Quatermetallic Pt-based ultrathin nanowires intensified by Rh enable highly active and robust electrocatalysts for methanol oxidation
Inferior stability and anti-poisoning capacity of Pt-based ultrathin nanowires (NWs) are
critical weaknesses under detrimental acidic running conditions for proton-exchange …
critical weaknesses under detrimental acidic running conditions for proton-exchange …
Structure-intensified PtCoRh spiral nanowires as highly active and durable electrocatalysts for methanol oxidation
Platinum (Pt)-based nanocatalysts with a high density of surface atomic steps hold great
prospects in electrocatalysis. However, the structural instability under harsh redox conditions …
prospects in electrocatalysis. However, the structural instability under harsh redox conditions …
Enhanced Electrocatalytic Oxidation of Small Organic Molecules on Platinum-Gold Nanowires: Influence of the Surface Structure and Pt-Pt/Pt-Au Pair Site Density
N Smina, A Rosen, L Sztaberek… - … Applied Materials & …, 2021 - ACS Publications
The electrochemical oxidation of small organic molecules (SOMs) such as methanol and
glucose is a critical process and has relevant applications in fuel cells and sensors. A key …
glucose is a critical process and has relevant applications in fuel cells and sensors. A key …
Computational Design of Novel Materials for Solar Energy Conversion and Catalysis
C Teply - 2021 - cedar.wwu.edu
As synthetic chemists and materials scientists increasingly gain the ability to precisely
arrange the atoms in solids, computation can provide guiding insight toward designing …
arrange the atoms in solids, computation can provide guiding insight toward designing …