Transition Metal Chalcogenides as a Versatile and Tunable Platform for Catalytic CO2 and N2 Electroreduction
Group VI transition metal chalcogenides are the subject of increasing research interest for
various electrochemical applications such as low-temperature water electrolysis, batteries …
various electrochemical applications such as low-temperature water electrolysis, batteries …
Dual interfacial engineering of a Chevrel phase electrode material for stable hydrogen evolution at 2500 mA cm−2
Constructing stable electrodes which function over long timescales at large current density is
essential for the industrial realization and implementation of water electrolysis. However …
essential for the industrial realization and implementation of water electrolysis. However …
High-entropy transition metal chalcogenides as electrocatalysts for renewable energy conversion
L Wu, JP Hofmann - Current Opinion in Electrochemistry, 2022 - Elsevier
High-entropy transition metal chalcogenides (HE-TMCs) are advantageous in
electrocatalytic applications compared to other entropy-stabilized systems owing to the …
electrocatalytic applications compared to other entropy-stabilized systems owing to the …
How the Bioinspired Fe2Mo6S8 Chevrel Breaks Electrocatalytic Nitrogen Reduction Scaling Relations
NR Singstock, CB Musgrave - Journal of the American Chemical …, 2022 - ACS Publications
The nitrogen reduction reaction (NRR) is a renewable alternative to the energy-and CO2-
intensive Haber–Bosch NH3 synthesis process but is severely limited by the low activity and …
intensive Haber–Bosch NH3 synthesis process but is severely limited by the low activity and …
A low‐temperature synthetic route toward a high‐entropy 2D hexernary transition metal dichalcogenide for hydrogen evolution electrocatalysis
High‐entropy (HE) metal chalcogenides are a class of materials that have great potential in
applications such as thermoelectrics and electrocatalysis. Layered 2D transition‐metal …
applications such as thermoelectrics and electrocatalysis. Layered 2D transition‐metal …
[HTML][HTML] Transition metal tellurides as emerging catalysts for electrochemical water splitting
Renewable energy powered electrochemical water splitting has been recognized as a
sustainable and environmentally-friendly way to produce green hydrogen, which is an …
sustainable and environmentally-friendly way to produce green hydrogen, which is an …
Recent advances in transition metal tellurides (TMTs) and phosphides (TMPs) for hydrogen evolution electrocatalysis
The hydrogen evolution reaction (HER) is a developing and promising technology to deliver
clean energy using renewable sources. Presently, electrocatalytic water (H2O) splitting is …
clean energy using renewable sources. Presently, electrocatalytic water (H2O) splitting is …
Mapping the Binary Covalent Alloy Space to Pursue Superior Nitrogen Reduction Reaction Catalysts
The electrochemical nitrogen reduction reaction (NRR) has the potential to decarbonize
industrial ammonia production. However, NRR has poor activity and selectivity versus the …
industrial ammonia production. However, NRR has poor activity and selectivity versus the …
Machine learning guided synthesis of multinary chevrel phase chalcogenides
NR Singstock, JC Ortiz-Rodríguez… - Journal of the …, 2021 - ACS Publications
The Chevrel phase (CP) is a class of molybdenum chalcogenides that exhibit compelling
properties for next-generation battery materials, electrocatalysts, and other energy …
properties for next-generation battery materials, electrocatalysts, and other energy …
CuS-NiTe2 embedded phosphorus-doped graphene oxide catalyst for evaluating hydrogen evolution reaction
S Parvaz, Z Talebi Vandishi, AA Ensafi… - Scientific Reports, 2024 - nature.com
The hydrogen evolution reaction (HER), a crucial half-reaction in the water-splitting process,
is hindered by slow kinetics, necessitating efficient electrocatalysts to lower overpotential …
is hindered by slow kinetics, necessitating efficient electrocatalysts to lower overpotential …