Arno Bergmann

Overview

Explore the profile of Arno Bergmann including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 34

Citations 589

Followers 0

Related Specialties

Chemistry

Biology

Biotechnology

Top 10 Co-Authors

Beatriz Roldan Cuenya

Janis Timoshenko

Peter Strasser

Clara Rettenmaier

Hyo Sang Jeon

Antonia Herzog

Martina Ruscher

Stefanie Kuhl

Detre Teschner

Mauricio Lopez Luna

Published In

J Am Chem Soc

Nat Commun

ChemSusChem

ACS Catal

Nature

Affiliations

Soon will be listed here.

Recent Articles

Key intermediates and Cu active sites for CO electroreduction to ethylene and ethanol

Zhan C, Dattila F, Rettenmaier C, Herzog A, Herran M, Wagner T, et al.

Nat Energy . 2024 Dec; 9(12):1485-1496. PMID: 39713047

Electrochemical reduction of CO (CORR) to multi-carbon products is a promising technology to store intermittent renewable electricity into high-added-value chemicals and close the carbon cycle. Its industrial scalability requires electrocatalysts...

Adsorbate Configurations in Ni Single-Atom Catalysts during CO_{2} Electrocatalytic Reduction Unveiled by Operando XAS, XES, and Machine Learning

Martini A, Timoshenko J, Grosse P, Rettenmaier C, Hursan D, Deplano G, et al.

Phys Rev Lett . 2024 Dec; 133(22):228001. PMID: 39672148

Nickel and nitrogen co-doped carbon (Ni-N-C) catalysts are attracting attention due to their exceptionally high performance in the electrocatalytic reduction of CO_{2}(CO_{2}RR) to CO. However, the direct experimental insight into...

Reactivity and Stability of Reduced Ir-Weight TiO-Supported Oxygen Evolution Catalysts for Proton Exchange Membrane (PEM) Water Electrolyzer Anodes

Tran H, Nong H, Zlatar M, Yoon A, Hejral U, Ruscher M, et al.

J Am Chem Soc . 2024 Nov; 146(46):31444-31455. PMID: 39526338

Reducing the iridium demand in Proton Exchange Membrane Water Electrolyzers (PEM WE) is a critical priority for the green hydrogen industry. This study reports the discovery of a TiO-supported Ir@IrO(OH)...

Effect of Iron Doping in Ordered Nickel Oxide Thin Film Catalyst for the Oxygen Evolution Reaction

Etxebarria A, Lopez Luna M, Martini A, Hejral U, Ruscher M, Zhan C, et al.

ACS Catal . 2024 Sep; 14(18):14219-14232. PMID: 39324051

Water splitting has emerged as a promising route for generating hydrogen as an alternative to conventional production methods. Finding affordable and scalable catalysts for the anodic half-reaction, the oxygen evolution...

Reversible metal cluster formation on Nitrogen-doped carbon controlling electrocatalyst particle size with subnanometer accuracy

Timoshenko J, Rettenmaier C, Hursan D, Ruscher M, Ortega E, Herzog A, et al.

Nat Commun . 2024 Jul; 15(1):6111. PMID: 39030207

Copper and nitrogen co-doped carbon catalysts exhibit a remarkable behavior during the electrocatalytic CO reduction (CORR), namely, the formation of metal nanoparticles from Cu single atoms, and their subsequent reversible...

Operando Raman spectroscopy uncovers hydroxide and CO species enhance ethanol selectivity during pulsed CO electroreduction

Herzog A, Lopez Luna M, Jeon H, Rettenmaier C, Grosse P, Bergmann A, et al.

Nat Commun . 2024 May; 15(1):3986. PMID: 38734726

Pulsed CO electroreduction (CORR) has recently emerged as a facile way to in situ tune the product selectivity, in particular toward ethanol, without re-designing the catalytic system. However, in-depth mechanistic...

Facet Dependence of the Oxygen Evolution Reaction on CoO, CoFeO, and FeO Epitaxial Film Electrocatalysts

Davis E, Bergmann A, Kuhlenbeck H, Cuenya B

J Am Chem Soc . 2024 May; 146(20):13770-13782. PMID: 38717849

The main obstacle for the electrocatalytic production of "green hydrogen" is finding suitable electrocatalysts which operate highly efficiently over extended periods of time. The topic of this study is the...

Electrocatalytic Nitrate and Nitrite Reduction toward Ammonia Using CuO Nanocubes: Active Species and Reaction Mechanisms

Bai L, Franco F, Timoshenko J, Rettenmaier C, Scholten F, Jeon H, et al.

J Am Chem Soc . 2024 Apr; 146(14):9665-9678. PMID: 38557016

The electrochemical reduction of nitrate (NO) and nitrite (NO) enables sustainable, carbon-neutral, and decentralized routes to produce ammonia (NH). Copper-based materials are promising electrocatalysts for NO conversion to NH. However,...

Role of Fe decoration on the oxygen evolving state of CoO nanocatalysts

Haase F, Ortega E, Saddeler S, Schmidt F, Cruz D, Scholten F, et al.

Energy Environ Sci . 2024 Mar; 17(5):2046-2058. PMID: 38449571

The production of green hydrogen through alkaline water electrolysis is the key technology for the future carbon-neutral industry. Nanocrystalline CoO catalysts are highly promising electrocatalysts for the oxygen evolution reaction...

10.

insights into correlating CO coverage and Cu-Au alloying with the selectivity of Au NP-decorated CuO nanocubes during the electrocatalytic CO reduction

Rettenmaier C, Herzog A, Casari D, Ruscher M, Jeon H, Kordus D, et al.

EES Catal . 2024 Jan; 2(1):311-323. PMID: 38222061

Electrochemical reduction of CO (CORR) is an attractive technology to reintegrate the anthropogenic CO back into the carbon cycle driven by a suitable catalyst. This study employs highly efficient multi-carbon...