Courses within the PhD school in chemistry

Similar documents
CHEMISTRY (CHE) CHE 104 General Descriptive Chemistry II 3

CHM - CHEMISTRY. CHM - Chemistry 1

Physical Sciences. Prerequisites: CHM 1040 with a minimum grade of C- or CHM Permit

CHEMISTRY (CHEM) CHEM 5800 Principles Of Materials Chemistry. Tutorial in selected topics in materials chemistry. S/U grading only.

The Chemistry department approved by the American Chemical Society offers a Chemistry degree in the following concentrations:

CHEMISTRY (CHEM) CHEM 208. Introduction to Chemical Analysis II - SL

STUDY PROGR. aokpha /2019 f 1 OPA-B1E-T Biomathematics 1 - Theory Dr. László GRAMA Department of Biophysics OPA-B1G-T p exam 2

Subject Overview Curriculum pathway

CHEMISTRY (CHEM) CHEM 5. Chemistry for Nurses. 5 Units. Prerequisite(s): One year high school algebra; high school chemistry

CHEMISTRY (CHEM) CHEM 825D Mass Spectrometry

Chemistry Courses -1

CHEMISTRY (CHEM) CHEM 1200 Problem Solving In General Chemistry

Pharmacy major 2017*

STUDY GUIDE MASTER OF SCIENCE STRUCTURAL CHEMISTRY AND SPECTROSCOPY. Zentrale Studienberatung

CHEMISTRY UNDERGRADUATE RESEARCH CHEMISTRY 499W - UNDERGRADUATE RESEARCH AND REPORT WRITING PROJECT INFORMATION SHEETS

Chemistry. Chemistry. TRENT UNIVERSITY Undergraduate Calendar May 2018

CHEMISTRY (CHM) Chemistry (CHM) 1

CHEMISTRY (CHEM) CHEM Fundamentals of Biochemistry

(It will be applied from )

CHEMISTRY (CHEM) CHEM 5. Chemistry for Nurses. 5 Units. Prerequisite(s): One year high school algebra; high school chemistry

CHEMISTRY (CHEM) Chemistry (CHEM) 1

Chemistry (CHEM) Chemistry (CHEM) 1

CHM1001, 1002, 1051, <PHY1101, 1102, 1001, 1002> or <BIO1101, 1102, 1105, 1106> Total 16 cr.


Eliminatour Kanizsa Nagydíj

CHEMISTRY (CHEM) 100 Level Courses. 200 Level Courses. Chemistry (CHEM) 1

In-depth, 2 Credit Courses Descriptions

CHEMISTRY COURSES UNDERGRADUATE GRADUATE FACULTY. Explanation of Course Numbers. Bachelor's programs. Combined programs. Minor.

Course Catalog - Spring 2015

The School of Science and Engineering

Savannah State University New Programs and Curriculum Committee Summary Page Form I

CHEMISTRY (CHEM) Courses. Chemistry (CHEM) 1

COURSE MASTER CATALOG

CHEM - Chemistry and Biochemistry

Characterization of catalyst surfaces by X-ray photoelectron spectroscopy

Graduate Course Offerings

CHEMISTRY. CHEM 0100 PREPARATION FOR GENERAL CHEMISTRY 3 cr. CHEM 0110 GENERAL CHEMISTRY 1 4 cr. CHEM 0120 GENERAL CHEMISTRY 2 4 cr.

CHEMISTRY. For the Degree of Bachelor of Science in Liberal Arts and Sciences. Minor in Chemistry. For the Degree of Bachelor of Science in Chemistry

Chemistry and Biochemistry (CHEM)

Department of Chemistry and Biochemistry Approved Learning Outcomes Approved May 2017 at Departmental Retreat

I. Chemical Engineer BSc Schedule, 2018/19. 1 st semester

Prerequisites: MATH 103 or a Math Placement Test score for MATH 104 or 106. Prerequisites: CHEM 109

CHEMISTRY. Writing Requirement. Credit for Courses at the 100- and 200- Level. Introduction. Educational Objectives.

CHEM CHEMISTRY. Note: See beginning of Section H for abbreviations, course numbers and coding.

CHEMISTRY COURSE INFORMATION Chemistry Department, CB 213,

The Ohio State University Department of Chemistry & Biochemistry. Chemistry Graduate Program Autumn Registration Guide For First Year Students

Chemistry. Faculty Kent Davis, chair; Pablo Hilario, Denise Lee-Haye, Marie Pak, Robert Wilson Departmental Office: 355 Chan Shun Hall; (707)

REQUIREMENTS FOR THE BIOCHEMISTRY MAJOR

CHEMISTRY (CHEM) CHEMISTRY (CHEM) 1

Chemistry. Faculty. Major Requirements for the Major in Chemistry

REQUIREMENTS FOR A MAJOR IN CHEMISTRY (B.A.): Eight lecture courses, the associated laboratory courses, and senior research (52 credits)

TiO 2 /WO 3 /noble metal nanoarchitectures photocatalytic activity: from the degradation intermediates to structural peculiarities

CHEM Lab for CHEM Hour. Accompanies CHEM Covers various topics from the course. Offers

DEPARTMENT OF CHEMISTRY & BIOCHEMISTRY

CHEMISTRY AND BIOCHEMISTRY (CHEM)

Reproduction Chemical Reactions. 8J Light 8G Metals & Their Uses 8C Breathing & Respiration 8D Unicellular Organisms

Chemistry and Biochemistry

Chemistry FRESHMAN PROGRAMS

REQUIREMENTS FOR THE BIOCHEMISTRY MAJOR

EASTERN OREGON UNIVERSITY Chemistry-Biochemistry

SUMMER RESEARCH INTERNSHIP PROGRAM JUNE AND JULY 2014

Chemistry Departmental Mission Statement: Communicating Plus - Chemistry: Requirements for a major in chemistry:

Chemistry. Semester 1. [C] = Compulsory. [C] Mathematical Analysis (A) I. [C] Introduction to Physics (A) I. [C] Chemical Principles.

WHILE TAKING THIS MODULE YOU MUST TAKE CHE-4101Y OR TAKE CHE- 4301Y IN TAKING THIS MODULE YOU CANNOT TAKE CHE-4602Y

Advanced Program in Chemistry General education knowledge Basic courses - Fundamental courses - Core courses: - Advanced courses:

CHEMISTRY MAJOR. Suggested Course Sequence. 2nd-Class Year

Chemistry (CHEM) Degrees Offered. Program Description. Prerequisites for Admission. Application Requirements. General Information

CHEMISTRY (CHEM) Chemistry (CHEM) 1

Investigation of the autocatalytic function of hydrogenase enzyme

Chemistry. Courses. Chemistry 1

I. Chemical Engineer BSc Schedule, 2017/18. 1 st semester

CHEMISTRY. Degree Programs. Co-Terminal Options. Other Degree Programs in Chemistry. Research Honors Program. Chemistry 1

Topic 1: Stoichiometric relationships Introduction to the particulate nature of matter and chemical change. Topic 2: Atomic structure 6

CHEM 00s. CHEM 100s C H E M I S T R Y. Note

Chemistry (CHEM) Courses. Chemistry (CHEM) 1

İZMİR INSTITUTE OF TECHNOLOGY FACULTY OF SCIENCE CHEMISTRY DEPARTMENT (To be applied starting with the academic year)

Second Year Chemistry 2014

CHEMISTRY (CHEM) Chemistry (CHEM) San Francisco State University Bulletin

Journal of Physics: Conference Series

CHEMISTRY (CHEMSTRY) Prereqs/Coreqs: P: math placement score of 15 or higher Typically Offered: Fall/Spring

Chemistry Courses. Courses. Chemistry Courses 1

Chemistry. Chemistry 1

Chemistry (Master's Programme) MSCHEM år

Second Year Chemistry 2012

Attachment 2 Modules of the Degree Course Master: Chemistry

CHEMISTRY. Overview of the Major. Intended Learning Outcomes for the Major ( Distinction

Requirement for the Major in Chemistry with a Concentration in Biochemistry

CHE 230 ORGANIC CHEMISTRY I. (3) Fundamental principles and theories of organic chemistry. Prereq: CHE 107 and 115.

CIM Report May 8, :01pm

CHEMISTRY (CHEM) Courses primarily for undergraduates: CHEM 050: Preparation for College Chemistry. (3-0) Cr. 3. F.S.

UNIVERSITY OF SZEGED FACULTY OF SCIENCE AND INFORMATICS. Chemistry MSc in English

CHEMISTRY, BACHELOR OF SCIENCE (B.S.) WITH A CONCENTRATION IN PROFESSIONAL CHEMIST WITH HONORS

University of Szeged Doctoral School of Pharmaceutical Sciences. Pharmaceutical Chemistry and Drug Research

CHEMISTRY, BACHELOR OF SCIENCE (B.S.) WITH A CONCENTRATION IN PROFESSIONAL CHEMIST

CHEM 105 Chemistry and Society (4) CHEM 115 Introductory Chemistry Topics 1 (0-1) CHEM 116 Introductory Chemistry Topics 2 (0-1)

CHEMISTRY (CHEM) Chemistry (CHEM) San Francisco State University Bulletin

Overview and industry links

CHEMISTRY (CHEM) Bachelor of Arts Major. Faculty. Chemistry (CHEM) 1

Chemistry (CHEM) Courses

COURSE DESCRIPTIONS CHEM 050 CHEM 101 CHEM 111 CHEM 112 CHEM 121 CHEM 253 CHEM 254 CHEM 275 CHEM 276 CHEM 277 CHEM 278 CHEM 299

Transcription:

Courses within the PhD school in chemistry Education/research programs: 1. Analytical chemistry 2. Bioorganic chemistry 3. Theoretical chemistry 4. Physical chemistry 5. Catalysis, colloid chemistry, surface and material science 6. Chemistry of complex compounds 7. Organic chemistry List of the PhD courses by programs (5 credits each) 1. Analytical chemistry 1.1. Separation techniques, chromatography I. Lecturer: Dr. Antal Péter professor Dr. István Ilisz associate professor 1.2. Separation techniques, chromatography II. Lecturer: Dr. Tamás Janáky professor 1.3. Mass spectrometry Lecturer: Dr. Zoltán Kele assistant professor 1.4. Atomic spectroscopy Lecturer: Dr. Gábor Galbács associate professor 1.5. Molecular spectroscopy Lecturer: Dr. Ottó Berkesi associate professor 1.6. Photoelectron spectroscopy Lecturer: Dr. Albert Oszkó assistant professor 1.7. NMR spectroscopy I. Lecturer: Dr. György Dombi professor 1.8. NMR spectroscopy II. Lecturer: Dr. György Dombi professor

1.9. Detection of persistent contaminants (PPCP) and their decomposition products by spectroscopic methods and separation techniques Lecturer: Dr. Krisztina Schrantz assistant professor Dr. Tünde Alapi assistant professor 2. Bioorganic chemistry 2.1. Protein folding, conformational diseases, modelling Lecturer: Dr. Gábor Tóth professor Dr. Botond Penke professor emeritus Dr. Ferenc Bogár senior research associate 2.2. Approaches of biopolymer synthesis Lecturer: Dr. Gábor Tóth professor 2.3. Bioorganic applications of separation techniques Lecturer: Dr. Tamás Janáky professor 2.4. Mass spectrometry of biopolymers Lecturer: Dr. Zoltán Kele assistant professor 2.5. Methods of organic synthesis Lecturer: Dr. Lajos Kovács senior research associate 2.6. Chemistry of renewable raw materials Lecturer: Dr. Lajos Kovács senior research associate 2.7. Synthesis and applications of nucleic acids Lecturer: Dr. Zoltán Kupihár assistant professor 3. Theoretical chemistry 3.1. Calculation and analysis of potential surfaces (theory) Lecturer: Dr. Imre G. Csizmadia professor Dr. Béla Viskolcz professor 3.2. Calculation and analysis of potential surfaces (practice) Lecturer: Dr. Imre G. Csizmadia professor Dr. Béla Viskolcz professor 3.3. Density functional theory Lecturer: Dr. Gábor Paragi senior research associate 3.4. Quantum theory of molecules

Lecturer: Dr. Ferenc Bogár senior research associate 3.5. Methods of quantum mechanics for solving problems in biology and kinetics Lecturer: Dr. Béla Viskolcz professor 3.7. Chemometric methods and their development Lecturer: Dr. Róbert Rajkó professor 3.8. Advanced quantum chemistry Lecturer: Dr. Gyula Tasi associate professor 3.9. Computational quantum chemistry Lecturer: Dr. Gyula Tasi associate professor 3.10. Basics of computational drug design Lecturer: Dr. Tamás Martinek professor 3.11. Mathematical modelling of chemical and biological pathways Lecturer: Dr. László Sztachó professor 3.12. Introduction to the modelling of biomolecules Lecturer: Dr. Csaba Hetényi senior research associate 3.13. Calculations of biochemical interactions Lecturer: Dr. Csaba Hetényi, senior research associate 4. Physical chemistry 4.1. Heterogeneous electrochemistry Lecturer: Dr. Visy Csaba professor emeritus 4.2 Methods of electrochemical investigation Lecturer: Dr. Árpád Szűcs associate professor 4.3. Organic conducting polymers Lecturer: Dr. Csaba Visy professor emeritus 4.4. Electrochemistry in Materials Science Lecturer: Dr. Csaba Janáky assistant professor 4.5. Modern methods of reaction mechanism investigation Lecturer: Dr. Dezső Horváth professor 4.6. Nonlinear dynamics

Lecturer: Dr. Ágota Tóth professor 5. Catalysis, colloid chemistry, surface and material science 5.1. Surface chemistry and heterogeneous catalysis Lecturer: Dr. Imre Dékány professor, Dr. András Erdőhelyi professor emeritus, Dr. János Kiss scientific advisor 5.2. Structure and reactivity of solid materials Lecturer: Dr. Frigyes Solymosi professor emeritus 5.3. Modern spectroscopic methods in heterogeneous catalysis Lecturer: Dr. Frigyes Solymosi professor emeritus 5.4. Zeolite chemistry Lecturer: Dr. István Hannus professor emeritus 5.5. Methods of surface investigation Lecturer: Dr. János Kiss scientific advisor 5.6. Solid surfaces and nanoparticles in high technology Lecturer: Dr. András Berkó scientific advisor 5.7. Catalytic oxidation processes Lecturer: Dr. János Halász honorary professor 5.8. Environmental catalysis Lecturer: Dr. István Hannus professor emeritus Dr. János Halász honorary professor 5.9. Structure and thermodynamic properties of interfaces Lecturer: Dr. Imre Dékány professor 5.10. Graphite filaments and carbon-nanotubes Lecturer: Dr. Klára Hernádi professor Dr. Zoltán Kónya professor 6. Chemistry of complex compounds 6.1. Bioinorganic chemistry Lecturer: Dr. Tamás Kiss professor Dr. Béla Gyurcsik associate professor

6.2. Chemistry of complex equilibria Lecturer: Dr. Éva Anna Enyedy assistant professor 6.3. Methods in coordination chemistry Lecturer: Dr. Tamás Gajda professor Dr. Béla Gyurcsik associate professor Dr. Attila Jancsó assistant professor Dr. Tamás Jakusch assistant professor Dr. Ottó Berkesi associate professor 6.4. Computational methods in coordination chemistry Lecturer: Dr. Tamás Jakusch assistant professor 6.5. Metal ion coordination of biomolecules Lecturer: Dr. Tamás Kiss professor Dr. Tamás Gajda professor 6.6. Chemistry of toxic elements Lecturer: Dr. Tamás Kiss professor 6.7. Evaluation of experimental data Lecturer: Dr. Tamás Jakusch assistant professor 6.8. Chemistry of nonaqueous solutions, molten materials and extremely concentrated aqueous systems Lecturer: Dr. Pál Sipos professor 6.9. Biological tools of modern bioinorganic chemistry Lecturer: Dr. Béla Gyurcsik associate professor 6.10. X-ray crystallography Lecturer: Dr. Veronika Harmat assistant professor, Dr. Sándor Brockhauser scientific advisor 8. Organic chemistry 7.1. Enantioselective heterogeneous catalytic syntheses Lecturer: Dr. György Szőllősi senior research associate 7.2. Stereoselective syntheses Lecturer: Dr. Árpád Molnár professor emeritus 7.3. Chemistry of steroids

Lecturer: Dr. Gyula Schneider professor emeritus 7.4. Catalysis in industry Lecturer: Dr. Krisztián Bogár senior research associate 7.5. New methods in chemical synthesis Lecturer: Dr. Gyula Schneider professor emeritus 7.6. Organic reaction mechanisms Lecturer: Dr. János Wölfling professor 7.7. Gathering chemical information Lecturer: Dr. Eszter Meskó associate professor, Dr. István Pálinkó professor 7.8. Drug analysis in industry Lecturer: Dr. Sándor Görög akadémikus 7.9. Biochemistry of steroid hormones Lecturer: Dr. Mihály Szécsi senior research associate

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback