Local Heating Induced Single-Crystalline Phase Control in Electrochemical Synthesis of Nanomaterials

Myoung Won Lee; Joon Ho Park; Sung Eun Cho; Hyun S. Ahn

doi:10.1002/smll.202400038

Local Heating Induced Single-Crystalline Phase Control in Electrochemical Synthesis of Nanomaterials

Myoung Won Lee, Joon Ho Park, Sung Eun Cho, Hyun S. Ahn

Department of Chemistry

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

1 Citation (Scopus)

Abstract

Development of synthetic strategies selectively yielding single crystals is desired owing to the facet-dependent chemical reactivities. Recent advances in electrochemical materials synthesis yielded nanomaterials that are surfactant-free, however, typically in polycrystalline forms. In this work, an electrochemical synthetic strategy selectively yielding single-crystalline nanoparticles by implementation of surface-selective heating of the working electrode is developed. Single crystals of copper, silver, gold, and platinum are afforded, and the crystallinity verified by electron diffraction and chemical reactivity studies. Notably, Cu (100) surface prepared by electrochemical synthesis yielded high single product selectivity when applied to electrochemical CO₂ reduction catalysis.

Original language	English
Article number	2400038
Journal	Small
Volume	20
Issue number	30
DOIs	https://doi.org/10.1002/smll.202400038
Publication status	Published - 2024 Jul 25

Bibliographical note

Publisher Copyright:
© 2024 Wiley-VCH GmbH.

All Science Journal Classification (ASJC) codes

Biotechnology
General Chemistry
Biomaterials
General Materials Science
Engineering (miscellaneous)

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abstract = "Development of synthetic strategies selectively yielding single crystals is desired owing to the facet-dependent chemical reactivities. Recent advances in electrochemical materials synthesis yielded nanomaterials that are surfactant-free, however, typically in polycrystalline forms. In this work, an electrochemical synthetic strategy selectively yielding single-crystalline nanoparticles by implementation of surface-selective heating of the working electrode is developed. Single crystals of copper, silver, gold, and platinum are afforded, and the crystallinity verified by electron diffraction and chemical reactivity studies. Notably, Cu (100) surface prepared by electrochemical synthesis yielded high single product selectivity when applied to electrochemical CO2 reduction catalysis.",

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AU - Lee, Myoung Won

AU - Park, Joon Ho

AU - Cho, Sung Eun

AU - Ahn, Hyun S.

PY - 2024/7/25

Y1 - 2024/7/25

N2 - Development of synthetic strategies selectively yielding single crystals is desired owing to the facet-dependent chemical reactivities. Recent advances in electrochemical materials synthesis yielded nanomaterials that are surfactant-free, however, typically in polycrystalline forms. In this work, an electrochemical synthetic strategy selectively yielding single-crystalline nanoparticles by implementation of surface-selective heating of the working electrode is developed. Single crystals of copper, silver, gold, and platinum are afforded, and the crystallinity verified by electron diffraction and chemical reactivity studies. Notably, Cu (100) surface prepared by electrochemical synthesis yielded high single product selectivity when applied to electrochemical CO2 reduction catalysis.

AB - Development of synthetic strategies selectively yielding single crystals is desired owing to the facet-dependent chemical reactivities. Recent advances in electrochemical materials synthesis yielded nanomaterials that are surfactant-free, however, typically in polycrystalline forms. In this work, an electrochemical synthetic strategy selectively yielding single-crystalline nanoparticles by implementation of surface-selective heating of the working electrode is developed. Single crystals of copper, silver, gold, and platinum are afforded, and the crystallinity verified by electron diffraction and chemical reactivity studies. Notably, Cu (100) surface prepared by electrochemical synthesis yielded high single product selectivity when applied to electrochemical CO2 reduction catalysis.

KW - CO reduction reaction

KW - single-crystalline nanoparticle

KW - thermally-assisted electrochemical deposition

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Local Heating Induced Single-Crystalline Phase Control in Electrochemical Synthesis of Nanomaterials

Abstract

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