Advanced Organic Chemistry - GAF229

• Title: Advanced Organic Chemistry
• Guaranteed by: Department of Organic And Bioorganic Chemistry (16-16120)
• Faculty: Faculty of Pharmacy in Hradec Králové
• Actual: from 2022
• Semester: winter
• Points: 0
• E-Credits: 3
• Examination process: winter s.:combined
• Hours per week, examination: winter s.:0/42, C+Ex [HS]
• Capacity: unknown / unlimited (26)
• Min. number of students: unlimited
• 4EU+: no
• Virtual mobility / capacity: no
• State of the course: taught
• Language: English
• Teaching methods: full-time
• Explanation: (F 3.r.)
• Note: deregister from the exam date if a requisite was not fulfilled; course can be enrolled in outside the study plan; enabled for web enrollment
• Guarantor: prof. RNDr. Milan Pour, Ph.D.
• Co-requisite : GAF299
• In complex pre-requisite: GAF1002

Annotation

English

The subject follows up on Organic Chemistry I and II, and aims at expanding the knowledge of modern Organic Chemistry with a focus on the methods of rational design, practical synthesis and structural analysis of biologically active compounds. Topics: Modern methods of organic synthesis, Molecular modelling, Advanced structural analysis.

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Czech

Předmět navazuje na Organickou chemii I a II, a jeho cílem je prohloubení znalostí moderní organické chemie se zaměřením na metody racionálního návrhu struktury, praktické syntézy a strukturní analýzy biologicky aktivních látek. Témata: Moderní metody organické syntézy, Molekulové modelování, Pokročilá strukturní analýza.

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Course completion requirements

English

The subject is terminated by a credit and a written exam. In order to obtain the credit, 100% attendance at seminars is required.

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Czech

Předmět je zakončen zápočtem a písemnou zkouškou. Podmínkou udělení zápočtu je 100% účast na seminářích.

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Literature

English

Obligatory:

• null. . In Carey, Francis A., Sundberg, Richard J.. Advanced organic chemistry . New York: Kluwer Academic ; Plenum Publishers, 2000, s. -. ISBN ..

Last update: prepocet_literatura.php (19.09.2024)

Czech

Povinná:

• Carey, Francis A., Sundberg, Richard J.. Advanced organic chemistry. New York: Kluwer Academic ; Plenum Publishers, 2000, 2 s. ISBN .

Last update: prepocet_literatura.php (19.09.2024)

Syllabus

English

Modern methods of organic synthesis

• Retrosynthetic analysis
• Basic principles of stereoselective synthesis
• Protective groups
• Catalytic reactions: metal catalysis, organocatalysis
• Pericyclic reactions
• Advances in heterocyclic synthesis

Molecular modelling

• Introduction to molecular modelling

Advanced methods of structural analysis

• Advanced techniques of NMR and MS

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Czech

Moderní metody organické syntézy

• Retrosyntetická analýza
• Základní principy stereoselektivní syntézy
• Chránící skupiny
• Katalytické reakce: kovová katalýza, organokatalýza
• Pericyclické reakce
• Pokroky v syntéze heterocyklů

Molekulové modelování

• Základy molekulového modelování

Pokročilé metody strukturní analýzy

• Pokročilé techniky NMR a MS

Last update: Pour Milan, prof. RNDr., Ph.D. (02.10.2023)

Learning outcomes

   

Subject Advanced Organic Chemistry follows up on the knowledge and skills acquired in the subjects: Organic Chemistry I, Organic Chemistry II

Following the completion of the subject, the students are able to use the following terms (including their commonly used abbreviations) in the correct context towards reactivity and structure elucidation of organic compounds: retrosynthesis, synthon, umpolung, steroselectivity, enantioselectivity, diastereoselectivity, organocatalysis, metal catalysis, coupling, cykloisomerazation, pericyclic reaction, protective group.

Learning Outcomes:

Based on the knowledge and skills gained, students:

Ø  define the importance of knowledge of advanced methods of Organic Chemistry in drug synthesis;

Ø  have a good command of contemporary developmental trends of modern Organic Chemistry;

Ø  design the synthesis of a given compound;

Ø  suggest suitable functional group(s) for selective transformation of a multifunctional compound;

Ø  are familiar with fundamental principles of stereoselective syntheses;

Ø  explain reaction mechanism of a given organic reaction, including the principles of catalytic cycles;

Ø  have sound knowledge of the principal reactions, utilized in the syntheses of pharmaceutically important compounds.

Last update: Pour Milan, prof. RNDr., Ph.D. (28.03.2025)