Jan Cvengros: Catalogue data in Spring Semester 2021

Name Dr. Jan Cvengros
Address
Dep. Chemie und Angew. Biowiss.
ETH Zürich, HCI H 101
Vladimir-Prelog-Weg 1-5/10
8093 Zürich
SWITZERLAND
Telephone+41 44 633 48 24
E-mailcvengros@chem.ethz.ch
DepartmentChemistry and Applied Biosciences
RelationshipLecturer

NumberTitleECTSHoursLecturers
529-0012-02LGeneral Chemistry (Inorganic Chemistry) II4 credits3V + 1UJ. Cvengros, H. Grützmacher
Abstract1) General definitions 2) The VSEPR model 3) Qualitative molecular orbital diagrams 4) Closest packing, metal structures 5) The Structures of metalloids
6) Structures of the non-metals 7) Synthesis of the elements 8) Reactivity of the elements 9) Ionic Compounds 10) Ions in Solution 11) Element hydrogen compounds 12) Element halogen compounds 13) Element oxygen compounds 14) Redox chemistry
ObjectiveUnderstanding of the fundamental principles of the structures, properties, and reactivities of the main group elements (groups 1,2 and 13 to 18).
ContentThe course is divided in 14 sections in which the fundamental phenomena of the chemistry of the main group elements are discussed: Part 1: Introduction in the periodical properties of the elements and general definitions –Part 2: The VSEPR model –Part 3: Qualitative molecular orbital diagrams for simple inorganic molecules – Part 4: Closest packing and structures of metals Part 5: The Structures of semimetals (metalloids) of the main group elements –Part 6: Structures of the non-metals– Part 7: Synthesis of the elements. –Part 8: Reactivity of the elements Part 9: Ionic Compounds Part 10: Ions in Solution Part 11: Element hydrogen compounds Part 12: Element halogen compounds Part 13: Element oxygen compounds Part 14: Redox chemistry.
Lecture notesThe transparencies used in the course are accessible via the internet on http://www.gruetzmacher.ethz.ch/education/lectures/lecture-material-allgemeine-chemie---general-chemistry.html
LiteratureJ. Huheey, E. Keiter, R. Keiter, Inorganic Chemistry, Principles and Reactivity, 4th edition, deGruyter, 2003.

C.E.Housecroft, E.C.Constable, Chemistry, 4th edition, Pearson Prentice Hall, 2010.
Prerequisites / NoticeBasis for the understanding of this lecture is the course Allgemeine Chemie 1.
529-2001-AALChemistry I and II
Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement.

All other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit.
9 credits19RJ. Cvengros
AbstractGeneral Chemistry I and II: Chemical bond and molecular structure, chemical thermodynamics, chemical equilibrium, kinetics, acids and bases, electrochemistry
ObjectiveIntroduction to general and inorganic chemistry. Basics of the composition and the change of the material world. Introduction to the thermodynamically controlled physico-chemical processes. Macroscopic phenomena and their explanation through atomic and molecular properties. Using the theories to solve qualitatively and quantitatively chemical and ecologically relevant problems.
Content1. Stoichiometry

2. Atoms and Elements (Quantum Mechanical Model of the Atom)

3. Chemical Bonding

4. Thermodynamics

5. Chemical Kinetics

6. Chemical Equilibrium (Acids and Bases, Solubility Equilibria)

7. Electrochemistry
Lecture notesNivaldo J. Tro
Chemistry - A molecular Approach (Pearson), Chapter 1 - 18
LiteratureBrown, LeMay, Bursten CHEMIE (deutsch)
Mortimer, Müller CHEMIE (deutsch)
Housecroft and Constable, CHEMISTRY (englisch)
Oxtoby, Gillis, Nachtrieb, MODERN CHEMISTRY (englisch)
529-2002-AALChemistry II
Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement.

All other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit.
5 credits11RJ. Cvengros, H. Grützmacher
AbstractChemistry II: Redox reactions, chemistry of the elements, introduction to organic chemistry
ObjectiveGeneral base for understanding of inorganic and organic chemistry.
Content1. Redoxreactions

2. Inorganic Chemistry
Rules for nomenclature of inorganic compounds. Systematic description of the groups of elements in the periodical system and the most important compounds of these elements. Formation of compounds as a consequence of the electronoc structure of the elements.

3. Introduction to organic chemistry
Description of the most important classes of compounds and of the functional groups. Principal reactivity of these functional groups.
Stereochemistry.
Rection mechanisms: SN1- and SN2-reactions, electrophilic aromatic subtitutions, eliminations (E1 and E2), addition reactions (C=C and C=O double bonds). Chemistry of carbony and carboxyl groups.
Lecture notesC.E.Housecroft, E.C.Constable, Chemistry, 4rd Edition, Pearson, Harlow (England), 2010 (ISBN 0-131-27567-4), Kap. 18-33
LiteratureTh.L.Brown, H.E.LeMay, B.E.Bursten; Chemie, 10. Auflage, Pearson Studium, München, 2007 (ISBN 3-8273-7191-0)

C.E.Housecroft, E.C.Constable, Chemistry, 3rd Edition, Pearson, Harlow (England), 2010 (ISBN 0-131-27567-4)

D.W.Oxtoby, H.P.Gillis, N.H.Nachtrieb, Principles of Modern Chemistry, Fifth Edition, Thomson, London, 2002 (ISBN 0-03-035373-4)
529-2002-02LChemistry II5 credits2V + 2UJ. Cvengros, J. E. E. Buschmann, P. Funck, H. Grützmacher, S. Hug, E. C. Meister, R. Verel
AbstractChemistry II: Redox reactions, chemistry of the elements, introduction to organic chemistry
ObjectiveGeneral base for understanding of inorganic and organic chemistry.
Content1. Redoxreactions

2. Inorganic Chemistry
Rules for nomenclature of inorganic compounds. Systematic description of the groups of elements in the periodical system and the most important compounds of these elements. Formation of compounds as a consequence of the electronoc structure of the elements.

3. Introduction to organic chemistry
Description of the most important classes of compounds and of the functional groups. Principal reactivity of these functional groups.
Stereochemistry.
Rection mechanisms: SN1- and SN2-reactions, electrophilic aromatic subtitutions, eliminations (E1 and E2), addition reactions (C=C and C=O double bonds). Chemistry of carbony and carboxyl groups.
Lecture notesC.E.Housecroft, E.C.Constable, Chemistry, 4rd Edition, Pearson, Harlow (England), 2010 (ISBN 0-131-27567-4), Chap. 18-33
LiteratureTheodore L. Brown, H. Eugene LeMay, Bruce E. Bursten, CHEMIE. 14. Auflage, Pearson Studium, 2018.

D.W.Oxtoby, H.P.Gillis, N.H.Nachtrieb, PRINCIPLES OF MODERN CHEMISTRY, 8th Edition, Thomson, London, 2016.
529-2003-00LChemistry II4 credits2V + 1UJ. Cvengros, P. J. Walde, W. R. Caseri
AbstractIntroduction to organic chemistry
ObjectiveDeveloping understanding of basci principles of organic chemistry
ContentStructure, nomenclature, properties and reactivity of the most important organic compounds
(Hydrocarbons, Halogenated derivatives, Alcohols, Amines, Carbonyl compounds)

Reaction mechanisms: SN1- and SN2-reactions, electrophilic aromatic subtitutions, eliminations (E1 and E2), addition reactions (C=C and C=O double bonds). Chemistry of carbonyl and carboxyl groups.

Stereochemistry.
Lecture notesLecture slides
Prerequisites / NoticeUnderstanding of the concepts from the lecture Chemistry I