Atomic‐level phosphorus‐doped ultrathin Pt nanodendrites as efficient electrocatalysts
K Guo, D Fan, J Bao, Y Li, D Xu - Advanced Functional …, 2022 - Wiley Online Library
The controllable synthesis of phosphorus (P) doped noble metal electrocatalysts with a well‐
defined structure and composition has attracted sufficient attention in energy chemistry. In …
defined structure and composition has attracted sufficient attention in energy chemistry. In …
Dopants in the design of noble metal nanoparticle electrocatalysts and their effect on surface energy and coordination chemistry at the nanocrystal surface
Commercialization of energy conversion technologies, such as water electrolysis or fuel
cells, has become a common prioritized goal in academia and industry due to the …
cells, has become a common prioritized goal in academia and industry due to the …
Carbon dioxide electroreduction into syngas boosted by a partially delocalized charge in molybdenum sulfide selenide alloy monolayers
Structural parameters of ternary transition‐metal dichalcogenide (TMD) alloy usually obey
Vegard law well, while interestingly it often exhibits boosted electrocatalytic performances …
Vegard law well, while interestingly it often exhibits boosted electrocatalytic performances …
Lattice and surface engineering of ruthenium nanostructures for enhanced hydrogen oxidation catalysis
Y Dong, Q Sun, C Zhan, J Zhang… - Advanced Functional …, 2023 - Wiley Online Library
Ru has recently been considered as a promising alternative of Pt toward hydrogen oxidation
reaction (HOR) due to its lower price and similar hydrogen binding energy (HBE) in …
reaction (HOR) due to its lower price and similar hydrogen binding energy (HBE) in …
Ternary palladium–boron–phosphorus alloy mesoporous nanospheres for highly efficient electrocatalysis
Alloying palladium (Pd) catalysts with various metalloid and nonmetal elements can improve
their catalytic performance in different chemical reactions. However, current nanosynthesis …
their catalytic performance in different chemical reactions. However, current nanosynthesis …
Electroreduction of CO2 on Au(310)@Cu High‐index Facets
The chemical selectivity and faradaic efficiency of high‐index Cu facets for the CO2
reduction reaction (CO2RR) is investigated. More specifically, shape‐controlled …
reduction reaction (CO2RR) is investigated. More specifically, shape‐controlled …
Bimetallic platinum–rhodium alloy nanodendrites as highly active electrocatalyst for the ethanol oxidation reaction
Rationally designing and manipulating composition and morphology of precious metal-
based bimetallic nanostructures can markedly enhance their electrocatalytic performance …
based bimetallic nanostructures can markedly enhance their electrocatalytic performance …
Efficient Hydrogen Evolution Promoted by Short Pathway-Hydrogen Spillover Over P-Doped Pt3Co
C Li, C Tian, H Tang, M Liu, L Zheng, F Huang… - ACS Energy …, 2023 - ACS Publications
Developing highly active electrocatalysts for operating at industrial current density with a low
overpotential still remains a major challenge. Herein, we developed a strategy of short …
overpotential still remains a major challenge. Herein, we developed a strategy of short …
Ultra-uniform PdBi nanodots with high activity towards formic acid oxidation
Tuning the morphology and compositions of catalyst is an effective method for promoting
electrocatalytic intrinsic activity. However, many newly-generated nanocrystals with better …
electrocatalytic intrinsic activity. However, many newly-generated nanocrystals with better …
Mesoporous noble metal–metalloid/nonmetal alloy nanomaterials: designing highly efficient catalysts
Y Wang, H Lv, L Sun, B Liu - ACS nano, 2021 - ACS Publications
Mesoporous metals have received increasing attention in catalysis and related applications
because of their novel physicochemical properties and functional geometric features …
because of their novel physicochemical properties and functional geometric features …