(in Polish) Przedmioty obowiązkowe dla 1 semestru programu X-S2-CHK (course group defined by Faculty of Chemistry)
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2020/SZ - Academic year 2020/2021, winter semester 2021/SL - Academic year 2020/2021, summer semester 2021/SZ - Academic year 2021/2022, winter semestr 2022/SZ - Academic year 2022/2023, winter semester 2023/SL - Academic year 2022/2023, summer semester 2023/SZ - Academic year 2023/2024, winter semester (there could be semester, trimester or one-year classes) |
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| 02-AINU |
 
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Classes
Academic year 2020/2021, winter semester
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Brief description
For every technique following issues will be addressed: the fundamentals, the basic components of the instrument, the instrument output (quantitative or qualitative), the limitations of the method, the suitability for particular types of analyses, protocols for using the instruments and for analyzing the data. This course will cover Molecular Spectroscopy (UV-Vis, Fluorescence, IR, Raman, NMR), Atomic Spectroscopy (AAS, AES), Mass Spectrometry, Electroanalytical Techniques (Potentiometry, Polarography, Voltammetry, Coulometry), Separation Techniques (GC, HPLC, CE), and Sensors. Sources of errors, reference materials and validation of methods will be also addressed. |
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| 02-CNGBU |
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Classes
Academic year 2020/2021, winter semester
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Brief description
LECTURE. This lecture is focused on typical topics of modern advanced inorganic chemistry: 1/ solid state, ionic solids, 2/ transition metals, 3/ transition metal complexes, 4/ coordination bond, 5/ introduction to coordination chemistry, 6/ introduction to metaloorganic chemistry, 7/ catalysis by metals and their complexes, 8/ introduction to bioinorganic chemistry, 9/ high-molecular inorganic compounds, 10/ inorganic materials with specific properties: • hardness, • electric conductivity, • pigments. |
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| 02-CORBU |
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Classes
Academic year 2020/2021, winter semester
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Brief description
LECTURE. Organic synthesis - introduction: planning of synthesis, selectivity of the reactions and control of their stereochemistry. Basic principles of retrosynthetic analysis: definitions and terminology. Types of disconnections. Donor and acceptor synthons. Functional group interconversion (FGI). Formations of bonds: C-C and C-X. Protective groups: introduction and removal and strategy for choosing. Asymmetric synthesis. Synthesis with the use of chiral auxiliary, reagent and catalyst. Organic synthesis with the use of organophosphorus compounds: Wittig reaction (phosphorus ylides), Horner-Wodsworth-Emmons reaction and Mitsunobu reaction. Organic synthesis with the use of organosulfur compounds. Synthesis of complex molecules. Polar rearrangements. LABORATORY. Exercises involve multistep syntheses with emphasis on their planning, retrosynthetic analysis and selection of protective groups. Examples of Wittig and Mitsunobu reactions. |
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| 02-CPKU |
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Classes
Academic year 2020/2021, winter semester
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Brief description
No brief description found, go to course home page to get more information.
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| 02-ZOKU |
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Classes
Academic year 2020/2021, winter semester
Groups
Brief description
Organic compounds used in cosmetology and related fields (dermatology, perfumery) with focus on their origin (natural, synthetic, semi-synthetic), technology, structure and properties. Review of petrochemical and oleochemical technologies as a main source of cosmetic ingredients. Review of general classes of organic compounds e.g. hydrocarbons, fatty alcohols and acids, waxes and specific functional products e.g. preservatives, surfactants, vitamins or biopolymers. Critical approach to cosmetology involving technology, economy, activity and real value of cosmetic ingredients. Structure and activity of organic molecules and epidermal transport. Biochemical principles of activity of selected cosmetically important molecules (vitamin C, A, Botox, collagen). Experimental course involves preparations of several cosmetic products or intermediates and testing their properties. They include: preparation of soaps, detergents, UV-filters, preservatives, repellent (Off) and many fragrances. |
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