Catalysts for electrochemical ammonia oxidation: Trend, challenge, and promise
Developing sustainable and clean energy technology is critial to address the current energy
and environmental crisis. As an energy carrier, hydrogen has been getting attention due to …
and environmental crisis. As an energy carrier, hydrogen has been getting attention due to …
Advances in platinum-based materials for electrocatalytic ammonia oxidation: Mechanisms and research progress
Y Wang, Y Ji, C Li, Z Chen, X Li, T Zheng, Q Jiang… - Chinese Chemical …, 2024 - Elsevier
As an emergent energy carrier, ammonia benefits from a well-established industrial
infrastructure for its transportation and production, positioning it as a promising candidate …
infrastructure for its transportation and production, positioning it as a promising candidate …
Pt-Decorated highly porous flower-like Ni particles with high mass activity for ammonia electro-oxidation
Pt-Decorated Ni particles with different surface morphologies were directly prepared on a
conducting substrate for use as electrocatalysts for ammonia electro-oxidation. The whole …
conducting substrate for use as electrocatalysts for ammonia electro-oxidation. The whole …
Tuning Pt–Ir Interactions for NH3 Electrocatalysis
N Sacré, M Duca, S Garbarino, R Imbeault… - ACS …, 2018 - ACS Publications
Pt x Ir100–x thin films (8 nm thick) were deposited on MgO (100) substrates by pulsed laser
deposition at 600° C. As shown by X-ray diffraction and X-ray photoelectron spectroscopy …
deposition at 600° C. As shown by X-ray diffraction and X-ray photoelectron spectroscopy …
Enhanced electrocatalytic nitrate reduction by preferentially-oriented (100) PtRh and PtIr alloys: the hidden treasures of the 'miscibility gap'
Bimetallic alloys of Pt and Rh or Ir were prepared with pulsed laser deposition (PLD) on a
well-ordered MgO (100) substrate, leading to epitaxial growth along the [001] plane, as …
well-ordered MgO (100) substrate, leading to epitaxial growth along the [001] plane, as …
A highly efficient Pt-NiO/C electrocatalyst for ammonia electro-oxidation
Developing efficient electrocatalysts for direct ammonia fuel cells has been researched
intensively. Herein, a Pt-NiO/C catalyst is prepared and applied to ammonia oxidation …
intensively. Herein, a Pt-NiO/C catalyst is prepared and applied to ammonia oxidation …
Synthesis of cubic-shaped Pt particles with (100) preferential orientation by a quick, one-step and clean electrochemical method
J Liu, X Fan, X Liu, Z Song, Y Deng, X Han… - … applied materials & …, 2017 - ACS Publications
A new approach has been developed for in situ preparing cubic-shaped Pt particles with
(100) preferential orientation on the surface of the conductive support by using a quick, one …
(100) preferential orientation on the surface of the conductive support by using a quick, one …
Heteroepitaxial growth of Pt and Au thin films on MgO single crystals by bias-assisted sputtering
Y Tolstova, ST Omelchenko, AM Shing, HA Atwater - Scientific reports, 2016 - nature.com
The crystallographic orientation of a metal affects its surface energy and structure and has
profound implications for surface chemical reactions and interface engineering, which are …
profound implications for surface chemical reactions and interface engineering, which are …
Enhanced Catalysis of Pt3 Clusters Supported on Graphene for N–H Bond Dissociation
C Cui, Z Luo, J Yao - CCS Chemistry, 2019 - chinesechemsoc.org
We report an in-depth study of catalytic N–H bond dissociation with typical platinum clusters
on graphene supports. Among all the pristine graphene-and defective graphene-supported …
on graphene supports. Among all the pristine graphene-and defective graphene-supported …
Improving the electrocatalytic activity of Pt monolayer catalysts for electrooxidation of methanol, ethanol and ammonia by tailoring the surface morphology of the …
J Liu, B Chen, Z Ni, Y Deng, X Han, W Hu… - …, 2016 - Wiley Online Library
Pt‐monolayer‐decorated Au particles with different surface morphologies were prepared by
Au electrodeposition, followed by Cu under‐potential deposition and a Pt replacement …
Au electrodeposition, followed by Cu under‐potential deposition and a Pt replacement …