Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts

Munkhshur Myekhlai; Tania M. Benedetti; Lucy Gloag; Agus R. Poerwoprajitno; Soshan Cheong; Wolfgang Schuhmann; J. Justin Gooding; Richard D. Tilley

doi:10.1002/chem.202003561

Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts

Munkhshur Myekhlai, Tania M. Benedetti, Lucy Gloag, Agus R. Poerwoprajitno, Soshan Cheong, Wolfgang Schuhmann, J. Justin Gooding, Richard D. Tilley

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

Producing stable but active materials is one of the enduring challenges in electrocatalysis and other types of catalysis. Producing branched nanoparticles is one potential solution. Controlling the number of branches and branch size of faceted branched nanoparticles is one of the major synthetic challenges to achieve highly active and stable nanocatalysts. Herein, we use a cubic-core hexagonal-branch mechanism to synthesize branched Ru nanoparticles with control over the size and number of branches. This structural control is the key to achieving high exposure of active {10–11} facets and optimum number of Ru branches that enables improved catalytic activity for oxygen evolution reaction while maintaining high stability.

Original language	English
Pages (from-to)	15501-15504
Number of pages	4
Journal	Chemistry - A European Journal
Volume	26
Issue number	67
Early online date	Oct 2020
DOIs	https://doi.org/10.1002/chem.202003561
Publication status	Published - 1 Dec 2020
Externally published	Yes

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Myekhlai, M., Benedetti, T. M., Gloag, L., Poerwoprajitno, A. R., Cheong, S., Schuhmann, W., Gooding, J. J., & Tilley, R. D. (2020). Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts. Chemistry - A European Journal, 26(67), 15501-15504. https://doi.org/10.1002/chem.202003561

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title = "Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts",

abstract = "Producing stable but active materials is one of the enduring challenges in electrocatalysis and other types of catalysis. Producing branched nanoparticles is one potential solution. Controlling the number of branches and branch size of faceted branched nanoparticles is one of the major synthetic challenges to achieve highly active and stable nanocatalysts. Herein, we use a cubic-core hexagonal-branch mechanism to synthesize branched Ru nanoparticles with control over the size and number of branches. This structural control is the key to achieving high exposure of active {10–11} facets and optimum number of Ru branches that enables improved catalytic activity for oxygen evolution reaction while maintaining high stability.",

keywords = "branched nanoparticles, electrocatalysis, oxygen evolution reactions, ruthenium, surface facets",

author = "Munkhshur Myekhlai and Benedetti, {Tania M.} and Lucy Gloag and Poerwoprajitno, {Agus R.} and Soshan Cheong and Wolfgang Schuhmann and Gooding, {J. Justin} and Tilley, {Richard D.}",

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Myekhlai, M, Benedetti, TM, Gloag, L, Poerwoprajitno, AR, Cheong, S, Schuhmann, W, Gooding, JJ & Tilley, RD 2020, 'Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts', Chemistry - A European Journal, vol. 26, no. 67, pp. 15501-15504. https://doi.org/10.1002/chem.202003561

TY - JOUR

T1 - Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts

AU - Myekhlai, Munkhshur

AU - Benedetti, Tania M.

AU - Gloag, Lucy

AU - Poerwoprajitno, Agus R.

AU - Cheong, Soshan

AU - Schuhmann, Wolfgang

AU - Gooding, J. Justin

AU - Tilley, Richard D.

PY - 2020/12/1

Y1 - 2020/12/1

N2 - Producing stable but active materials is one of the enduring challenges in electrocatalysis and other types of catalysis. Producing branched nanoparticles is one potential solution. Controlling the number of branches and branch size of faceted branched nanoparticles is one of the major synthetic challenges to achieve highly active and stable nanocatalysts. Herein, we use a cubic-core hexagonal-branch mechanism to synthesize branched Ru nanoparticles with control over the size and number of branches. This structural control is the key to achieving high exposure of active {10–11} facets and optimum number of Ru branches that enables improved catalytic activity for oxygen evolution reaction while maintaining high stability.

AB - Producing stable but active materials is one of the enduring challenges in electrocatalysis and other types of catalysis. Producing branched nanoparticles is one potential solution. Controlling the number of branches and branch size of faceted branched nanoparticles is one of the major synthetic challenges to achieve highly active and stable nanocatalysts. Herein, we use a cubic-core hexagonal-branch mechanism to synthesize branched Ru nanoparticles with control over the size and number of branches. This structural control is the key to achieving high exposure of active {10–11} facets and optimum number of Ru branches that enables improved catalytic activity for oxygen evolution reaction while maintaining high stability.

KW - branched nanoparticles

KW - electrocatalysis

KW - oxygen evolution reactions

KW - ruthenium

KW - surface facets

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U2 - 10.1002/chem.202003561

DO - 10.1002/chem.202003561

M3 - Article

C2 - 32844508

AN - SCOPUS:85092416088

SN - 0947-6539

VL - 26

SP - 15501

EP - 15504

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 67

ER -

Controlling the Number of Branches and Surface Facets of Pd-Core Ru-Branched Nanoparticles to Make Highly Active Oxygen Evolution Reaction Electrocatalysts

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