G
Gernot Strohmeier
Researcher at Graz University of Technology
Publications - 34
Citations - 1357
Gernot Strohmeier is an academic researcher from Graz University of Technology. The author has contributed to research in topics: Pichia pastoris & Neutron scattering. The author has an hindex of 18, co-authored 33 publications receiving 1080 citations. Previous affiliations of Gernot Strohmeier include University of Graz.
Papers
More filters
Journal ArticleDOI
Singlet Oxygen Generation as a Major Cause for Parasitic Reactions during Cycling of Aprotic Lithium-Oxygen Batteries
Nika Mahne,Bettina Schafzahl,Christian Leypold,Mario Leypold,Sandra Grumm,Anita Leitgeb,Gernot Strohmeier,Martin Wilkening,Olivier Fontaine,Olivier Fontaine,Denis Kramer,Christian Slugovc,Sergey M. Borisov,Stefan Freunberger +13 more
TL;DR: In this article, the authors show that singlet oxygen forms at the cathode of a lithium-oxygen cell during discharge and from the onset of charge, and accounts for the majority of parasitic reaction products.
Journal ArticleDOI
Singlet oxygen generation as a major cause for parasitic reactions during cycling of aprotic lithium–oxygen batteries
Nika Mahne,Bettina Schafzahl,Christian Leypold,Mario Leypold,Sandra Grumm,Anita Leitgeb,Gernot Strohmeier,Martin Wilkening,Olivier Fontaine,Olivier Fontaine,Denis Kramer,Christian Slugovc,Sergey M. Borisov,Stefan Freunberger +13 more
TL;DR: In this article, the authors show that singlet oxygen forms at the cathode of a lithium-oxygen cell during discharge and from the onset of charge, and accounts for the majority of parasitic reaction products.
Journal ArticleDOI
Application of designed enzymes in organic synthesis.
TL;DR: Application of Designed Enzymes in Organic Synthesis Gernot A. Strohmeier, Harald Pichler, Oliver May, and Mandana Gruber-Khadjawi .
Journal ArticleDOI
Biocatalytic reduction of carboxylic acids.
TL;DR: This review points at bio‐alternatives: currently known enzyme classes and organisms that catalyze the reduction of carboxylic acids are summarized.
Journal ArticleDOI
Improving enzymatic polyurethane hydrolysis by tuning enzyme sorption
Caroline Gamerith,Enrique Herrero Acero,Alessandro Pellis,Andreas Ortner,Robert Vielnascher,Daniel Luschnig,Barbara Zartl,Karolina Haernvall,Sabine Zitzenbacher,Gernot Strohmeier,Oskar Hoff,Georg Steinkellner,Karl Gruber,Doris Ribitsch,Georg M. Guebitz +14 more
TL;DR: Interestingly, despite the lower activity on the soluble model substrate, the PA_PBM fusion enzyme was up to 4 times more active on the polymer when compared with the native enzyme, confirming the relevance of enzyme adsorption for efficient hydrolysis.