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Bioorganic and Polymer Chemistry (BBK 3004)

Course code

Course group

Volume in ECTS credits

Course hours

BBK 3004

C

6

160

Course type (compulsory or optional)

Compulsory

Course level (study cycle)

Bachelor

Semester the course is delivered

Autumn

Study form (face-to-face or distant)

Face-to-face

Course title in Lithuanian

BIOORGANINĖ IR POLIMERŲ CHEMIJA

Course title in English

BIOORGANIC AND POLYMER CHEMISTRY

Short course annotation in Lithuanian (up to 500 characters)

Dalyko dėstymo metu supažindinama su polimerų chemijos raida, pagrindiniais polimerų chemijos terminais, polimerų klasifikacija ir nomenklatūra. Pateikiami pagrindiniai polimerų sintezės metodai, makromolekulių reakcijos, mechaninės savybės. Supažindinama su polimerų struktūros ypatumais. Taip pat, bus pateikti pagrindiniai gamtiniai polimerai, jų klasifikacija, struktūra, izomerija, cheminės savybės bei jų modifikavimo būdai.

Short course annotation in English (up to 500 characters)

The course provides fundamental knowledge of polymer evolution, main expressions of polymer chemistry, classification of polymers, nomenclature. The main methods of polymer synthesis and macromolecular reactions, mechanical properties will be presented. The course presents peculiarities of polymer structure. The main natural polymers, their classification, structure, isomerism, chemical properties and modification will be also presented.

Prerequisites for entering the course

Organic and Physical Chemistry

Course aim

Introduction to the basics of bioorganic and polymer chemistry

Content (topics)

 1. Evolution of polymer chemistry, the main expressions. Classification and nomenclature of polymers.

 2. Structure of macromolecules.

 3. Isomers. Conformation and configuration of macromolecules.

 4. Polymer states and structure.

 5. Mechanical, optical and electric properties of polymers.

 6. Polymer solutions.

 7. Polymer molecular weight and its determination methods.

 8. Synthesis of polymers.

 9. Polymer reactions.

 10. Classification and nomenclature of natural polymers.

 11. Isomerism of natural polymers.

 12. Chemical properties, modification and application of natural polymers.

 13. Cyclic natural polymers.

Distribution of workload for students (contact and independent work hours)

Lectures - 45 h., laboratory work - 30 h., individual student work  - 78 h, knowledge test -7h

Structure of cumulative score and value of its constituent parts

Mid-term exam - 20 %, laboratory work report and test - 15 %, test - 15 %, final exam - 50 %

Recommended reference materials

No.

 

Publication year

Authors of publication and title

Publishing house

Number of copies in

University library

Self-study rooms

Other libraries 

1.

2002

V. Laurinavičius

Organinė ir bioorganinė chemija

 

Vilnius. Mokslo ir enciklopedijų leidykla

45

2

 

2.

2008

J. Kadziauskas

Biochemijos pagrindai

Vilnius : Vilniaus universiteto leidykla

64

1

 

3.

1999

V.Mildažienė, J,Kadziauskas, R,Daugelavičius, V.Laurinavičius, Z.Naučienė, D.Bironaitė

Struktūrinė biochemija

Kaunas : Vytauto Didžiojo universitetas

64

1

 

4.

2001

  1. Žemaitaitis

 Polimerų fizika ir chemija.

 

„Technologija“, Kaunas

1

1

 

Supplementary materials

1.

1999

Malcolm P. Stevens. Polymer Chemistry. An Introduction. 3rd edition

Oxford University Press: New York

 

1

 

Course programme designed by

Doc. dr. Simona Sutkuvienė, Department of Biochemistry and Biotechnology, Faculty of Natural Sciences

Additional information