Xing Song scite author profile

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. Developing highly active and stable catalysts that are capable of oxidizing HCOOH directly into CO2 remains challenging for commercialization of direct liquid fuel cells. A new class of PtSnBi intermetallic nanoplates is synthesized to boost formic acid oxidation, which greatly outperforms binary PtSn and PtBi intermetallic, benefiting from the synergism of chosen three metals. In particular, the best catalyst, atomically ordered Pt45Sn25Bi30 nanoplates, exhibits an ultrahigh mass activity of 4394 mA mg−1 Pt and preserves 78% of the initial activity after 4000 potential cycles, which make it a state‐of‐the‐art catalyst toward formic acid oxidation. Density functional theory calculations reveal that the electronic and geometric effects in PtSnBi intermetallic nanoplates help suppress CO* formation and optimize dehydrogenation steps.

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Electronic and magnetic properties of germanene: Surface functionalization and strain effects

Liang

Liu

Song

et al. 2016

Solid State Communications

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Trace Pd modified intermetallic PtBi nanoplates towards efficient formic acid electrocatalysis

et al. 2021

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Thermally reduced graphene paper with fast Li ion diffusion for stable Li metal anode

Huang

Song

et al. 2019

Electrochimica Acta

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Structural stability, electronic and magnetic properties of MoS2 quantum dots based on the first principles

Liang

Shen

Shu

et al. 2015

Solid State Communications

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Xing Song

Trimetallic Synergy in Intermetallic PtSnBi Nanoplates Boosts Formic Acid Oxidation

Electronic and magnetic properties of germanene: Surface functionalization and strain effects

Trace Pd modified intermetallic PtBi nanoplates towards efficient formic acid electrocatalysis

Thermally reduced graphene paper with fast Li ion diffusion for stable Li metal anode

Structural stability, electronic and magnetic properties of MoS2 quantum dots based on the first principles

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