Manipulating multimetallic effects: Programming size-tailored metal aerogels as self-standing electrocatalysts

Qian Cui; Yi Li; Xiaoyue Sun; Beibei Weng; René Hübner; Yu Cui; Qiaoran Zhang; Yunjun Luo; Leining Zhang; Ran Du

doi:10.1016/j.matt.2024.10.023

Manipulating multimetallic effects: Programming size-tailored metal aerogels as self-standing electrocatalysts

Qian Cui, Yi Li, Xiaoyue Sun, Beibei Weng, René Hübner, Yu Cui, Qiaoran Zhang, Yunjun Luo, Leining Zhang^*, Ran Du^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Metal aerogels are emerging porous materials composed entirely of nanostructured metals, which manifest broad prospects in diverse fields. Particularly, multimetallic aerogels (MMAs) receive increasing attention due to their widely tunable properties stimulated by the synergy of multiple metals. However, the investigation of multimetallic effects in MMAs is predominantly restricted to optimizing their application performances. Here, the untrivial multimetallic effects on the synthetic aspect are discovered, and the underlying mechanisms are unveiled, offering new perspectives for manipulating the sol-gel process and tuning the ligament size (d_L) of MMAs by designing the average bulk density (ρ_ab) and atomic radius (r_a) mismatch. Moreover, a sedimentation-based non-destructive method is established, which solves the long-lasting challenge of preparing intact metal-gel-based electrocatalysts and yields record-high performances toward alcohol oxidation reactions.

源语言	英语
文章编号	101905
期刊	Matter
DOI	https://doi.org/10.1016/j.matt.2024.10.023
出版状态	已接受/待刊 - 2024

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title = "Manipulating multimetallic effects: Programming size-tailored metal aerogels as self-standing electrocatalysts",

abstract = "Metal aerogels are emerging porous materials composed entirely of nanostructured metals, which manifest broad prospects in diverse fields. Particularly, multimetallic aerogels (MMAs) receive increasing attention due to their widely tunable properties stimulated by the synergy of multiple metals. However, the investigation of multimetallic effects in MMAs is predominantly restricted to optimizing their application performances. Here, the untrivial multimetallic effects on the synthetic aspect are discovered, and the underlying mechanisms are unveiled, offering new perspectives for manipulating the sol-gel process and tuning the ligament size (dL) of MMAs by designing the average bulk density (ρab) and atomic radius (ra) mismatch. Moreover, a sedimentation-based non-destructive method is established, which solves the long-lasting challenge of preparing intact metal-gel-based electrocatalysts and yields record-high performances toward alcohol oxidation reactions.",

keywords = "Aerogels, electrocatalysis, ethanol oxidation reaction, ligament size, MAP 2: Benchmark, metal aerogels, methanol oxidation reaction, mismatch, multimetallic effects, sol-gel",

author = "Qian Cui and Yi Li and Xiaoyue Sun and Beibei Weng and Ren{\'e} H{\"u}bner and Yu Cui and Qiaoran Zhang and Yunjun Luo and Leining Zhang and Ran Du",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Inc.",

year = "2024",

doi = "10.1016/j.matt.2024.10.023",

language = "English",

journal = "Matter",

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TY - JOUR

T1 - Manipulating multimetallic effects

T2 - Programming size-tailored metal aerogels as self-standing electrocatalysts

AU - Cui, Qian

AU - Li, Yi

AU - Sun, Xiaoyue

AU - Weng, Beibei

AU - Hübner, René

AU - Cui, Yu

AU - Zhang, Qiaoran

AU - Luo, Yunjun

AU - Zhang, Leining

AU - Du, Ran

PY - 2024

Y1 - 2024

N2 - Metal aerogels are emerging porous materials composed entirely of nanostructured metals, which manifest broad prospects in diverse fields. Particularly, multimetallic aerogels (MMAs) receive increasing attention due to their widely tunable properties stimulated by the synergy of multiple metals. However, the investigation of multimetallic effects in MMAs is predominantly restricted to optimizing their application performances. Here, the untrivial multimetallic effects on the synthetic aspect are discovered, and the underlying mechanisms are unveiled, offering new perspectives for manipulating the sol-gel process and tuning the ligament size (dL) of MMAs by designing the average bulk density (ρab) and atomic radius (ra) mismatch. Moreover, a sedimentation-based non-destructive method is established, which solves the long-lasting challenge of preparing intact metal-gel-based electrocatalysts and yields record-high performances toward alcohol oxidation reactions.

AB - Metal aerogels are emerging porous materials composed entirely of nanostructured metals, which manifest broad prospects in diverse fields. Particularly, multimetallic aerogels (MMAs) receive increasing attention due to their widely tunable properties stimulated by the synergy of multiple metals. However, the investigation of multimetallic effects in MMAs is predominantly restricted to optimizing their application performances. Here, the untrivial multimetallic effects on the synthetic aspect are discovered, and the underlying mechanisms are unveiled, offering new perspectives for manipulating the sol-gel process and tuning the ligament size (dL) of MMAs by designing the average bulk density (ρab) and atomic radius (ra) mismatch. Moreover, a sedimentation-based non-destructive method is established, which solves the long-lasting challenge of preparing intact metal-gel-based electrocatalysts and yields record-high performances toward alcohol oxidation reactions.

KW - Aerogels

KW - electrocatalysis

KW - ethanol oxidation reaction

KW - ligament size

KW - MAP 2: Benchmark

KW - metal aerogels

KW - methanol oxidation reaction

KW - mismatch

KW - multimetallic effects

KW - sol-gel

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U2 - 10.1016/j.matt.2024.10.023

DO - 10.1016/j.matt.2024.10.023

M3 - Article

AN - SCOPUS:85212621043

SN - 2590-2393

JO - Matter

JF - Matter

M1 - 101905

ER -

Manipulating multimetallic effects: Programming size-tailored metal aerogels as self-standing electrocatalysts

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