Pd Nanoparticles Coupled to WO2.72 Nanorods for Enhanced Electrochemical Oxidation of Formic Acid | Zendy

Zheng Xi | Zendy; Daniel P. Erdosy | Zendy; Adriana MendozaGarcia | Zendy; Paul N. Duchesne | Zendy; Junrui Li | Zendy; Michelle Muzzio | Zendy; Qing Li | Zendy; Peng Zhang | Zendy; Shouheng Sun | Zendy

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Pd Nanoparticles Coupled to WO_2.72 Nanorods for Enhanced Electrochemical Oxidation of Formic Acid

Author(s) -

Zheng Xi,

Daniel P. Erdosy,

Adriana MendozaGarcia,

Paul N. Duchesne,

Junrui Li,

Michelle Muzzio,

Qing Li,

Peng Zhang,

Shouheng Sun

Publication year - 2017

Publication title -

nano letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.853

H-Index - 488

eISSN - 1530-6992

pISSN - 1530-6984

DOI - 10.1021/acs.nanolett.7b00870

Subject(s) - nanorod , catalysis , formic acid , electrochemistry , nanoparticle , chronoamperometry , chemistry , electrocatalyst , chemical engineering , materials science , inorganic chemistry , nanotechnology , cyclic voltammetry , electrode , organic chemistry , engineering

We synthesize a new type of hybrid Pd/WO 2.72 structure with 5 nm Pd nanoparticles (NPs) anchored on 50 × 5 nm WO 2.72 nanorods. The strong Pd/WO 2.72 coupling results in the lattice expansion of Pd from 0.23 to 0.27 nm and the decrease of Pd surface electron density. As a result, the Pd/WO 2.72 shows much enhanced catalysis toward electrochemical oxidation of formic acid in 0.1 M HClO 4 ; it has a mass activity of ∼1600 mA/mg Pd in a broad potential range of 0.4-0.85 V (vs RHE) and shows no obvious activity loss after a 12 h chronoamperometry test at 0.4 V. Our work demonstrates an important strategy to enhance Pd NP catalyst efficiency for energy conversion reactions.

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