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Last update: RNDr. Jana Sobotníková, Ph.D. (14.04.2008)
applications. Opening part of the lecture deals with analysis of theoretical description of processes in GC especially with respect to achievement of optimal efficinecy and selectivity. The lecture focuses on practical aspects of GC applications in following parts. Systems of substance identification and determination under application of common and less common detectors would be thoroughly explained. Non-classical GC methods, e.g. pyrolysis, reactive, inverse, preparative and two-dimensional GC, are presented in further parts of the lecture. The end of the lecture is attended to the discussion of the limits and perspectives of GC. |
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Last update: OPEKAR (03.02.2003)
1. E. Smolková, L. Feltl, Analýza látek v plynném stavu, SNTL, Praha 1991.
2. J. Churáček, Analytická separace látek, SNTL, Praha 1990.
3. Z. Holzbecher, J. Churáček, Analytická chemie, SNTL, Praha 1987.
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Last update: doc. RNDr. Dr. Radomír Čabala (04.11.2011)
Podmínkou složení zkoušky je samostatná příprava rešerše a prezentace přednášky ze zadaného tématu. Témata jsou přidělena studentům na začátku semestru. Klasifikace zkoušky odpovídá kvalitě zpracované rešerše a kvalite prezentace. |
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Last update: RNDr. Jana Sobotníková, Ph.D. (14.04.2008)
Syllabus 1. Theory of GC - plate and velocity theory - revision and refinement 2. Thermodynamics of GC processes 3. Analyte properties - retention descriptors relations 4. Injection techniques 5. Stationary and mobile phases in GC 6. Detectors - general and specific properties, signal processing 7. Qualitative and quantitative GC analysis 8. Less common and non-classical methods of GC 9. Applications of GC - limits and perspectives |