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Speciality mode: Computational Chemistry

Last modified: 
2020, November 13 - 12:37pm

CHEMISTRY

course of study

2020 - 2022

specialisation

Computational Chemistry

type of study

Second cycle / Master’s study

mode of study

full-time study

profile

Academic

 

Achievement by a student of learning outcomes: A graduate of master studies possesses in-depth knowledge, skills and competences in the field of specialized knowledge in the field of chemical sciences. In particular, a graduate is prepared for self-resolution of chemical problems, conducting research activities and collecting and critically analyzing experimental data. Achieving the effects of second-level studies gives graduates the opportunity to work in companies and in public and non-governmental and research-based organizations and institutions whose activities are related to the use of chemistry. A graduate is prepared to pursue further studies in PhD studies and postgraduate studies.

In each semester, the student should receive 30 ECTS credits from obligatory and optional subjects

SEMESTER 1

Subject

Lecture

Auditorium

Laboratory

TOTAL

E/P

ECTS

Instrumental analysis

30

15

30

75

E

7

Theoretical Chemistry

30

45

 

75

E

6

English II

 

30

 

30

P

2

Commercialization of research outcomes

5

 

 

5

P

1

Crystal chemistry

15

30

 

45

E

4

Advanced chemistry laboratory*:

 

 

60

60

P

4

          Bioorganic chemistry

 

 

20

20

P

1

          Bioinorganic chemistry

 

 

20

20

P

1

          Physicochemistry

 

 

20

20

P

2

Validation methods

15

15

 

30

P

2

Programming I

15

 

30

45

E

4

SEMESTER 1

110

135

120

365

4

30

 

SEMESTER 2

Subject

Lecture

Auditorium

Laboratory

TOTAL

E/P

ECTS

Spectrochemistry

15

 

30

45

E

4

Graduate study lecture**

30

 

 

30

P

3

Simple sugars – structure and stereochemistry

30

 

 

30

P

3

Molecular identification

30

 

 

30

P

3

Physicochemical properties of aminoacids and their derivatives

30

 

 

30

P

3

Methods of physicochemical analysis of complex compounds

30

 

 

30

P

3

Nanomaterials: properties, synthesis, applications

30

 

 

30

P

3

Selected problems of physical chemistry

30

 

 

30

P

3

Synthesis of peptides

30

 

 

30

P

3

Modern methods of mass spectrometry

30

 

 

30

P

3

Molecular genetics

30

 

 

30

P

3

Innovative metallopharmaceuticals in diagnostics and treatments

30

 

 

30

P

3

Fundamentals of radiation protection

30

 

 

30

P

3

Graduate laboratory course**

 

 

90

90

P

12

Numerical methods with algorithms for data analysis

30

 

30

60

E

5

Programming II

15

 

30

45

E

4

Elective subjects

30

30

P

2

SEMESTER 2

120

0

180

300

3

30

YEAR I

230

135

300

665

7

60

 

SEMESTER 3

Subject

Lecture

Auditorium

Laboratory

TOTAL

E/P

ECTS

Interpersonal communication

15

 

 

15

P

1

The activities of the company in contemporary environment

30

 

 

30

P

2

Laboratory course **

 

 

90

90

P

10

M.Sc. seminar **

 

30

 

30

P

4

Monographic lecture**

30

 

 

30

P

3

Synthesis methods and biochemical properties of proteins and glycoproteins

30

 

 

30

P

3

Research methods in supramolecular chemistry

30

 

 

30

P

3

Chemical synthesis of peptides

30

 

 

30

P

3

Environmental radiochemistry and radiological protection

30

 

 

30

P

3

Physico chemistry of complex compounds

30

 

 

30

P

3

Green technology

30

 

 

30

P

3

Introduction into photochemistry / Radiosensitizers - in the service of oncology

30

 

 

30

P

3

Selected issues in chemistry of peptides, part I

30

 

 

30

P

3

Sampling and its preparing for analysis

30

 

 

30

P

3

Peptides and proteins in science and industry

30

 

 

30

P

3

Quantum chemistry of molecular anions

30

 

 

30

P

3

Interactions of antimicrobials agents with metalions

30

 

 

30

P

3

Molecular Modelling

15

 

30

60

E

7

Elective subjects

30

30

P

3

SEMESTER 3

120

30

120

270

1

30

 

SEMESTER 4

Subject

Lecture

Auditorium

Laboratory

TOTAL

E/P

ECTS

Economic activity law

30

 

 

30

P

2

Laboratory course**

 

 

90

90

P

10

M.Sc. seminar **

 

30

 

30

P

4

Monographic lecture **

30

 

 

30

P

3

Selected issues of carbohydrate chemistry

30

 

 

30

P

3

Advanced electrochemical methods

30

 

 

30

P

3

Biologically active peptides

30

 

 

30

P

3

Chemical and radiochemical environmental analysis

 

 

 

 

 

 

Chemistry of non-aqueous solutions

30

 

 

30

P

3

Advanced oxidation processes

30

 

 

30

P

3

Introduction into quantum computer chemistry

30

 

 

30

P

3

Selected issues in chemistry of peptides, part II

30

 

 

30

P

3

Lipid Analysis

30

 

 

30

P

3

Computational chemistry software

30

 

 

30

P

3

Medical biotechnology

30

 

 

30

P

3

Intermolecular interactions in bioinorganic systems

30

 

 

30

P

3

Professional traineeship

P/W

4

M.Sc. exam

E

7

SEMESTER 4

60

30

90

180

1

30

YEAR II

180

60

210

450

2

60

 

E – exam

P – pass with note

P/W – pass without note

 

* the course conducted as three 20-hour’s subjects: Bioorganic chemistry, Bioinorganic chemistry and  Physicochemistry

 

 

*courses conducted in Department in which students realize their master works

 

Second cycle study (master’s degree) is finished with a Master's exam and with obtaining by student the title of Master of Science.