碳薄膜电极作为用于关联单实体电化学的高性能基底

Carbon Thin-Film Electrodes as High-Performing Substrates for Correlative Single Entity Electrochemistry.

作者信息

Cabré Marc Brunet, Schröder Christian, Pota Filippo, de Oliveira Maida A Costa, Nolan Hugo, Henderson Lua, Brazel Laurence, Spurling Dahnan, Nicolosi Valeria, Martinuz Pietro, Longhi Mariangela, Amargianou Faidra, Bärmann Peer, Petit Tristan, McKelvey Kim, Colavita Paula E

机构信息

School of Chemistry, Trinity College Dublin, Dublin, 2, Ireland.

School of Chemistry, CRANN and AMBER Research Centres, Trinity College Dublin, Dublin, 2, Ireland.

出版信息

Small Methods. 2025 Jan;9(1):e2400639. doi: 10.1002/smtd.202400639. Epub 2024 Aug 19.

DOI:10.1002/smtd.202400639

PMID:39155797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11740950/

Abstract

Correlative methods to characterize single entities by electrochemistry and microscopy/spectroscopy are increasingly needed to elucidate structure-function relationships of nanomaterials. However, the technical constraints often differ depending on the characterization techniques to be applied in combination. One of the cornerstones of correlative single-entity electrochemistry (SEE) is the substrate, which needs to achieve a high conductivity, low roughness, and electrochemical inertness. This work shows that graphitized sputtered carbon thin films constitute excellent electrodes for SEE while enabling characterization with scanning probe, optical, electron, and X-ray microscopies. Three different correlative SEE experiments using nanoparticles, nanocubes, and 2D TiCT MXene materials are reported to illustrate the potential of using carbon thin film substrates for SEE characterization. The advantages and unique capabilities of SEE correlative strategies are further demonstrated by showing that electrochemically oxidized TiCT MXene display changes in chemical bonding and electrolyte ion distribution.

摘要

为阐明纳米材料的结构-功能关系，越来越需要通过电化学与显微镜/光谱学相结合的方法来表征单个实体。然而，技术限制往往因所结合应用的表征技术而异。相关单实体电化学（SEE）的基石之一是基底，它需要具备高导电性、低粗糙度和电化学惰性。这项工作表明，石墨化溅射碳薄膜构成了用于SEE的优异电极，同时能够通过扫描探针、光学、电子和X射线显微镜进行表征。报道了三个使用纳米颗粒、纳米立方体和二维TiCT MXene材料的不同相关SEE实验，以说明使用碳薄膜基底进行SEE表征的潜力。通过表明电化学氧化的TiCT MXene在化学键合和电解质离子分布方面显示出变化，进一步证明了SEE相关策略的优势和独特能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a23/11740950/42783128c11b/SMTD-9-2400639-g006.jpg

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碳薄膜电极作为用于关联单实体电化学的高性能基底

Carbon Thin-Film Electrodes as High-Performing Substrates for Correlative Single Entity Electrochemistry.

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