Suchergebnis: Katalogdaten im Frühjahrssemester 2019

Chemie- und Bioingenieurwissenschaften Master Information
Master-Studium (Studienreglement 2018)
Kernfächer
Produkte und Materialien
NummerTitelTypECTSUmfangDozierende
529-0610-01LInterface Engineering of MaterialsW+6 KP4GC.‑J. Shih
KurzbeschreibungAdvances in interface engineering, the control of molecular and charge behaviour between two phases, are driving the development of new technologies across many industrial and scientific fields. This course will review the fundamental engineering concepts required to analyse and solve problems at liquid-solid and solid-solid interfaces.
LernzielIntroduce the students to the engineering principles of energy, mass, and electron transport at the liquid-solid and solid-solid interfaces, for the applications in materials processing and electronic devices.
InhaltPART A: Solid-Liquid Interface
Chapter 1: Interface Phenomena
Chapter 2: Crystallization and Crystal Growth
Chapter 3: Electrical Double Layer
Chapter 4: Electroosmotic Flow
PART B: Solid-Solid Interface
Chapter 5: Fundamentals of Electronic Materials
Chapter 6: Junction Characteristics
Chapter 7: Solar Cells and Light Emitting Diodes
Chapter 8: Field-Effect Transistors
LiteraturHiemenz P.C., Rajagopalan R., Principles of Colloid and Surface Chemistry, 3rd Edition.
Deen W.M., Analysis of Transport Phenomena, 2nd Edition.
Sze S.M. and Ng K.K., Physics of Semiconductor Devices, 3rd Edition.
Voraussetzungen / BesonderesEngineering Mathematics, Transport Phenomena, Undergraduate Physical Chemistry
Projektarbeit oder Industriepraktikum
NummerTitelTypECTSUmfangDozierende
529-0300-10LResearch Project
Only for Chemical and Bioengineering MSc, Programme Regulations 2018.
W13 KP16ABetreuer/innen
KurzbeschreibungIn a research project students extend their knowledge in a particular field, get acquainted with the scientific way of working, and learn to work on an actual research topic. Research projects are carried out in a core or optional subject area as chosen by the student.
LernzielFirst contact with experimental techniques of chemical engineering in a research group. Critical evaluation and presentation of the results in a scientific report.
InhaltThis laboratory project is organised during the spring vacation before the sixth semester. The participant can choose his topic from the list of projects suggested. Main emphasis during this research work is to get experience in using different engineering tools and evaluation and the interpretation of the results. Those are presented as a scientific report.
529-0301-00LIndustry Internship
Nur für Chemie- und Bioingenieurwissenschaften MSc, Studienreglement 2018.
W13 KPProfessor/innen
KurzbeschreibungMind. 7- wöchiges Praktikum in der Industrie
LernzielEs ist das Ziel der 7-wöchigen Praxis, Master-Studierenden die industriellen Arbeitsumgebungen näher zu bringen. Während dieser Zeit bietet sich ihnen die Gelegenheit, in aktuelle Projekte der Gastinstitution involviert zu werden.
InhaltDieses Projekt wird vorzugsweise während der Frühlingsferien vor dem sechsten Semester als Blockveranstaltung durchgeführt. Der/die Teilnehmer darf sein Thema aus den vorgeschlagenen Projekten auswählen. Schwergewicht wird auf das Erlernen von experimentellen Methoden und deren Auswertung und Interpretation gelegt. Resultate werden in einem Bericht zusammengefasst und kritisch beurteilt.
Master-Arbeit
NummerTitelTypECTSUmfangDozierende
529-0600-10LMaster's Thesis Belegung eingeschränkt - Details anzeigen
Nur für Chemie- und Bioingenieurwissenschaften MSc, Studienreglement 2018.

Zur Master-Arbeit wird nur zugelassen, wer:
a. das Bachelor-Studium erfolgreich abgeschlossen hat;
b. allfällige Auflagen für die Zulassung zum Master-Studiengang erfüllt hat.

Dauer der Masterarbeit 20 Wochen.
O25 KP54DProfessor/innen
KurzbeschreibungIn the Master thesis students prove their ability to independent, structured and scientific working. The Master thesis is carried out in a research group of the Department of Chemistry and Applied Biosciences, usually in the Institute of Chemical and Bioengineering, as chosen by the student.
LernzielIn the Master Thesis students prove their ability to independent, structured and scientific working.
Wahlfächer
Produkte und Materialien
NummerTitelTypECTSUmfangDozierende
529-0610-01LInterface Engineering of MaterialsW6 KP4GC.‑J. Shih
KurzbeschreibungAdvances in interface engineering, the control of molecular and charge behaviour between two phases, are driving the development of new technologies across many industrial and scientific fields. This course will review the fundamental engineering concepts required to analyse and solve problems at liquid-solid and solid-solid interfaces.
LernzielIntroduce the students to the engineering principles of energy, mass, and electron transport at the liquid-solid and solid-solid interfaces, for the applications in materials processing and electronic devices.
InhaltPART A: Solid-Liquid Interface
Chapter 1: Interface Phenomena
Chapter 2: Crystallization and Crystal Growth
Chapter 3: Electrical Double Layer
Chapter 4: Electroosmotic Flow
PART B: Solid-Solid Interface
Chapter 5: Fundamentals of Electronic Materials
Chapter 6: Junction Characteristics
Chapter 7: Solar Cells and Light Emitting Diodes
Chapter 8: Field-Effect Transistors
LiteraturHiemenz P.C., Rajagopalan R., Principles of Colloid and Surface Chemistry, 3rd Edition.
Deen W.M., Analysis of Transport Phenomena, 2nd Edition.
Sze S.M. and Ng K.K., Physics of Semiconductor Devices, 3rd Edition.
Voraussetzungen / BesonderesEngineering Mathematics, Transport Phenomena, Undergraduate Physical Chemistry
529-0135-00LCook and Look: Watching Functional Materials in SituW3 KP3GM. Nachtegaal, D. Ferri, O. Safonova, T. Schmidt
KurzbeschreibungHands-on course on in situ spectroscopies (x-ray, infrared, Raman) and x-ray diffraction for understanding the structure of functional materials.
LernzielThorough understanding of available state-of-the-art spectroscopies for the characterization of the structure of functional materials under in situ conditions.
Problem solving strategies and reporting in a scientific format.
To learn the basics of spectroscopic data analysis.
InhaltThis course will introduce state-of-the art synchrotron techniques (x-ray absorption and emission spectroscopies, x-ray diffraction) as well as complementary infrared and Raman spectroscopies for the characterization of functional materials, such as catalysts, under operating (in situ) conditions. On the ‘cook’ days, each technique will be introduced by a lecture, after which samples will be ‘cooked’ (sample preparation, building in situ setup, and measurement). This will be followed by a ‘look’ day where the collected data will be analyzed. Principles of x-ray data treatment, including Fourier transformation, will be introduced.
SkriptA course manual with in depth background information will be distributed before the course.
LiteraturWill be suggested in the course manual and made available during the course.
Voraussetzungen / BesonderesThe course will take place at the Swiss Light Source, at the Paul Scherrer Institut. Students will be housed for several nights in the guest house. You are required to contact the organizers upon registration since beamtime and housing has to be reserved well in advance.
Bioverfahrenstechnik
NummerTitelTypECTSUmfangDozierende
551-0324-00LSystems Biology Information W6 KP4VR. Aebersold, B. Christen, M. Claassen, U. Sauer
KurzbeschreibungIntroduction to experimental and computational methods of systems biology. By using baker’s yeast as a thread through the series, we focus on global methods for analysis of and interference with biological functions. Illustrative applications to other organisms will highlight medical and biotechnological aspects.
Lernziel- obtain an overview of global analytical methods
- obtain an overview of computational methods in systems biology
- understand the concepts of systems biology
InhaltOverview of global analytical methods (e.g. DNA arrays, proteomics, metabolomics, fluxes etc), global interference methods (siRNA, mutant libraries, synthetic lethality etc.) and imaging methods. Introduction to mass spectrometry and proteomics. Concepts of metabolism in microbes and higher cells. Systems biology of developmental processes. Concepts of mathematical modeling and applications of computational systems biology.
Skriptno script
LiteraturThe course is not taught by a particular book, but some books are suggested for further reading:

- Systems biology in Practice by Klipp, Herwig, Kowald, Wierling und Lehrach. Wiley-VCH 2005
Umwelt und Energy
NummerTitelTypECTSUmfangDozierende
529-0191-01LRenewable Energy Technologies II, Energy Storage and Conversion
Die Vorlesungen Renewable Energy Technologies I (529-0193-00L) und Renewable Energy Technologies II (529-0191-01L) können unabhängig voneinander besucht werden.
W4 KP3GT. Schmidt, L. Gubler
KurzbeschreibungGlobal & Swiss energy system. Storage: Pumped water, flywheels, compressed air. Hydrogen as energy carrier; electrolysis; power-to-gas. Fuel cells: from fundamentals to systems; Fuel cell vehicles; electrochemical storage in batteries. supercapacitors and redox flow cells; electromobility. The main focus of the lecture will be on electrochemical energy conversion and storage.
LernzielStudents will recognize the importance of energy storage in an industrial energy system, specifically in the context of a future system based on renewable sources. The efficient generation of electricity from hydrogen in fuel cells, and the efficient energy storage in batteries and supercapacitors will be introduced. Students will get a detailed insight into electrochemical energy conversion and storage, which will play an important role in future energy systems.
Literatur- Tester, J.W., Drake, E.M., Golay, M.W., Driscoll, M.J., Peters, W.A.: Sustainable Energy - Choosing Among Options (MIT Press, 2005).
- C.H. Hamann, A. Hamnett, W. Vielstich; Electrochemistry, Wiley-VCH (2007).
- K. Krischer, K. Schönleber: Physiccs of Energy Conversion, De Gruyter (2015)
- R. Schlögl, Chemical Energy Storage, De Gruyter (2013)
Voraussetzungen / BesonderesPlease note that this is a 3 hours/week lecture including exercises, i.e., exercises will be included and are not separated. It is therefore highly recommended to attend the full 3 hours every week.

Participating students are required to have basic knowlegde of chemistry and thermodynamics.
Anlage- und Verfahrenstechnik
NummerTitelTypECTSUmfangDozierende
529-0941-00LIntroduction to Macromolecular ChemistryW4 KP3GD. Opris
KurzbeschreibungBasic definitions, types of polyreactions, constitution of homo- and copolymers, networks, configurative and conformative aspects, contour length, coil formation, mobility, glass temperature, rubber elasticity, molecular weight distribution, energetics of and examples for polyreactions.
LernzielUnderstanding the significance of molecular size, constitution, configuration and conformation of synthetic and natural macromolecules for their specific physical and chemical properties.
InhaltThis introductory course on macromolecular chemistry discusses definitions, introduces types of polyreactions, and compares chain and step-growth polymerizations. It also treats the constitution of polymers, homo- and copolymers, networks, configuration and conformation of polymers. Topics of interest are contour length, coil formation, the mobility in polymers, glass temperature, rubber elasticity, molecular weight distribution, energetics of polyreactions, and examples for polyreactions (polyadditions, polycondensations, polymerizations). Selected polymerization mechanisms and procedures are discussed whenever appropriate throughout the course. Some methods of molecular weight determination are introduced.
SkriptCourse materials (consisting of personal notes and distributed paper copies) are sufficient for exam preparation.
Voraussetzungen / BesonderesThe course will be taught in English. Complicated expressions will also be given in German. Questions are welcome in English or German. The written examination will be in English, answers in German are acceptable. A basic chemistry knowledge is required.

PhD students who need recognized credit points are required to pass the written exam.
Wirtschafts- und Technikmanagment
NummerTitelTypECTSUmfangDozierende
363-1008-00LPublic EconomicsW3 KP2VM. Köthenbürger, G. Loumeau
KurzbeschreibungPublic Economics analyses the role of the government in the economy. In this course we will discuss justifications for and the design of public policy as well as its consequences on market outcomes. Issues related to public goods, taxation, in particular the effects of tax policy on labor supply, entrepreneurship and innovation will be emphasized.
LernzielThe primary goal of the course is to familiarize students with the central concepts and principles of public economics. The course aims at providing a good understanding of theoretical work and how it may be applied to actual policy problems. Students will get a good overview of recent key contributions in the field and how these relate to empirical observations.
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