Hydrocarbon Oxidation for Solid Oxide Fuel
Cells

Surface Reactions in High Electric Fields

Field Ionization of Water

Kinetics and Mechanism of Methanol Electrocatalysis

Logarithmic Error Bars

UWESS Group Members

The UWESS group examines all aspects of electrochemical surface science.  Our focus is molecular level understanding of the structure and processes that occur at the electrode/electrolyte interface.

Oxidation of Hydrocarbon Fuels at Solid Oxide Anodes

A lecture given at the 2005 AIChE meeting in Cincinnati.

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Surface Reactions in High Electric Fields

An examination of direct hydrocarbon oxidationreactions for solid oxide fuel cells, involving hydrocarbon reactions at a Pt/ceria field emitter tip and a solid oxide fuel cell (SOFC) installed in an ultrahigh vacuum chamber to permit surface analysis of a live anode

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Field Ionization of Water

Water ionization high electric fields leads to a distribution of hydrated proton clusters, which are analyzed for number of waters in the cluster, solvation energy, and field of emission as a function of temperature, field, and partial pressure of water

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Kinetics and Mechanism of Methanol Electrocatalysis

Kinetics and mechanism of methanol oxidation for direct methanol fuel cells (DMFC) are examined over a temperature range of 20–120 °C with a pressurized electrochemical microreactor on a silicon chip

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Logarithmic Error Bars

If asymmetric error bars appear on a logarithmic plot, chances are they were calculated incorrectly.  This file shows how to display error bars on logarithmic plots.

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UWESS Group Members

Prof. Eric Stuve
Líney Árnadóttir
Kurt Spies

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