Kai S. Exner
Kai S. Exner
University Duisburg-Essen, Faculty of Chemistry, Professor for Theoretical Inorganic Chemistry
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Cited by
The sabatier principle in electrocatalysis: Basics, limitations, and extensions
H Ooka, J Huang, KS Exner
Frontiers in Energy Research 9, 654460, 2021
Controlling Selectivity in the Chlorine Evolution Reaction over RuO2‐Based Catalysts
KS Exner, J Anton, T Jacob, H Over
Angewandte Chemie 41, 11212-11215, 2014
Kinetics of electrocatalytic reactions from first-principles: a critical comparison with the ab initio thermodynamics approach
KS Exner, H Over
Accounts of chemical research 50 (5), 1240-1247, 2017
A universal approach to determine the free energy diagram of an electrocatalytic reaction
KS Exner, I Sohrabnejad-Eskan, H Over
Acs Catalysis 8 (3), 1864-1879, 2018
Full Kinetics from First Principles of the Chlorine Evolution Reaction over a RuO2(110) Model Electrode
KS Exner, J Anton, T Jacob, H Over
Angewandte Chemie International Edition 55 (26), 7501-7504, 2016
Beyond the Rate-Determining Step in the Oxygen Evolution Reaction over a Single-Crystalline IrO2 (110) Model Electrode: Kinetic Scaling Relations
KS Exner, H Over
ACS Catalysis 9, 6755-6765, 2019
Temperature-Dependent Kinetic Studies of the Chlorine Evolution Reaction over RuO2(110) Model Electrodes
I Sohrabnejad-Eskan, A Goryachev, KS Exner, LA Kibler, EJM Hensen, ...
ACS Catalysis 7 (4), 2403-2411, 2017
Chlorine evolution reaction on RuO2 (110): Ab initio atomistic thermodynamics study-Pourbaix diagrams
KS Exner, J Anton, T Jacob, H Over
Electrochimica Acta 120, 460-466, 2014
Is Thermodynamics a Good Descriptor for the Activity? Re-Investigation of Sabatier’s Principle by the Free Energy Diagram in Electrocatalysis
KS Exner
ACS Catalysis 9, 5320-5329, 2019
A universal descriptor for the screening of electrode materials for multiple-electron processes: beyond the thermodynamic overpotential
KS Exner
ACS Catalysis 10 (21), 12607-12617, 2020
Does a thermoneutral electrocatalyst correspond to the apex of a volcano plot for a simple two‐electron process?
KS Exner
Angewandte Chemie 132 (26), 10320-10324, 2020
Ligand Effects and Their Impact on Electrocatalytic Processes Exemplified with the Oxygen Evolution Reaction (OER) on RuO2(110)
KS Exner, J Anton, T Jacob, H Over
ChemElectroChem 2 (5), 707-713, 2015
Controlling Stability and Selectivity in the Competing Chlorine and Oxygen Evolution Reaction over Transition Metal Oxide Electrodes
KS Exner
ChemElectroChem 6, 3401-3409, 2019
Design Criteria for Oxygen Evolution Electrocatalysts from First Principles: Introduction of a Unifying Material-Screening Approach
KS Exner
ACS Applied Energy Materials 2, 7991-8001, 2019
Recent progress in the development of screening methods to identify electrode materials for the oxygen evolution reaction
KS Exner
Advanced Functional Materials 30 (42), 2005060, 2020
Beyond the Traditional Volcano Concept: Overpotential-Dependent Volcano Plots Exemplified by the Chlorine Evolution Reaction over Transition-Metal Oxides
KS Exner
The Journal of Physical Chemistry C 123, 16921-16928, 2019
Paradigm change in hydrogen electrocatalysis: The volcano's apex is located at weak bonding of the reaction intermediate
KS Exner
International Journal of Hydrogen Energy 45 (51), 27221-27229, 2020
Why approximating electrocatalytic activity by a single free‐energy change is insufficient
KS Exner
Electrochimica Acta 375, 137975, 2021
Design criteria for the competing chlorine and oxygen evolution reactions: avoid the OCl adsorbate to enhance chlorine selectivity
KS Exner
Physical Chemistry Chemical Physics 22 (39), 22451-22458, 2020
General efficacy of atomically dispersed Pt catalysts for the chlorine evolution reaction: potential-dependent switching of the kinetics and mechanism
T Lim, JH Kim, J Kim, DS Baek, TJ Shin, HY Jeong, KS Lee, KS Exner, ...
ACS Catalysis 11 (19), 12232-12246, 2021
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