Electrochemistry (ILV)

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LehrveranstaltungsleiterIn:

Mag.a Dr.in

 Magdalena Forster
 Julia Modl , MSc.
LV-NummerVEEMS-1.01
LV-KürzelEleChem
Studienplan2016
Studiengangssemester 1. Semester
LehrveranstaltungsmodusPräsenzveranstaltung
Semesterwochenstunden / SWS1,5
ECTS Credits2,5
Unterrichtssprache Englisch

Most important are the basics of electrochemistry, seen in focus for

battery technologies, basics of galvanic cells, battery research and

necessary basics for alternative electrical storage systems.

Students acquire basic biological knowledge which is relevant for the

master degree.

Basics in Chemistry, Stoichiometry, Mathematics

Basics of inorganic chemistry, fundamentals of electrochemistry basics and electrochemical cells. Galvanic cell basics and reduction potentials. Chemical base operations, mathematical and chemical descriptions. Technology cell parameters as capacitance, voltage, currents, impedances, heat, losses, efficiency, load cycles.

Basics of dry & liquid cells, rechargeable and non rechargeable cell-structures and electrolyte systems.

Overview of converter systems chemical energy directly to electrical energy, battery overview and vehicle specified battery systems.

Basics of electrochemistry, Nernst Law, overpotentials, battery, electrolysis cell, electrochemical potentials, 3-electrode setup, different applications of electrochemistry, corrosion, caluculation of cell potentials, overpotentials, general understanding of batteries

Carl H. Hamann, Andrew Hamnett, Wolf Vielstich: Electrochemistry,

Wiley-VCH,1998

Vladimir S. Bagotsky: Fundamentals of Electrochemistry, John Wiley

& Sons Inc., 2006

Mark E. Orazem, Bernard Tribollet: Electrochemical Impedance

Spectroscopy, John Wiley & Sons Inc., 2008

Mortimer: Chemie

Bard /Faulkner: Electrochemistry

Hamann/Vielstich: Elektrochemie

Keine Daten verfügbar

Exercises, final exam