deformation of polycrystalline metals, solid solution strengthening of metals.
2.3 Fracture of metals -ductile and brittle fracture ,toughness and impact testing,
fatigue of metals, the creep test ,creep -rupture test. (05L)
Reference Books :
1. WilliamF.Smith, Principles of Material Science and Engineering, 3rd edition,
McGraw –HillInc.1996.
2. Keer H.V, Principles of the Solid State, first reprint, Wiley Eastern
Limited, 1994.
3 Principles of Material science and engineering, 3rd edition, McGraw –
Hill Inc.1996.
List of Books for further reading:
1. A.R.West,Solid State Chemistry and its Applications,John Wiley and Sons
(Asia) P vt.Ltd.,
2. L.E.Smart and E.A.Moore, Solid State Chemistry –An Introduction,3rdEd.,
Taylor and Francis, 2005.
3. V.Raghavan,Materials Science and Engineering, Fifth Ed.,Prentice -Hall
of India Pvt. Ltd.,NewDelhi,2004.
4. WilliamD.Callister,Jr.,Materials Science and Engineering, An Introduction,
Fifth Ed.,John Wiley and Sons (Asia)P vt.Ltd.,2001.
5. S.O.Pillai, Solid State Physics, Fifth Ed., New Age International
Publishers , 2002.
6. Leonid V.Azaroff, Introduction to Solids, Tata -McGraw -Hill Publishing
Co.Ltd., New Delhi, 1977.
7. Sandra E.Dann, Reactions and Characterization of Solids, Royal Society
of Chemistry, 2000.
8 C.N.R.RaoandJ.Gopalakrishnan, New Directions in Solid State Chemistry,
Seconded.,Cambridge University Press,1997.
9 N.B.Hannay,Solid State Chemistry,Prentice Hall of India, New Delhi,1976.
10 M.AliOmer, Elementary Solid State Physics,5thIndian Reprint, Pearson
Education, Inc., 1999.
Unit III Lasers and super conductors (15L)
3.1 Lasers in chemistry (10L)
3.1.1 General principles of LASER action -Population Inversion, cavity and mode
characteristics, Q-switching, Modelocking. (02L)
3.1.2 Practica l lasers - Solid state lasers -Ruby, neodymium, gas lasers -He-
Ne, Ar, Kr, Carbon dioxide, Chemical and exciplex Lasers,Dye lasers LED and
Semiconductor Lasers . 05L)
3.1.3 Applications of Lasers in chemistry: Spectroscopy at high photon
fluxes, collimated beams, Precision specified transitions, Isotope separation, Study of
fast reactions using pulsed techniques . (03L)
Reference Book:
.Atkins P.W, Physical Chemistry, Oxford University Press, 6th edition, 1998.
3.2 Super conducting solid materials (05L)
Band theory of electrical conductivity, Bardeen -Cooper -Schriffer Th eory of super
conductivity,the superconducting state, High critical temperature super conductors,
magnetic properties of superconductors .
Unit IV (15L)
4.1 Non-equilibrium thermodynamics :
4.1.1 Features of non -equilibrium thermodynamics, second law of thermodynamics,
uncompensated heat and its relation to thermodynamics function. (02L)
4.1.2 Entropy production and its rate. Entropy production in heat transfer proce ss
and during mixing of gases.Entropy production and efficiency of galvanic cell. (04L)
4.1.3 Onsagers theory: Reciprocal relation, principle of microscopic reversibility.
Coupled and uncoupled reactions and their condition. (05L)
4.1.4 Transport phenomena across membranes. Electro kinetic effect and thermo
mechanical effects. (04L)
Reference Books:
1. D.A.McQuarrieand J.D.Simon, Molecular Thermodynamics, Viva Books
Private Limited, First Indian Ed.,2004.
2. D.A.McQuarrieand J.D.Simon,Physical Chemistry, A Molecular Approach,
Viva Books Private Limited, First South Asian Ed.,1998.Chap.
3. E.D.Kaufmann, Advanced Concepts in Physical Chemistry, McGraw -Hill,1966.
4. Robert P.H.Gasser and W.Graham Richards, An Introduction to Statistical
Thermodynamics,World Scientifi c Publishing Co.Pte.Ltd.,1995.
5. C.Kalidas and M.V.Sangaranarayan, Non-Equilibrium Thermodynamics,
Principles and Applications, McMillanIndia Ltd.,2002.
List of Books for further reading:
1. M.Dole, An Introduction to Statistical Thermodynamics, Dover, NewYork ,1986.
2. W. Kauzmann, Thermodynamics and Statistics: with applications to gases,W.
A. Benjamin,NewYork,1967.
3. M. C. Gupta, Statistical Thermodynamics, 2nd. Ed., New Age International
Publishers, New Delhi,1998.
4. S. Glasstone, Theoretical Chemistry, Affi liated East –West Press Pvt. Ltd., New
Delhi, 1973.
5. S. Glasstone, Thermodynamics for Chemists, Affiliated East –West Press Pvt.
Ltd.,New Delhi,1964.
6. R. Hasse, Thermodynamics of Irreversible Processes, Addison Wesley
London,1969.
7. I.Prigogine, Introduction to Thermodynamics of Irreversible Processes,3rded.,
Interscience ,NewYork, 1967 .
---------------------------------------------------------------------------------------------------------------------
PRACTICALS
SEMESTER -IV
PSCHP4 03
Paper -III
Symmetry &Spectroscopy
UNIT -I: Symmetry in Chemistry (15L)
1.1 Recapitulation: point groups, character tables (02L)
1.2 Reduction formula, application of reduction formula to vibrational modes of water
molecule . (02L)
1.3 Application in vibrational spectroscopy, s election rules for IR spectroscopy for
molecules such as H 2O, CO 2, HF, H2 (03L)
1.4 Application to Raman spectra, selection rules, comparison of IR and Raman
selection rules, general approach to vibrational spectroscopy. (02L)
1.5 Symmetry in chemical bonding: symmetry adapted linear combination of
_molecular orbitals, H2+,H2, LiH, BeH 2, BH 3, CH 4, molecular orbital energy, and bond
order. 06L)
Reference Books :
1 K.Veera Reddy, Symmetry and Spectroscopy of molecules,2nded,new
age International publishers.
2 U.C.Agarwala,H/L/Nigam,S .Agarwal, S.S.Kalra, Molecular symmetry
in Chemistry via group theory, 2013, Ane Books Pvt.ltd.
3 H.N.Dass,symmetry and group theory for chemists,2004 Asian Books Pvt.Ltd.
4 K.V.Raman, group theory and its applications to Chemistry,1980,Tata
MacGrawhillPub.Co.Pvt.Ltd.
5 P.K.Bhattacharya, Group theoryand its chemical
applications,1999,Himalaya, Pub.House.
6 F.A.Cotton, Chemical applications ofGroup Theory, Wiley Student
Ed., 2006, JohnWiley and Sons,(Asia) Pvt.Ltd.
7 R.L.Carter, Molecular symmetry and Group theory, Wiley Student
Ed.,1996,John Wiley and Sons, (Asia) Pvt.Ltd.
8 S.Swarnalakshmi, T.saroja, R.M.Ezhilarisi, A simple approach to Group
theory in chemistry, 2008, Universities Press (India) Pvt. Ltd.
UNIT -II N.M.R.Spectroscopy -I (15L)
2.1 A review of one dimensiona l NMR spectroscopy. (01L)
2.2 Spin-relaxation.Nuclear Overhauser Effect (NOE).polarization transfer. (03L)
2.3 Two-dimensional NMR.Correlated spectroscopy(COSY) (03L)
2.4 NuclearOverhauser effect Spectroscopy(NOESY) (02L)
2.5 Hetero nuclear correlation Spectroscopy(HETCOR) (02L)
2.6 Solid -stateNMR (02L)
2.7 Magnetic Resonance Imaging(MRI) (02L)
UNIT -III ESR and Mossbauer Spectroscopy (15L)
3.1Electron spin Resonance Spectroscopy - (10L)
3.1.1 Basic principle, hyperfine splitting(isotropicsystems); ( 02 )
3.2.2 G-value and the factors affecting thereof; interactions affecting electron
energies in paramagnetic complexes (Zero -field splitting and Kramer’s
degeneracy); (03L)
3.3.3 An isotropic effects (the g-value and the hyperfine couplings);The EPR of
triplet states; Structural applications to transition metal complexes. (02L)
3.4.4 Fundamentals and hyper fine splitting, application to study of free radicals
spin densities McConnell relationship Zero field splitting. (03L)
3.2 Mossbauer Spectroscopy: (05L)
Principles, Recoille emission and absorption of γ-rays, experimental
methods, isomer shift, hyperfine structure (quadrupole interaction),
magnetic hyperfine interaction, applications.
Reference Books :
1. C.N.Banwell and E.M.McCash, Fundamentals of Molecular Spectroscopy,
4thEd., Tata -McGraw -Hill,1994.
2. M. L. Gupta, Atomic and Molecular Spectroscopy, New Age International
Publishers,2001.
3. H.S.Randhawa, Modern Molecular Spectroscopy, McMillan India Ltd.,2003
4. G.Aruldas, Molecular Structure and Spectroscopy, Prentice -HallofIndia,2001.
5. J.MichaelHollas, Modern Spectroscopy ,4thEd.,John Wiley and Sons,2004.
List of Books for further reading:
1. R.Drago,Physical Methods for Chemi sts, Saunders ,Philadelphia,1992.
2. B. P. Straughan and S. Walker (Eds.), Spectroscopy – Vol 1 -3, Chapman and
Hall, New York,1976.
3. R. K. Harris, Nuclear Magnetic Resonance Spectroscopy, Pitman, London,
1983.
4. Donald L. Pavia, Gary M. Lampman and George S. Kriz, Introduction to
Spectroscopy,3rded.,Thomson,Brooks/Cole,2001.
UNIT -IV 13C-N.M.R.Spectroscopy (15L)
4.1 Elementary ideas, instrumental difficulties, FT technique advantages and
disadvantages. proton noise decoupling technique advantages and disadvantages,
off-resonance technique. (05L)
4.2 Chemical shifts of solvents, factors affecting chemical shifts, analogy
with1HNMR.
(03L)
4.3 Calculations of chemical shift of hydrocarbons, effect of substituent’s on chemical
shifts, different types of carbons (alkene, alkyne and allene). (03L)
4.4 Chemical shift of aromatic carbons and effect of substituent. (02L)
4.5 Chemical shifts of carbonyl, nitrile, and oxime carbons. (02L)
Reference Books :
1. A.E. Derome , Modern NMR Techniques for Chemistry Research,
Pergamon,Oxford(1987)
nd
2. J.K.M. Sanders and B.K. Hunter, Modern NMR Spectroscopy, 2
Oxford University Press, Oxford. edition (1993),
3. R.K.Harris,Nuclear Magnetic Resonance Spectroscopy,(1986) Addison -Wesley,
Longman Ltd.,London
4 Organic spectroscopy by William Kemp,3rdEdition, ELBS, 1996.
Course Code: PSCHPOC -I 404
Paper – IV (INTELLECTUAL PROPERTY RIGHTS &
CHEMINFORMATICS )
Unit 1: [15L]
Introduction to Intellectual Property: [2L] [2L]
Historical Perspective, Different types of IP, Importance of protecting IP.
Patents: [5L] [5L]
Historical Perspective, Basic and associated right, WIPO, PCT system, Traditional
Knowledge, Patents and Health care -balancing promoting innovation with public
health, Software patents and their importance for India.
Industrial Designs: [2L] [2L]
Definition, How to obtain, features, International design registration.
Copyrights: [2L] [2L]
Introduction, How to obtain, Differences from Patents.
Trade Marks: [2L] [2L]
Introduction, How to obtain, Different types of marks – Collective marks, certification
marks, service marks, trade names etc.
Geographical Indications: [2L] [2L]
Definition, rules for registration, prevention of illeg al exploitation, importance to
India.
Unit 2: [15L] [15L]
Trade Secrets: [2L] [2L]
Introduction and Historical Perspectives, Scope of Protection, Risks involved and legal
aspects of Trade Secret Protection.
IP Infringement issue and enforcement: [2L] [2L]
Role of Judiciary, Role of law enforcement agencies – Police, Customs etc.
Economic Value of Intellectual Property: [5L] [2L]
Intangible assests and their valuation, Intellectual Property in the Indian context –
Various Laws in India Licensing and Technology transfer.
Different International agreements: [6L]
(a) World Trade Organization (WTO): [5L]
(i) General Agreement on Tariffs and Trade (GATT), Trade Related
Intellectual Property Rights (TRIPS) agreement
(ii) General Agreement on Trade Related Services (GATS) Madrid
Protocol.
(iii) Berne Convention
(iv) Budapest Treaty
(b) Paris Convention [6L]
WIPO and TRIPS, IPR and Plant Breeders Rights, IPR and Biodiversity.
Unit III: [15L] [15L]
Introduction to Cheminformatics: [5L] [5L]
History and evolution of cheminformatics, Use of Cheminformatics, Prospects of
cheminformatics, Molecular modeling and structure elucidation.
Representation of molecules and chemical reactions: [5L] [5L]
Nomenclature, Different types of notations, SMILES coding, Matrix representations,
Structure of Molfiles and Sdfiles, Libraries and toolkits, Different electronic effects,
Reaction classification.
Searching Ch emical Structures: [5L] [5L]
Full structure search, sub -structure search, basic ideas, similarity search, three
dimensional search methods, basics of computation of physical and chemical data and
structure descriptors, data visualization.
Unit IV: [15L] [15L]
Applications:
Prediction of Properties of Compound, Linear Free Energy Relations, Quantitative
Structure – Property Relations, Descriptor Analysis, Model Building, Modeling
Toxicity, Structure – Spectra correlations, Prediction NMR, IR and M ass spectra,
Computer Assisted Struc ture elucidations, Computer assi sted Synthesis Design,
Introduction to drug design, Target Identification and Validation, Lead Finding and
Optimization, analysis of HTS data, Virtual Screening, Design of Combinatorial
Libraries, Ligand -based and Structure based Drug design, Application of
Cheminformatics in Drug Design.
REFERENCES:
1. Andrew R. Leach & Valerie J. Gillet (2007) An Introduction to
Cheminformatics. Springer: The Netherlands.
2. Gasteiger, J. & Engel, T. (2003) Cheminformatics: A textbook . Wiley–VCH
3. Gupta, S. P. QSAR and Molecular Modeling. Springer -Anamaya Pub.: New
Delhi.
Course Code: PSCHPOC -II 404
PAPER – IV: RESEARCH METHODOLOGY
Unit 1: [15L]
Print: [5L]
Primary, Secondary and Tertiary sources.
Journals:
Journal abbreviations, abstracts, current titles, reviews, monographs, dictionaries, text -
books, current contents, Introduction to Chemical Abstracts and Beilstein, Subject
Index, Substance Index, Author Index, Formula Index, and other Indices w ith
examples.
Digital: [5L]
Web sources, E -journals, Journal access, TOC alerts, Hot articles, Citation Index,
Impact factor, H -index, E -consortium, UGC infonet, E -books, Internet discussion
groups and communities, Blogs, preprint servers, Search engines , Scirus, Google
Scholar, ChemIndustry, Wiki -databases, ChemSpider, Science Direct, SciFinder,
Scopus.
Information Technology and Library Resources: [5L]
The Internet and World wide web, Internet resources for Chemistry, finding and citing
published info rmation.
Unit II: DATA ANALYSIS [15L]
The Investigative Approach:
Making and recording Measurements, SI units and their use, Scientific methods and
design of experiments.
Analysis and Presentation of Data:
Descriptive statistics, choosing and using statistical tests, Chemometrics, Analysis of
Variance (ANOVA), Correlation and regression, curve fitting, fitting of linear
equations, simple linear cases, weighted linear case, analysis of residuals, general
polynomial fitting, linearizing transformations, exponential function fit, r and its abuse,
basic aspects of multiple linear regression analysis.
Unit III: METHODS OF SCIENTIFIC RESEARCH AND WRITING
SCIENTIFIC PAPERS [15L]
Reporting practical and project work, Writing literature surveys and reviews,
organizing a poster display, giving an oral presentation.
Writing Scientific Papers:
Justification for scientific contributions, bibliography, description of methods,
conclusions, the need for illustration, style, publications of scientific work, writing
ethics, avoiding plagiarism.
Unit IV: CHEMICAL SAFETY & ETHICAL HANDLING OF CHEMIC ALS [15L]
Safe working procedure and protective environment, protective apparel, emergency
procedure, first aid, laboratory ventilation, safe storage and use of hazardous
chemicals, procedure for working with substances that pose hazards, flammable or
explosive hazards, procedures for working with gases at pressures above or below
atmospheric pressur, safe storage and disposal of waste chemicals, recovery, recycling
and reuse of laboratory chemicals, procedure for laboratory disposal of explosives,
identif ication, verification and segregation of laboratory waste, disposal of chemicals
in the sanitary sewer system, incineration and transportation of hazardous chemicals.
REFERENCES:
1. Dean, J. R., Jones, A. M., Holmes, D., Reed, R., Weyers, J., & Jones, A.,
(2011), Practical skills in Chemistry, 2nd Ed., Prentice Hall, Harlow.
2. Hibbert, D. B. & Gooding, J. J. (2006) Data Analysis for Chemistry Oxford
University Press.
3. Topping, J., (1984) Errors of Observation and their Treatment 4th Ed.,
Chapman Hill, London.
4. Harris, D. C. (2007) Quantative Chemical Analysis 6th Ed., Freeman Chapters
3-5
5. Levie, R. De. (2001) How to use Excel in Analytical Chemistryand in general
scientific data analysis Cambridge Universty Press.
6. Chemical Safety matt ers – IUPAC -IPCS, (1992) Cambridge University Press.
7. OSU Safety manual 1.01
Semester –IV
PSCHP4P1
1.To determine the formula of the zinc(II) ammonia complex by partition
method.
2 Determination of the transport no. of silver(I) ions by Hittorf’s method.
.Conductometry .
1.To determine the composition of a mixture of hydrochloric acid, potassium chloride
and ammonium chloride by titration with sodium hydroxide and silver nitrate.
2.To determine ∆G, ∆Hand ∆S of dissolution of a sparingly soluble salt by
conductometry.
pHmetry
1 To determine K 1 and K 2 of a dibasic acid by titration with a base.
2 To determine dissociation constant of p -nitro phenol.
PSCHP4P2
1. To construct the phase diagram for a two component system forming a compound
2. To determine the energy of activation and other thermodynamic parameters
of activation for the reaction between persulphate and potassium iodide.
3. To determine the effect of ionic strength of a solutio n on the reaction
between potassium persulphate and potassium iodide.
4. To study the order of the reaction between bromate and bromide.
5. To determine the van’t Hoff’s factor by cryoscopic method.
Potentiometry
1. To determine the liquid junction potential with a concentration cell with and without
transference.
PSCHP4P3
Interpretation of spectra/data:
1. Interpretation of vibrational -rotational spectra of rigid and non -rigid diatomic molecules
2. Interpretation of electronic spectra of diatomic molecules.
3. Interpretation of electronic spectra ofsimple polyatomic molecules.
4. Interpretation of NMR,ESR spectra.
5. Interpretation of Mössbauer spectra.
6. Analysisof XRD pattern of cubic system
7. Interpretation of DTA, TG, and DTG curves
PSCHP4P4
Project Evaluation
List of reference Books for Practicals:
a. B.VishwanathanandP.S.Raghavan,PracticalPhysicalChemistry,Vi
va BooksPrivateLimited,2005.
b. A.M.JamesandF.E.Prichard,PracticalPhysicalChemistry,3rded.
, Longman,1974.
c. B.P.Lewitt(ed.),Findlay’sPracticalPhysicalChemistry,9thed.,1973.
d. C.D.BrennanandC.F.H.Tipper,ALaboratoryManualofExperimentsin
PhysicalChemistry,McGraw -Hill,1967.
e. F.Daniel&Others,ExperimentalPhysicalchemistry,19665,Kogakasha
CoLtd.,Tokyo.
Note:
1. The candidate is expected to submit a journal certified by the Head of the
Department/institutionatthetimeofthepracticalexamination.
2. A candidate will not be allowed to appear for the practical examination unless he / she
produces a certified journal or a certificate from the Head of the institution/department
stating that the journal is lost and the candidate has performed the required number of
experiments satisfactorily. The list of the experiments performed by the candidate should
be attached with such certificate.
3. Use of non -programmable calculator is allowed both at the theory and the
practicalexamination.