用于微升反应的分子水平光谱电化学研究的 SERS 和电化学活性的 3D 等离子体液态大理石。

SERS- and Electrochemically Active 3D Plasmonic Liquid Marbles for Molecular-Level Spectroelectrochemical Investigation of Microliter Reactions.

机构信息

Division of Chemistry and Biological Chemistry, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore, 637371, Singapore.

Institute of Materials Research and Engineering, Agency for Science, Technology and Research, A*STAR, 2 Fusionopolis Way, Innovis, No. 08-03, Singapore, 138634, Singapore.

出版信息

Angew Chem Int Ed Engl. 2017 Jul 17;56(30):8813-8817. doi: 10.1002/anie.201704433. Epub 2017 Jun 14.

DOI:10.1002/anie.201704433

PMID:28544200

Abstract

Liquid marbles are emergent microreactors owing to their isolated environment and the flexibility of materials used. Plasmonic liquid marbles (PLMs) are demonstrated as the smallest spectroelectrochemical microliter-scale reactor for concurrent spectro- and electrochemical analyses. The three-dimensional Ag shell of PLMs are exploited as a bifunctional surface-enhanced Raman scattering (SERS) platform and working electrode for redox process modulation. The combination of SERS and electrochemistry (EC) capabilities enables in situ molecular read-out of transient electrochemical species, and elucidate the potential-dependent and multi-step reaction dynamics. The 3D configuration of our PLM-based EC-SERS system exhibits 2-fold and 10-fold superior electrochemical and SERS performance than conventional 2D platforms. The rich molecular-level electrochemical insights and excellent EC-SERS capabilities offered by our 3D spectroelectrochemical system are pertinent in charge transfer processes.

摘要

液滴球是一种新兴的微反应器，因为其具有隔离的环境和所使用材料的灵活性。等离子体液滴球（PLM）被证明是最小的用于同时进行光谱和电化学分析的微升规模的光电化学微型反应器。PLM 的三维 Ag 壳被用作用于氧化还原过程调制的双功能表面增强拉曼散射（SERS）平台和工作电极。SERS 和电化学（EC）功能的结合能够对瞬态电化学物种进行原位分子读出，并阐明与电位相关的多步反应动力学。我们基于 PLM 的 EC-SERS 系统的 3D 结构表现出比传统 2D 平台高出 2 倍和 10 倍的电化学和 SERS 性能。我们的 3D 光电化学系统提供的丰富的分子水平的电化学见解和出色的 EC-SERS 功能与电荷转移过程相关。

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用于微升反应的分子水平光谱电化学研究的 SERS 和电化学活性的 3D 等离子体液态大理石。

SERS- and Electrochemically Active 3D Plasmonic Liquid Marbles for Molecular-Level Spectroelectrochemical Investigation of Microliter Reactions.

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