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Prof. Bastian JM Etzold
Prof. Bastian JM Etzold
FAU Erlangen-Nürnberg
Bestätigte E-Mail-Adresse bei fau.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Covalent incorporation of aminated nanodiamond into an epoxy polymer network
VN Mochalin, I Neitzel, BJM Etzold, A Peterson, G Palmese, Y Gogotsi
ACS nano 5 (9), 7494-7502, 2011
3312011
Photonic crystal fibres for chemical sensing and photochemistry
AM Cubillas, S Unterkofler, TG Euser, BJM Etzold, AC Jones, PJ Sadler, ...
Chemical Society Reviews 42 (22), 8629-8648, 2013
3212013
Solid catalyst with ionic liquid layer (SCILL)–A new concept to improve selectivity illustrated by hydrogenation of cyclooctadiene
U Kernchen, B Etzold, W Korth, A Jess
Chemical Engineering & Technology: Industrial Chemistry‐Plant Equipment …, 2007
2872007
Accelerating oxygen‐reduction catalysts through preventing poisoning with non‐reactive species by using hydrophobic ionic liquids
GR Zhang, M Munoz, BJM Etzold
Angewandte Chemie International Edition 55 (6), 2257-2261, 2016
1482016
Analysis of evaporation and thermal decomposition of ionic liquids by thermogravimetrical analysis at ambient pressure and high vacuum
F Heym, BJM Etzold, C Kern, A Jess
Green chemistry 13 (6), 1453-1466, 2011
1432011
Carbon structure in nanodiamonds elucidated from Raman spectroscopy
VI Korepanov, H Hamaguchi, E Osawa, V Ermolenkov, IK Lednev, ...
Carbon 121, 322-329, 2017
1272017
An improved method to measure the rate of vaporisation and thermal decomposition of high boiling organic and ionic liquids by thermogravimetrical analysis
F Heym, BJM Etzold, C Kern, A Jess
Physical Chemistry Chemical Physics 12 (38), 12089-12100, 2010
1142010
Ionic liquids in electrocatalysis
GR Zhang, BJM Etzold
Journal of Energy Chemistry 25 (2), 199-207, 2016
1122016
Boosting performance of low temperature fuel cell catalysts by subtle ionic liquid modification
GR Zhang, M Munoz, BJM Etzold
ACS applied materials & interfaces 7 (6), 3562-3570, 2015
1022015
Tuning the electrocatalytic performance of ionic liquid modified Pt catalysts for the oxygen reduction reaction via cationic chain engineering
GR Zhang, T Wolker, DJS Sandbeck, M Munoz, KJJ Mayrhofer, ...
ACS catalysis 8 (9), 8244-8254, 2018
932018
Modifier-free microfluidic electrochemical sensor for heavy-metal detection
LL Shen, GR Zhang, W Li, M Biesalski, BJM Etzold
ACS omega 2 (8), 4593-4603, 2017
922017
Chlorination of titanium carbide for the processing of nanoporous carbon: A kinetic study
P Becker, F Glenk, M Kormann, N Popovska, BJM Etzold
Chemical Engineering Journal 159 (1-3), 236-241, 2010
822010
High selectivity of TiC-CDC for CO2/N2 separation
A Silvestre-Albero, S Rico-Francés, F Rodríguez-Reinoso, AM Kern, ...
Carbon 59, 221-228, 2013
812013
Towards best practices for improving paper-based microfluidic fuel cells
LL Shen, GR Zhang, T Venter, M Biesalski, BJM Etzold
Electrochimica Acta 298, 389-399, 2019
752019
Benchmarking fuel cell electrocatalysts using gas diffusion electrodes: inter-lab comparison and best practices
K Ehelebe, N Schmitt, G Sievers, AW Jensen, A Hrnjić, ...
ACS energy letters 7 (2), 816-826, 2022
742022
Effect of ionic liquid modification on the ORR performance and degradation mechanism of trimetallic PtNiMo/C catalysts
M George, GR Zhang, N Schmitt, K Brunnengräber, DJS Sandbeck, ...
ACS catalysis 9 (9), 8682-8692, 2019
732019
Aqueous-phase reforming of xylitol over Pt/C and Pt/TiC-CDC catalysts: catalyst characterization and catalytic performance
AV Kirilin, B Hasse, AV Tokarev, LM Kustov, GN Baeva, GO Bragina, ...
Catalysis science & technology 4 (2), 387-401, 2014
722014
Mesoporous and graphitic carbide-derived carbons as selective and stable catalysts for the dehydrogenation reaction
J Gläsel, J Diao, Z Feng, M Hilgart, T Wolker, DS Su, BJM Etzold
Chemistry of Materials 27 (16), 5719-5725, 2015
702015
Cathodic activated stainless steel mesh as a highly active electrocatalyst for the oxygen evolution reaction with self-healing possibility
GR Zhang, LL Shen, P Schmatz, K Krois, BJM Etzold
Journal of Energy Chemistry 49, 153-160, 2020
662020
Probing CO2 Reduction Pathways for Copper Catalysis Using an Ionic Liquid as a Chemical Trapping Agent
GR Zhang, SD Straub, LL Shen, Y Hermans, P Schmatz, AM Reichert, ...
Angewandte Chemie 132 (41), 18251-18258, 2020
632020
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