Tantargy

Data

Official data in SubjectManager for the following academic year: 2024-2025

Course director

  • Kiss László

    research associate professor,
    Department of Organic and Pharmacological Chemistry

Number of hours/semester

Lectures: 28 hours

Practices: 0 hours

Seminars: 0 hours

Total of: 28 hours

Subject data

  • Code of subject: OPF-PEK-T
  • 2 Credit
  • Pharmacy
  • Optional module
  • autumn
Prerequisites:

OPA-PC1-T finished , OPA-S1E-T finished

Course headcount limitations

min. 5 people – max. 15 people

Topic

The aim of the course is to discuss about the electrochemical reactions of organic compounds, highlighting the effect of the used solvents, electrodes with different materials. The different groups of compounds will be introduced in this respect in details, especially the electrochemical halogenation and dehalogenation. The oxidation and reduction processes are mainly used in the electroanalytical methods, therefore the voltammetric and amperometric measuring methods will be shown in details. The shape and magnitude of electrode is also an important factor, especially microelectrodes serve as an appropriate tool for analysis of highly resistive media. The material of electrode is interesting due to the adsorption. The electrode reactions of organic compounds are along with exchange of protons so the related mechanisms are also important. In the electroanalysis the improvement of sensitivity and selectivity is essentially important and the electrode grafting methods are widespread, tiols bind strongly particularly to surface of gold. The material of carbon paste electrodes can be mixed with apolar organic compounds, on the other hand making intercalated graphene is possible. Through several examples the detectability of many organic compounds will be introduced. A special family of compounds, calixarenes will be highlighted especially in respect of electrode modifying materials.

Lectures

  • 10. Organic electrosyntheses: nitrogen, sulfur, phosphorous and other heteroatom containing compounds - Kiss László
  • 9. Organic electrosyntheses: nitrogen, sulfur, phosphorous and other heteroatom containing compounds - Kiss László
  • 8. Organic electrosyntheses: Kolbe-syntheses, oxygen containing intermediers - Kiss László
  • 7. Organic electrosyntheses: Kolbe-syntheses, oxygen containing intermediers - Kiss László
  • 6. Electrochemical halogenation, dehalogenation, degradation of halogen containing compounds - Kiss László
  • 5. Electrochemical halogenation, dehalogenation, degradation of halogen containing compounds - Kiss László
  • 4. Advantages, disadvantages of use of ionic liquids - Kiss László
  • 3. Advantages, disadvantages of use of ionic liquids - Kiss László
  • 2. Materials of electrodes in organic electrosyntheses, analyses - Kiss László
  • 1. Materials of electrodes in organic electrosyntheses, analyses - Kiss László
  • 14. Potentiometry based on ion and electron exchange equilibria, pH dependence of electrode reaction of organic compounds - Kiss László
  • 13. Potentiometry based on ion and electron exchange equilibria, pH dependence of electrode reaction of organic compounds - Kiss László
  • 12. Organic electrosyntheses: heterocyclic compounds, asymmetric syntheses - Kiss László
  • 11. Organic electrosyntheses: heterocyclic compounds, asymmetric syntheses - Kiss László
  • 15. Reaction polarisation, electrode mechanisms, narrow-gap cells, ion mobility sensors - Kiss László
  • 16. Reaction polarisation, electrode mechanisms, narrow-gap cells, ion mobility sensors - Kiss László
  • 17. Polarography, role of electrode material in adsorption processes, flow injection analysis - Kiss László
  • 18. Polarography, role of electrode material in adsorption processes, flow injection analysis - Kiss László
  • 19. Electrode grafting and other possibilities for electrode modification, carbon paste electrode - Kiss László
  • 20. Electrode grafting and other possibilities for electrode modification, carbon paste electrode - Kiss László
  • 21. Electroanalysis of organic compounds I - Kiss László
  • 22. Electroanalysis of organic compounds I - Kiss László
  • 23. Electroanalysis of organic compounds II - Kiss László
  • 24. Electroanalysis of organic compounds II - Kiss László
  • 25. Electrochemistry of calixarenes, their utilization as electrode modifiers - Kiss László
  • 26. Electrochemistry of calixarenes, their utilization as electrode modifiers - Kiss László
  • 27. Writing exam - Kiss László
  • 28. Writing exam - Kiss László

Practices

Seminars

Reading material

Obligatory literature

Literature developed by the Department

sheets of lectures in a ppt file

Notes

Recommended literature

Conditions for acceptance of the semester

-

Mid-term exams

pót zárthelyi előre egyeztetett időpontban

Making up for missed classes

Előadás, így nincs lehetőség pótlásra.

Exam topics/questions

materials of electrodes in organic electrosyntheses, analyses

advantages, disadvantages of use of ionic liquids

electrochemical halogenation, dehalogenation, degradation of halogen containing compounds

Organic electrosyntheses: Kolbe-syntheses, oxygen containing intermediers

Organic electrosyntheses: nitrogen, sulfur, phosphorous and other heteroatom containing compounds

Organic electrosyntheses: heterocyclic compounds, asymmetric syntheses

potentiometry based on ion and electron exchange equilibria, pH dependence of electrode reaction of organic compounds

reaction polarisation, electrode mechanisms, narrow-gap cells, ion mobility sensors

polarography, role of electrode material in adsorption processes, flow injection analysis

electrode grafting and other possibilities for electrode modification, carbon paste electrode

electroanalysis of organic compounds

electrochemistry of calixarenes, their utilization as electrode modifiers

writing exam

Examiners

Instructor / tutor of practices and seminars