msc syllabus all

8/22/2019 MSc Syllabus All

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M Sc Chemistry Syllabus : Semester-I

Paper - I Inorganic Chemistry

Unit - 1 : Studies and Application of Lanthanides and Actinides:

- Spectral and Magnetic properties.

- Modern methods of separation of Lanthanides and Actinides.

- Organometallic Compounds of lanthanides.

- Application of lanthanides and actinides compounds in Industries.

- Use of lanthanides compounds as Shift reagents.

Unit - 2 : Nuclear Chemistry :

- Radioactive decay and equilibrium.

- Nuclear Reactions - Types, Q value, Cross Section of reactions.

- Chemical effects of nuclear transformation.

- Nuclear Fission - Fission Products, Fission Yield and Nuclear Reactors.- Nuclear Fusion and stellar energy.

- Radioactive techniques:

(i) Tracer techniques (neutron activation analysis),

(ii) Countering Techniques such as G.M Ionization and Proportional counters.

Unit - 3 : Inorganic Rings, Cages and Clusters :

- Polyhedral Boranes : Higher Boranes, Carboranes, Metallo-boranes and Metallo-

carboranes Classification, Nomenclature, preparation, Structure and Bonding,

Wades rule.

- Metal carbonyl hydrides and Metal carbonyl clusters, LNCC & HNCC, Capping rule.

Unit - 4 : Inorganic Polymers :

- Charecterestic properties and Classification.

- Types of Inorganic Polymerization (step-growth, chain-growth, ring-opening,

Reductive Coupling, Condensation synthesis )

- Synthesis, properties and applications of important inorganic polymers :

Polyphosphazenes , phosphonitrilic halides.

Polysiloxanes (Silicones), polysilanes.

Coordinate Polymers.

- Condensed Phosphates, Silicates, and sulphur-nitrogen compounds.- Isopoly and Hetropoly acid and Salts : Synthesis and structural principles with refer

ence to those of Mo and W.

Unit - 5 : Nanoscience and Nanotechnology :

- Introduction to nanotechnology, scope of applications.

- Techniques for synthesis of nanoparticles.

- Important nano materials (nanooptics, nanomagnetics, nanoelectronics)

- Carbonnanotubes - types, properties & applications.


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Books Recommended1. Chris J. Jones, d- and f- Block Chemistry , (2002), Wiely Interscience & RSC,

2. V.S. Sastri, J.C.G. Bunzli, V.R. Rao, G.V.S. Rayudu, J.R. Perumareddi, Modern Aspects of

rare earths and their complexes, (2003) Elsevier publication.

3. H.J. Arnikar, Essentials of Nuclear Chemistry, 4th Edition (1995), Wiely-Eastern Ltd., New

Delhi.

4. B. G. Harvey, Introduction to Nuclear Physics and Chemistry, (1969) Prentice Hall, Inc.

5. Attila Vertes (editor), Handbook of Nuclear Chemistry, 2nd Edition, (2011), Springer.

6. G. Fridlander, J.W. Kennedy, E. S. Macias, and J. M. Miller, Nuclear & Radiochemistry, 3rd

Edition (1981), John Wiley, New York.

7. Tristram Chivers, Ian Manners, Inorganic Rings and Polymers of the p-Block Elements :

From Fundamentals to Applications, (2009) Royal Society of Chemistry.

8. P. Braunstein, L. A. Oro, P. R. Raithby (editors), Metal Clusters in Chemistry, (1999),

Wiley-VCH.

9. J.D. Woollins, Non-Metal Rings, Cages and Clusters, (1988), John Wiley & Sons.

10. James E. Mark, Harry R. Allcock, Robert West, Inorganic Polymers - 2nd Edition, (2005),Oxford University Press.

11. Mao-Chun Hong, Ling Chen (editors), Design and Construction of Coordination Polymers

(2009), John Wiley & Sons

12. Chris Binns, Introduction to Nanoscience and Nanotechnology (2010), John Wiley &

Sons, Inc.

13. C. N. R. Rao, A. Muller, A. K. Cheetham (Eds.), The Chemistry of Nanomaterials, (2004),

Wiley-VCH Verlag.

M.Sc Chemistry

Inorganic Chemistry Practical Syllabus

Semester : 1

A. Qualitative Analysis of Inorganic Mixture - (21 Marks)

Identification of seven radicals including insoluble residue and rare earth metal ions by

semi micro analysis.

(i) Rare elements: Tl, W, Se, Mo, Ti, Zr, Ce, Th, V, U, Li(ii) Insolubles: PbSO

4, SrSO

4, Al

2O

3, Cr

2O

3, Fe

2O

3, SnO

2, AgX, TiO

2, ThO

2, WO

2.xH

2O

B. Preparations of Inorganic Complex Compounds - (14 Marks)

1. Prussian Blue (Potassium Ferric Ferro cyanide)

2. Reineckes salt (Ammonium diammine tetra thio cyanato chromate (III))

3. Potassium tri oxalato ferrate (III) trihrdrate.

4. trans-potassium di aqua bis(oxalato) chromate (III)

5. cis-potassium di aqua bis(oxalato) chromate (III)

6. Sodium hexa nitrito cobaltate (III)7. tris (acetylacetonato) manganese (III)


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M Sc Chemistry Syllabus : Semester-II

Paper - II - Coordination Chemistry

Unit - 1: Theories of Metal Ligand Bonding : (CFT)

- Recapitulation of Crystal Field Theory including Splitting of d-orbitals in Octahedral,

tetrahedral square pyramidal, triogonal bipyramidal environments.

- Factors affecting the magnitude of crystal field splitting, spectrochemical series.

- Structural effects (ionic radii & John-Teller Effect) and Thermodynamic effects

(ligation, hydration, & lattice energies) of Crystal Field Theory.

- Applications of CFSE and adoption of geometrical arrangements.

- Limitations of crystal field theory.

Unit- 2 : Theories of Metal Ligand Bonding : (ACFT and MOT):

- Experimental evidence for Metal ligand orbital overlap in complexes, Nephelauxeticseries.

- Adjusted crystal field theory (ACFT) (also called Ligand Field Theory).

- Molecular Orbital Theory for Octahedral, tetrahedral, and square planer complexes

(excluding mathematical treatment).

Unit - 3: Metal Ligand Equilibria in Solutions:

- Stepwise and overall formation constants and their interaction, trends in stepwise

constants.

- Factors affecting stability of metal complexes with reference to the nature of metal ion

and ligand, chelate effect and its thermodynamic origin.- Determination of binary formation constant by pH metry and spectrophotometry.

Unit - 4 : Reaction Mechanism of Transition Metal Complexes (I) :

- Energy profile of a reaction, reactivity of metal complexes, inert and labile complexes.

- A,D and I mechanism for metal complexes.

- Kinetics and mechanism of octahedral substitution.

- Acid hydrolysis, factors affecting acid hydrolysis.

- Base hydrolysis, conjugated base mechanism, direct and indirect evidence in favor of

conjugated mechanism.

- Anation reactions, reactions without metal ligand bond cleavage.

Unit - 5: Reaction Mechanism of Transition Metal Complexes (II) :

- Substitution reactions in square planer complexes :

- Mechanism of the substitution reaction, the trans effect .

- Redox Reaction, Electron Transfer Reactions :

- Mechanism of one electron transfer reactions, outer sphere type reactions,

- Cross reactions and Marcus-Hush theory,

- Inner sphere types reactions.


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Books Recommended1. Geoffrey A. Lawrance, Introduction to Coordination Chemistry, (2010), Wiley & Sons.

2. Rob Janes and Elaine Moore, Metal-Ligand Bonding (2004), RSC.

3. Yves Jean, Molecular Orbitals of Transition Metal Complexes, (2005), Oxford University

Press.

4. C H Langford & H B Gray, Ligand Substitutin Processes,(1965), W.A.Benjamin Inc.

5. Robert B. Jordan, Reaction Mechanisms of Inorganic and Organometallic System, 3rd ed

(2007), Oxford University Press.

6. Fred Basolo, Ralph G Pearson, Mechanisms of Inorganic Reactions, 2nd Ed (1984), Wiely

Eastern Ltd.


Semester : 2

A. Quantitative Analysis : (20 Marks)

Quantitative Separation and determination of two metal ions : Cu-Ni, Ni-Zn, Cu-Zn etc using

volumetric and gravimetric methods.

B. Chromatography : (15 Marks)

1. Paper chromatographic separation of Pb, Ag and Hg ions .

2. Determination of the Rf value of Pb, Hg, Cu and Cd ions by using paper chromatographic

technique.

3. Determination of the Rf value of Fe, Al, Cr ions by using paper chromatographic technique.

4. Determination of the Rf value of Ba, Sr, Ca ions by using paper chromatographic technique.

5.TLC separation and determination of the Rf values of Ni, Mn, Co and Zn ions.

6. Radial paper chromatographic seperation of Cu, Cd ions.

7. Radial paper chromatographic seperation of Ni, Cu ions.


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M Sc Chemistry Syllabus : Semester-III

Paper - III - Organometallic Chemistry

Unit 1- Metal Carbonyls:

- Preparation, structure and bonding.

- Vibration spectra of metal carbonyls for structural elucidation.

- Important reactions of metal carbonyls.

- Bonding synthesis and reaction of transitional metals with NO, O2, N

2, and tertiary

Phosphine Ligands.

Unit 2- Main Group Organometallics:

- Ligand hapticity, electron count for different types of organometallic compounds,

- 18 and 16 electron rule with exceptions,

- Synthesis and Reactions of organo Lithium and organo magnesium compounds.

- Organo metallics of zinc and cadmium.

Unit 3- - complexes of Unsaturated Molecules:

- Synthesis, structure, bonding and reactivity of transitional metal complexes with

alkenes, cyclo penta dienyl (Metallocenes), Benzenoid, - allyl, and enyl systems,

- Transitional metal- carbon - bond, metal alkyls, metal carbenes, metal carbines.

Unit 4- Transition Metal Compounds in Homogenous catalysis:

- Reaction Steps of Transition Metal Catalysed Reactions - Coordinative unsaturation,

Oxidative addition reactions, reductive elimination reactions, insertion (migration)

reactions.

- Reactions of coordinative legands and activation by small molecules.

- Catalytic reactions of Alkenes isomerisation, hydrogenation, hydroformylation,

hydrosilylation and polymerization.

Unit 5- Supramolecular Chemistry:

- Definition, supramolecule host-guest compounds.

- Macrocyclic effect, nature of supramolecular interactions.

- Molecular recognition.- Applications in Transport process and carrier design.

Books Recommended1. Didier Astruc, Organometallic Chemistry and Catalysis, (2007), Springer.

2. Robert H Crabtree, The Organometallic Chemistry of the Transition Metals, 4th Ed (2005),

Wiley Interscience.

3. Helmut Werner, Landmarks in Organo-Transition Metal Chemistry, (2009), Springer.

4. R.C. Mehrotra and A. Singh, Organometallic chemistry: A unified approach, (1991), Wiley,

New York.5. Ayodhya Singh, R. Singh, Organometallic Chemistry, (2006) Campus Books International.


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6. R.H. Crabtree, The Organometallic Chemistry of the Transition Metals, 1st Edn.(1988),

John-Wiley & Sons, New York.

7. J. P. Collman, L. S. Hegedus, J. R. Norton and Richard G. Finke, Principles and Applica-

tions of Organotransition Metal Chemistry, 1st Edn.(1987), University Science Books, Mill

Valley, California.

8. Ionel Haiduc, Frank Thomas Edelmann, Supramolecular organometallic chemistry,(2000), Wiley-VCH

9. Peter J. Cragg, A Practical Guide to Supramolecular Chemistry, (2005), John Wiley & Sons

Ltd.

10. Katsuhiko Ariga,Toyoki Kunitake, Supramolecular Chemistry-Fundamentals & Applica-

tions (2006), Springer-Verlag.

11. Jean-Marie Lehn, Supramolecular Chemistry, (1995) VCH, Weinheim.


Semester: 3

A. Colorimetry / Spectrophotometry (25 Marks)

(a) Determination of the wavelength of maximum absoption.

1. To carry out absorbance measurements for Chromium (VI) and Manganese (VII) solutions

on a spectrophotometer and draw its UV-VIS spectrum and determine the wavelength of

maximum absoption (l max) of Chromium (VI) and Manganese (VII) and compute the corre-sponding molar absorption coefficient.

(b) Verification of Beer-Lambert law and Determination of Metal Ions (in ppm) in

supplied solution.

1. Verification of the Beer-Lambert law and determination the concentration of supplied

KMnO4 solution.

2. To test the validity of the Beer-Lambert law and determine the concentration of supplied

K2Cr

2O

4solution.

3. To analyse the validity of Beers law using colorimeter and determine the concentration of

supplied CuSO4.5H2O4. Determination of the concentration of supplied NiSO

4.7H

2O solution as Ni-dmg complex

spectrophotometrically.

(c) Determination of Metal Ions (in ppm) in unknown sample.

1. Spectrophotometric Determination of Iron in Vitamin Tablets.

2. Spectrophotometric Determination of Manganese in Steel.

(d) Spectrophotometric Titration.

1.Determination of the concentration of the supplied FeCl3

solution by spectrophotometric

titration with EDTA.2. Determination of Copper by EDTA


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(e) Determination of composition of binary mixture.

1. To calculate the concentrations of Chromium (VI) and Manganese (VII) in a mixture from

the absorption measurements of the mixture at two different wavelengths.

2. To calculate the concentrations of Cobalt (II) and Chromium (III) in a mixture from the

absorption measurements of the mixture at two different wavelengths.

(f) Spectrophotometric determination of anions.

1.To determine the concentration of given unknown phosphate solution by

Molybdophosphoric acid Method with the help of spectrophotometer.

2.To determine the concentration of given unknown phosphate solution by

Phosphovanadomo- ybdate method with the help of spectrophotometer.

(g) Determination of Dissociation Constants of an Indicator.

1. To determine the dissociation constant , pKa, of an acidbase indicator (methyl red) by

spectrophotometric method.

2. To determine the dissociation constant , pKa, of an acidbase indicator (Bromothymol Blueor Phenol Red) by spectrophotometric method.

(h) Determination of Composition (formula) and Stability Constant of Complexs.

1. Fe(III) thiocynate complex by Job's method.

2. Fe(III) sulpho salicylic acid (SSA) complex by Job's method.

3. Copper-ethylene diamine complex by mole fraction or Slope ratio method.

B. Flame photometry (10 Marks)

1. Determination of Na concentration in the given solution flame photometrically by calibra-

tion curve method

2. Using a flame photometer, determine K in the given solution

3. Determination of calcium concentration flame photometrically

4. Determination of total Na, K & Ca concentration in a plant material

5. Determination of total sodium, potassium, calcium concentration in milk

6. Determination of total Na, K, Ca concentration in banana

7. Determination of Lithium concentration flame photometrically


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M Sc Chemistry Syllabus : Semester-IV

Paper - IV Special Topics in Chemistry

Unit -1 : Electronic Spectra of Transition Metal Complexes :

- Types of electronic transition, selection rule of d-d transition.

- Spectroscopic ground states, correlation.

- Orgel energy level and Tanabe-Sugano diagrams for transition metal complexes.

- Calculation of ligand-field parameters (Racah parameters).

- Charge transfer spectra. Inter-valance charge transfer spectra.

Unit - 2 : Magenetic properties of transitional metals:

- Different types of magnetic behavior.

- Factors affecting observed magnetic moments.

- Origin of magnetic moment, spin contribution, spin only formulas, orbital contribution,spin-spin coupling.

- Derivation of Van-Vleck equation.

- Methods of magnetic susceptibility measurement.

- Ferromagnetism, Antiferromagnetism, Mechanism of Antiferromagnetism interaction.

- Spin cross over and anomalous magnetic moments.

- Application of magnetic measurements for structural elucidation.

Unit - 3 : Environmental Chemistry - Soil & Water

(a) Lithosphere (Soils) :

- Nature and Composition of Soil.- Micro and macro nutrients in soil.

- Pollutants in Soil - Fertilizers, pesticides, plastics and metals. Waste Treatment.

(b) Hydrosphere (Water) :

- Hydrosphere (Sources of water - oceans, lakes, revers, glaciers and groundwater etc.)

and Hydrological cycles.

- Chemical composition of water and water quality standards.

- Aquatic pollutants -

Inorganic - metals, contents of chloride, sulphate, phosphate and nitrate.

Organic - Pesticide, agricultural, industrial & sewage detergents, oil spills & oil -

pollutants.

Solid Waste, Micro organism.

- Water quality parameters - dissolved oxygen, biochemical Oxygen demand .

- Purification and treatment of water.

Unit - 4 : Environmental Chemistry - Atmosphere (Air )

- Chemical composition of atmosphere- particles, ions and radicals and their formation.

- Heat (energy & radiation) budget of the Earth atmosphere systems.

- Vertical stability of atmosphere.

- Chemical and photochemical reactions in atmosphere, smog formation.

- Oxides of N,C,S,O and their effect, Green house effect, Acid rain.

- Air pollution controls and their chemistry.


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Unit - 5 : Green Chemistry :

- Introduction to green chemistry.

- Principles of green chemistry.

- Designing and chemical synthesis, examples of green synthesis/ reactions.

- Future trends in green chemistry.

Books Recommended1. Derek Sutton, Electronic spectra of transition metal complexes: An introductory text (1968),

McGraw-Hill.

2. R.L.Carlin, A. J. van Duyneveldt, Magenetic properties of transitional metals Compounds

(1979), Springer-Verlag.

3. Rob Janes and Elaine Moore, Magnetism and the magnetic properties of transition-metal

complexes (2004), RSC.

4. G.W. Vanloon, S.J. Duffer, Environmental Chemistry - A Global Perspective, (2000) Oxford

University Press.5. F.W. Fifield and W.P.J. Hairens, Environmental Analytical Chemistry, 2nd Edition (2000),

Black Well Science Ltd.

6. Colin Baird, Environmental Chemistry, (1995) W.H. Freeman and Company, New York.

7. A.K. De, Environmental Chemistry, 4th Edition (2000), New Age International Private Ltd.,

New Delhi.

8. Peter O. Warner, Analysis of Air Pollutants,1st Edition (1996), John Wiley, New York.

9. S.M. Khopkar, Environmental Pollution Analysis, 1st Edition (1993), Wiley Estern Ltd., New

Delhi.

10. S.K. Banerji, Environmental Chemistry, 1st Edition (1993), Prentice-Hall of India, New

Delhi.11.James H. Clark, Duncan J. Macquarrie, Handbook of Green Chemistry and Technology,

(2002)Wiley.

12.V. K. Ahluwalia, M. Kidwai, New Trends in Green Chemistry (2004), Springer.

13. R. L.Carlin, Magnetochemistry, Springer.

14. D.N. Sathyanarayana, Electronic Absorption Spectroscopy and Related Techniques (2001),

Universities Press (India) Ltd., Hyderabad.

15. Oliver Kahn, Molecular Magnetism, (1993) VCH, Weinheim.


Semester: 4

A. Water Analysis (10 Marks)1. Determination of alkalinity of the given water sample

2. To determine temporary hardness of water by the HCl method

3. Determination of total hardness of water by complexometric titration method

4. Determination of temporary hardness of water by EDTA method

5. Determination of calcium and magnesium in water by EDTA method

6. To determine chloride content of the given water sample by Mohrs method7. Determination of COD of the water sample


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8. Determination of DO in water by iodometric method

9. Determination of percentage of available chlorine in the supplied sample of bleaching

powder

10. To determine the residual chlorine

11. Determination of pH & electrical conductivity

12. Determination of dissolved carbon dioxide13. Determination of Inorganic P, total P & Sulphate spectrophotometrically.

B. Soil Analysis (10 Marks)1. Determination of pH

2. Determination of conductivity

3. Determination of total alkalinity

4. Determination of chloride & sulphate

5. Determination of organic matter

6. Determination of phosphorus & total phosphorus

7. Determination of Na, K, Ca, Mg

C. Quantitative analysis of minerals/alloys/coins (25 Marks)

1. Analysis the given brass (50-70% Cu+20-40%Zn+0-6%Sn+0-2%Pb+0-1%Fe) sample for

its Cu and Zn contents colorimetrically. Alternatively,Cu by iodometry and Zn by EDTA

method.

2. Analysis of the given sample of gun metal (90% Cu+10%Sn) for its Cu content by iodom-

etry.

3. To determine ferrous content in the supplied sample of iron ore/rust/steel volumetrically

against standard potassium dichromate solution using potassium ferricyanide as externalindicator.

4. Analysis of the given sample of dolomite (equimolar CaCO3+MgCO3) for its volatile

matter, insoluble matter, and its Ca & Mg contents by EDTA method.

5. Analyse the given five-rupee coin for its Cu content iodometrically, and Ni content as Ni-

dmg complex colorimetrically or gravimetrically.

D. Potentiometry and pH-metry (15 Marks)

(a) Determination of Concentration of Metal ions by potentiometric titration.

1. Determination of Fe(II) with potassium dichromate.2. Cu(II) by iodometric method.

(b) Determination of Dissociation Constants, pK values of -

1. Glycine

2. Sulpho salicylic Acid

3. ortho-Phosphoric Acid

(c) Determination of Stability Constant of Complexs.

1. The stepwise and the overall stability constants of Cu(II)-Sulpho salicylic Acid Complexs.

2. The stepwise and the overall stability constants of Mn(II)-Amino Acid (eg Glycine)

Complexs.


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M Sc Chemistry Syllabus : Semester-IV (Special Paper)

Paper - V Bio-Inorganic Chemistry

Unit-1:

(a) Role of Metal ions in Biological Systems :

- Functions of metal ions in biological systems.

- Transport of ions through cell membrane - Na+/K+ Pump.

(b) Oxygen carrier Systems:

- Structure and function of Hemoglobin, Myoglobin, Hemerythrin & Hemocyanin.

- Mechanism of dioxygen binding with heme proteins.

- Nature of Iron-dioxygen linkage in Hemoglobin

- Model system - Model Synthetic complexes of Iron and Cobalt as Oxygen carrier.

Unit-2 :

(a) Photosynthetic Pigments :- Complexes of Porphyrin.

- Redox mechanism in Photosystems (PS-I and PS-II), Cleavage of Water in PS-II.

(b) Biological Nitrogen Fixation :

- Enzymetic reduction of Nitrogen to Ammonia - Nitrogenase Structure and

mechanism.

- Molybdenum Nitrogenase - Spectroscopic and other studies.

- Model Systems for Nitrogenase.

Unit-3:

(a) Electron Transfer in Biology :

- Structure and Function of Metallic Proteins in Electron Transport Process,Cytochrome, Iron-sulphur Proteins.

(b) Metal Storage, Transport and Biomineralisation :

- Metal Storage and Transport - Structure and Function of Feritin, Transfrsin and

Siderophores.

- Biomineralisation.

Unit-4:

(a) Calcium in Biology:

- Role of Calcium in living systems.

-Transport and regulation of Calcium - pathways and mechanism, Calcium -

Channels and pumps.

- Calcium binding proteins - Intracellular, Mediated membrane and Extracellular .

(b) Metalloenzymes:

- Zinc enzymes - Carboxypeptidase and Carbonic anhydrase.

- Iron enzyme - Catalase, Peroxidase and Cytochrome P-450.

- Copper enzymes - Superoxides dismutase.

- Molybdenum enzymes - Oxatransferase enzymes, Xanthine oxidase.

- Vitamin B12

Coenzyme (Adenosyl Coenzyme).


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Unit-5:

(a) Metal - Nuclic Acid Interactions :

- Metal ions and Nucleic Acids Interactions (binding) - Types & suitable examples.

- Metal complexes (e.g., Cisplatin) interaction with DNA.

(b) Metals in Medicine:

- Metal Deficiency and disease.- Toxic effects of Metals.

- Metals used for diagnosis.

- Metals used in Chemotherapy with particular reference to Anticancer drugs.

Books Recommended1. S. J. Lippard and J. M. Berg, Principles of Bioinorganic Chemistry, (1994), University

Science Books.

2. I. Bertini, H. B. Grey, S. J. Lippard and J. S. Valentine, Bioinorganic Chemistry, (1998)

Viva Books Pvt. Ltd., New Delhi.

3. Harry B. Gray, Edward I. Stiefel, Joan Selverstone Valentine and Ivano Bertini, BiologicalInorganic Chemistry: Structure and Reactivity, (2006),University Science Books.

4. Robert Crichton, Biological Inorganic Chemistry: An Introduction (2008), Elsevier Science.

5. M. N. Hughes, Inorganic Chemistry of Biological Processes, 2nd Ed.(1981), John-Wiley &

Sons, New York.

6. W. Kaim and B. Schwederski, Bioinorganic Chemistry: Inorganic Elements in the Chemistry

of Life, An Introduction and Guide, (1995) Wiley, New York.

7. Nicholas V. Hud, Nucleic Acid - Metal Ion Interactions, (2009), Royal Society of Chemis-

try.

8. Ivano Bertini, A.Sigel, H.Sigel (Editors), Handbook on Metalloproteins (2001), Marcell

Dekker,Inc,9. James C. Dabrowiak, Metals in Medicine (2009), John Wiley & Sons, Ltd.

10. Rosette M. Roat-Malone, Bioinorganic Chemistry - A Short Course, 2nd Edition, (2007),

Wiley.

11. H.B. Kraatz, N. Metzler-Nolte (Eds.), Concepts and Models in Bioinorganic Chemistry

(2006), Wiley-VCH.

12. D. L. Nelson and M.M. Cox, Lehninger Principles of Biochemistry, 3rd edition (2002)

McMillan North Publication.

Standard Textbooks for M Sc Chemistry:

1. F.A. Cotton and G. Wilkinson, Advanced Inorganic Chemistry, 3rd Edn. (1972), Wiley

Eastern Ltd.,New Delhi.

2. F.A. Cotton and G. Wilkinson, Carlos A. Murillo, Monfred Bochmann, Advanced Inorganic

Chemistry, 6th Edn. (1999), John Wiley & Sons, Inc.

3. James E. Huheey, Inorganic Chemistry, 3rd Edn. (1983), Harper & Row Publisher.

4. James E.Huheey, Ellen A. Keiter, Richard L.Keiter, Inorganic Chemistry: Principles of

structure and reactivity, 4th ed. (1993), Addison-Wesley Pub. Co., New York.

5. R. Bruce King (Editor), Encyclopedia of Inorganic Chemistry (10 Vol), 2nd Ed (2005 ) ,

Wiley .

6. Duward Shriver, Peter Atkins, Tina Overton, Jonathan Rourke, Inorganic Chemistry, 5th ed

(2010), Oxford University Press.


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7. Catherine Housecroft, Alan G. Sharpe, Inorganic Chemistry, 3rd Edition, (2007), Prentice

Hall.

8. William W. Porterfield, Inorganic Chemistry: A Unified Approach, (1983), Longman.

9. Gary Wulfsberg, Inorganic Chemistry (2000), University Science Books.

10. Gary L. Miessler, Donald A. Tarr, Inorganic Chemistry, 4th Ed. (2011), Prentice Hall,

Pearson.

Practical Inorganic Chemistry Books

1. G. Svehla, Vogel's Textbook of Macro & SemiMicro Qualitative Inorganic Analysis - 5th Ed

(1979), Longman.

2. G. Svehla, Vogel's Qualitative Inorganic Analysis - 7th Ed (1996)

3. J. Bassett, R. C. Denny, G. H. Jeffery And J. Mendham, Vogel's Textbook of Quantitative

Chemical Analysis, 5th Edition (1989), Longman.

4. William George Palmer, Experimental Inorganic Chemistry (1970), CUP.5. W. L. Jolly, The Synthesis and Characterization of Inorganic Compounds. (1970), Prentice

Hall International.

6. Daniel C. Harris, Experiments to Accompany Quantitative Chemical Analysis, 6th Edition

(2003),W. H. Freeman.

7. Daniel C. Harris, Quantitative Chemical Analysis, 8th Edition (2010),W. H. Freeman and

Company.

8. Larry G. Hargis, Laboratory Manual: Analytical Chemistry- Principles and Techniques by

(1988), Prentice Hall.

9. D. A. Skoog, D.M. West, F.J. Holler, S.R. Crouch, Analytical Chemistry - An Introduction,

7th Edition (2000), Saunders.10. David Harvey, Modern Analytical Chemistry (2000) McGraw Hill

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