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Controlled Synthesis of PtNi Hexapods for Enhanced Oxygen Reduction Reaction
Well-defined PtNi nanocrystals represent one of the most efficient electrocatalysts to boost the oxygen reduction reaction (ORR), especially in the shape of octahedrons, nanoframes, and nanowires.Expand
Trimetallic Synergy in Intermetallic PtSnBi Nanoplates Boosts Formic Acid Oxidation.
Platinum is the most effective metal for a wide range of catalysis reactions, but it fails in the formic acid electrooxidation test and suffers from severe carbon monoxide poisoning. DevelopingExpand
SnO2 patched ultrathin PtRh nanowires as efficient catalysts for ethanol electrooxidation
The limited electrochemical activities of Pt-based catalysts lead to the sluggish kinetics of the ethanol oxidation reaction (EOR). The delicate combination between SnO2 and Pt-based nanocatalystsExpand
One-nanometer-thick platinum-based nanowires with controllable surface structures
AbstractPt-based ultrathin nanowires (NWs) are considered as one of the most intriguing catalysts for fuel cells. However, the delicate controllability of surface structure of ultrathin NWs toExpand
Thermally reduced graphene paper with fast Li ion diffusion for stable Li metal anode
Abstract The increasing demand for high-specific-energy batteries drives researchers to revisit Li metal anode. However, the formation and growth of Li-dendrite possibly leads to short-circuit of theExpand
Pd / C hydrogenation catalyst, production and use thereof
The present invention provides a Pd / C hydrogenation catalyst containing activated carbon particles as a carrier and metallic palladium as active component, ready, wherein the content of metallicExpand
Preparation and Performance of Titanium Matrix (SnO2/Sb2O3/IrO2) Catalytic Electrode
The anode of DSA (SnO2/Sb2O3/IrO2) was prepared with the brush coating thermal decomposition method. The surface crystal particles of the DSA were plump, evenly distributed dense coverage and lessExpand
Trace Pd modified intermetallic PtBi nanoplates towards efficient formic acid electrocatalysis
Promoting formic acid electrochemical oxidation through the dehydrogenation path is critical for the development of direct liquid fuel cells. Herein, we report the modification of intermetallic PtBiExpand