Our front pages
Solidified and Immobilized Heteropolyacids for the Valorization of Lignocellulose
Lea Hombach, Natalia Simitsis, Jeroen Thomas Vossen, Dr. Andreas J. Vorholt, Dr. Anna Katharina Beine
12/2022
Particle size-controlled synthesis of high-performance
MnCo-basedmaterials for alkaline OER at
fluctuating potentials
C. Broicher, M. Frisch, S. Dresp, N. M. Kubo, F. Girgsdies, J. Artz, S. Palkovits, A. K. Beine, P. Strasser, R. Palkovits
11/2021
Iron and Manganese Containing Multi-Walled Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction - Unraveling Influences on Activity and Stability
Cornelia Broicher, Dr. Feng Zeng, Norbert Pfänder, Marvin Frisch, Timo Bisswanger, Dr. Jörg Radnik, Jörg Manfred Stockmann, Dr. Stefan Palkovits, Dr. Anna Katharina Beine, Prof. Regina Palkovits
21/2020
Kinetics study of the Ru/C-catalyzed hydrogenolysis of polyols - insight
into the interactions with the metal surface
P. J. C. Hausoul, A. K. Beine, L. Neghadar, R. Palkovits
07/2017
Publications by Jun.-Prof. Dr. rer. nat. Anna Katharina Beine
Chair of Energy Process Engineering
On the effect of alkaline earth metal cations in the hydrogenolysis of glycerol over Pt/C – an experimental and theoretical study
On the effect of alkaline earth metal cations in the hydrogenolysis of glycerol over Pt/C – an experimental and theoretical study
Carbon‐Supported Heteropolyacids for the Valorization of Hemicellulose
Carbon‐Supported Heteropolyacids for the Valorization of Hemicellulose
Particle Size-Controlled Synthesis of High-Performance MnCo-based Materials for Alkaline OER at Fluctuating Potentials
Particle Size-Controlled Synthesis of High-Performance MnCo-based Materials for Alkaline OER at Fluctuating Potentials
Anna Katharina Beine
Anna Katharina Beine
Optimization of the oxygen evolution reaction – Electrode development and kinetic investigations
Optimization of the oxygen evolution reaction – Electrode development and kinetic investigations
Cover Feature: Iron and Manganese Containing Multi‐Walled Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction ‐ Unravelling Influences on Activity and Stability (ChemCatChem 21/2020)
Cover Feature: Iron and Manganese Containing Multi‐Walled Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction ‐ Unravelling Influences on Activity and Stability (ChemCatChem 21/2020)
Mg(OH)2‐Facilitated Liquid‐Phase Conversion of Lactic Acid into 1,2‐Propanediol over Cu: An Experimental and Theoretical Study
Mg(OH)2‐Facilitated Liquid‐Phase Conversion of Lactic Acid into 1,2‐Propanediol over Cu: An Experimental and Theoretical Study
Iron and Manganese Containing Multi‐Walled Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction ‐ Unravelling Influences on Activity and Stability
Iron and Manganese Containing Multi‐Walled Carbon Nanotubes as Electrocatalysts for the Oxygen Evolution Reaction ‐ Unravelling Influences on Activity and Stability
Cu/C‐catalyzed hydrogenolysis of sorbitol to glycols–on the influence of particle size and base
Cu/C‐catalyzed hydrogenolysis of sorbitol to glycols–on the influence of particle size and base
1,2-Propylene Glycol and Ethylene Glycol Production From Lignocellulosic Biomass
1,2-Propylene Glycol and Ethylene Glycol Production From Lignocellulosic Biomass
Selective production of glycols from xylitol over Ru on covalent triazine frameworks – suppressing decarbonylation reactions
Selective production of glycols from xylitol over Ru on covalent triazine frameworks – suppressing decarbonylation reactions
Carbon nanotube containing polyacrylonitrile materials for the oxygen evolution reaction
Carbon nanotube containing polyacrylonitrile materials for the oxygen evolution reaction
