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Assistant Professor Sarma Valtere
Course description: 2Credit units; 32 hours (32 lectures)
Control forms: test
Course content:
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General principles of the environmental chemistry. Principles of the environmental toxicology.
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Characteristics of the biogenic chemical elements, micro- and macroelements.
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Chemical and physico-chemical processes in diferent spheres. The living processes and the bio-geo-chemical cycles.
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How society interacts with natural material flows - global antropogenic flows: the unbalanced carbon cycle, the increased nitrogen, phosphorus and sulphur flows.
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The main xenobiotics: heavy metals, radionuclides, synthetic organic substances. Response to xenobiotics: chemical carcinogenesis and mutagenesis.
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Air pollution: the main antropogenic pollutants. Photochemical chain reactions, photochemical smog. Depletion of stratospheric ozone. Climatic changes. Acidification of environment.
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Water and land pollution. Charakteristics of natural water resources. Sources of water pollution: municipal sewage, industrial wastewaters.
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Pollution controle: pollution prevention in the sources (cleaner technologies, alternative row materials) purification of flue gases, wastewater treatment, waste disposal and recycling, treatment of hazardous waste.
Literature:
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M. Klavins. Environmental Chemistry. Chemical Pollutants and their cycles (In Latvian). University of Latvia, Riga, 1996, 298 p.
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S. Valtere. Water chemistry (In Latvian). Riga Politechnical Institute, 1987, 66 p.
Further Readings:
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S.F.Zakrzewski. Principles of Environmental Toxicology. American Chemical Society, Washington, DC, 1991, 270 p.
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S.Karlsson, C.Azar, G.Berndes, J.Holmberg, K.Lindgren. Man and Materials Flows. The Baltic University Programme A Sustainable Baltic Region, Booklet N 3, Uppsala Publishing House, 1997, 52 p.
Chromatographic METHODS OF ANALYSIS
ĶNF 514
Associated Professor Augusts Ruplis
Course description: 2 Credit units; 32 hours (32 laboratories)
Control forms: test
Course content:
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Origination and development of chromatography
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Classification of chromatographic methods
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Principle of crhomatography
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Chromathography on solid phase
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Gas-solid ghromatography
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Liquid-solid chromatography
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Ion-exchange chromatography
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Thin-layer and paper chromatography
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Bonded phase chromatography
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Chromatography on liquid phase
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Gas- liquid chromatography
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Liquid-liquid chromatography
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Size-exclusion chromatography
Literature: -
A. Ruplis Chromatography
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B. A. Aivazovskij Vvedenije v hromatografiju , Moskva, Visšaja Škola,1983, 240
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C. F. Pool, S.K. Pool Chromatography Today, Amsterdam, Elsevier, 1998, 1026
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K.A. Rubinson, J. F. Rubinson Instrumental Analysis, London, 2000, 840
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J.H. Kennedy Analitical Chemistry Principles, New York, Saunder College Publishing, 1990, 936 (713-782)
Stereochemistry
ĶOĶ 416
Professor Ojārs Neilands.
Course description: 4 Credit units; 64 hours ( 32 lectures, 32 practice).
Control forms: 2.eksāmeni.
Course content:
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Configuration and conformation of molecules. Chirality. Enantiomers and diastereomers. Stereochemical nomenclature.
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Asimmetric atoms of tetrahedral configuration (C, Si, N, P, S). Molecules with two and more asimmetric centra. Chiral axis and chiral plane.
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Racemates and their resolution.
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Stereoselectivity in chemical reactions.Stereospecific reactions.Enantiomeric excess.
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Prochirality. Enantiotopic and diastereotopic ligands and faces.
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The conception of stereodifferentiation . Induction of stereoselectivity.
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Stereoselective formation of bond C-H in protonation, hydrogenation, reduction, hydride ion transfer reactions.
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Stereoselective formation of bond C-C in alkylation, nucleophylic addition, pericyclic reactions.
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Stereoselective formation of bond C-O in epoxidation and dihydroxylation reactions.
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Stereoselective formation of bond C-N in aziridination and aminohydroxylation reactions.
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Stereoselective synthesis and racemates kinetic resolution, a comparison of methods and practical use.
Literature:
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D.V.Gjnfgjd. Cnthtj[bvbz. -Vjcrdf: {bvbz.- 1988. - 463 cnh.
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Yjvtyrkfnhyst ghfdbkf B?GFR gj [bvbb> Njv 3 Jhufybxtcrfz [bvbz Dscjrjvjktrekzhyst cjtlbytybz Gjkenjv 2.- Vjcrdf: DBYBNB> 1983.- cnh. 5 - 118 .
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V. Yjuhflb. Cnthtjctktrnbdysq cbyntp.- Vjcrdf: Vbh> 1989.- 406 cnh.
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E.L.Eliel, S.H.Wilen, L.N.Mander.- Stereochemistry of Organic Compounds. New-York: John Wiley&Sons, 1994.- 1267 p.
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Atta-ur-Rahman, Z.Shah. Stereoselective Synthesis in Organic Chemistry Berlin, New-York: Springer Verlag, 1994.- 522 p.
Physical Methods of the Investigation of Chemical Compounds
ĶOĶ 427
Professor Raimonds Valters
Course description: 2Credit units, 32 hours (16 lectures, 16 practice)
Control forms: Exam
Course content:
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General principles of the physical methods of the investigation of chemical compounds. Classification of the methods. Electromagnetic radiation and its interaction with the substance.
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Optical spectroscopic methods: molecular electronic absorption spectroscopy, molecular luminescence, infrared and Raman spectroscopy, atomic emission and absorption spectroscopy. Chirooptical methods: polarimetry and optical rotation dispersion.
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Radio spectroscopic methods:1H and 13C nuclear magnetic resonance spectroscopy. Resonance phenomenon. 1H and 13C chemical shifts, 1H,1H spin-spin coupling. Electron spin resonance spectroscopy.
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Ionization methods: mass spectrometry.
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X-ray diffraction structure analysis.
Literature:
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G.W.Ewing. Instrumental methods of chemical analysis. 5th ed. McGraw-Hill, New York, 1985 (Russian translation, 1989)
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R.Valters. Applications of infra-red spectroscopy to the structure analysis of organic compounds (In Latvian). Riga Technical University, 1990, 81 p.
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R.Valters. Applications of nuclear magnetic resonance spectroscopy to organic chemistry (In Latvian). Riga Technical University, 1991, 110 p.
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R.Valters. Applications of electronic absorption spectroscopy to organic chemistry (In Latvian). Riga Technical University, 1992, 81 p.
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R.Valters. Applications of mass spectrometry to organic chemistry (In Latvian). Riga Technical University, 1993, 105 p.
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R.M.Silverstein, G.C.Bassler, Th.C.Morrill. Spectrometric identification of organic compounds. 3rd ed. Wiley, New York, 1974 (Russian translation 1977)
Spectroscopic Data Tables:
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A.J.Gordon, R.A.Ford. The Chemist's companion (A Handbook of practical data, techniques and references). Wiley, New York, 1972 (Russian translation 1976)
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E.Pretsch, Th.Clerc, J.Seibl, W.Simon. Spectral data for structure determination of organic compounds. 2nd ed., Springer, London, 1989.
Problem Books:
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L.D.Field, S.Sternhell, J.R.Kalman. Organic Structures from Spectra. 2nd ed., Wiley, Chichester, 1995.
Further Readings:
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E.A.V.Ebsworth, D.W.H.Rankin and S.Cradock. Structural methods in inorganic chemistry. Blackwell Sci. Publ., Oxford, 1987.
Physical Methods of the Investigation of Organic Compounds
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