On-chip electrocatalytic microdevices

Wenbin Wang; Junlei Qi; Zongxiao Wu; Wei Zhai; Yanghang Pan; Kai Bao; Li Zhai; Jingkun Wu; Chengxuan Ke; Lingzhi Wang; Mengning Ding; Qiyuan He

doi:10.1038/s41596-023-00866-z

On-chip electrocatalytic microdevices

Wenbin Wang (Co-first Author), Junlei Qi (Co-first Author), Zongxiao Wu, Wei Zhai, Yanghang Pan, Kai Bao, Li Zhai, Jingkun Wu, Chengxuan Ke, Lingzhi Wang, Mengning Ding^*, Qiyuan He^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

21 Citations (Scopus)

Abstract

On-chip electrocatalytic microdevices (OCEMs) are an emerging electrochemical platform specialized for investigating nanocatalysts at the microscopic level. The OCEM platform allows high-precision electrochemical measurements at the individual nanomaterial level and, more importantly, offers unique perspectives inaccessible with conventional electrochemical methods. This protocol describes the critical concepts, experimental standardization, operational principles and data analysis of OCEMs. Specifically, standard protocols for the measurement of the electrocatalytic hydrogen evolution reaction of individual 2D nanosheets are introduced with data validation, interpretation and benchmarking. A series of factors (e.g., the exposed area of material, the choice of passivation layer and current leakage) that could have effects on the accuracy and reliability of measurement are discussed. In addition, as an example of the high adaptability of OCEMs, the protocol for in situ electrical transport measurement is detailed. We believe that this protocol will promote the general adoption of the OCEM platform and inspire further development in the near future. This protocol requires essential knowledge in chemical synthesis, device fabrication and electrochemistry. © Springer Nature Limited 2023

Original language	English
Pages (from-to)	2891–2926
Journal	Nature Protocols
Volume	18
Issue number	10
Online published	18 Aug 2023
DOIs	https://doi.org/10.1038/s41596-023-00866-z
Publication status	Published - Oct 2023

Funding

Q.H. is thankful for support through grants (Project 9229079, 9610482 and 7005468) from the City University of Hong Kong and Early Career Scheme Project 21302821 and General Research Fund Project 11314322 from the University Grants Committee of Hong Kong. M.D. acknowledges the support of the Natural Science Foundation of China (Project Nos. 22172075 and 92156024), the Fundamental Research Funds for the Central Universities in China (Project No. 14380273), the Natural Science Foundation of Jiangsu Province (BK20220069) and the Beijing National Laboratory for Molecular Sciences (Project No. BNLMS202107).

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "On-chip electrocatalytic microdevices",

abstract = "On-chip electrocatalytic microdevices (OCEMs) are an emerging electrochemical platform specialized for investigating nanocatalysts at the microscopic level. The OCEM platform allows high-precision electrochemical measurements at the individual nanomaterial level and, more importantly, offers unique perspectives inaccessible with conventional electrochemical methods. This protocol describes the critical concepts, experimental standardization, operational principles and data analysis of OCEMs. Specifically, standard protocols for the measurement of the electrocatalytic hydrogen evolution reaction of individual 2D nanosheets are introduced with data validation, interpretation and benchmarking. A series of factors (e.g., the exposed area of material, the choice of passivation layer and current leakage) that could have effects on the accuracy and reliability of measurement are discussed. In addition, as an example of the high adaptability of OCEMs, the protocol for in situ electrical transport measurement is detailed. We believe that this protocol will promote the general adoption of the OCEM platform and inspire further development in the near future. This protocol requires essential knowledge in chemical synthesis, device fabrication and electrochemistry. {\textcopyright} Springer Nature Limited 2023",

author = "Wenbin Wang and Junlei Qi and Zongxiao Wu and Wei Zhai and Yanghang Pan and Kai Bao and Li Zhai and Jingkun Wu and Chengxuan Ke and Lingzhi Wang and Mengning Ding and Qiyuan He",

year = "2023",

month = oct,

doi = "10.1038/s41596-023-00866-z",

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pages = "2891–2926",

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T1 - On-chip electrocatalytic microdevices

AU - Wang, Wenbin

AU - Qi, Junlei

AU - Wu, Zongxiao

AU - Zhai, Wei

AU - Pan, Yanghang

AU - Bao, Kai

AU - Zhai, Li

AU - Wu, Jingkun

AU - Ke, Chengxuan

AU - Wang, Lingzhi

AU - Ding, Mengning

AU - He, Qiyuan

PY - 2023/10

Y1 - 2023/10

N2 - On-chip electrocatalytic microdevices (OCEMs) are an emerging electrochemical platform specialized for investigating nanocatalysts at the microscopic level. The OCEM platform allows high-precision electrochemical measurements at the individual nanomaterial level and, more importantly, offers unique perspectives inaccessible with conventional electrochemical methods. This protocol describes the critical concepts, experimental standardization, operational principles and data analysis of OCEMs. Specifically, standard protocols for the measurement of the electrocatalytic hydrogen evolution reaction of individual 2D nanosheets are introduced with data validation, interpretation and benchmarking. A series of factors (e.g., the exposed area of material, the choice of passivation layer and current leakage) that could have effects on the accuracy and reliability of measurement are discussed. In addition, as an example of the high adaptability of OCEMs, the protocol for in situ electrical transport measurement is detailed. We believe that this protocol will promote the general adoption of the OCEM platform and inspire further development in the near future. This protocol requires essential knowledge in chemical synthesis, device fabrication and electrochemistry. © Springer Nature Limited 2023

AB - On-chip electrocatalytic microdevices (OCEMs) are an emerging electrochemical platform specialized for investigating nanocatalysts at the microscopic level. The OCEM platform allows high-precision electrochemical measurements at the individual nanomaterial level and, more importantly, offers unique perspectives inaccessible with conventional electrochemical methods. This protocol describes the critical concepts, experimental standardization, operational principles and data analysis of OCEMs. Specifically, standard protocols for the measurement of the electrocatalytic hydrogen evolution reaction of individual 2D nanosheets are introduced with data validation, interpretation and benchmarking. A series of factors (e.g., the exposed area of material, the choice of passivation layer and current leakage) that could have effects on the accuracy and reliability of measurement are discussed. In addition, as an example of the high adaptability of OCEMs, the protocol for in situ electrical transport measurement is detailed. We believe that this protocol will promote the general adoption of the OCEM platform and inspire further development in the near future. This protocol requires essential knowledge in chemical synthesis, device fabrication and electrochemistry. © Springer Nature Limited 2023

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U2 - 10.1038/s41596-023-00866-z

DO - 10.1038/s41596-023-00866-z

M3 - RGC 21 - Publication in refereed journal

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SN - 1754-2189

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JO - Nature Protocols

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On-chip electrocatalytic microdevices

Abstract

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GRF: On-chip Electrocatalytic Microdevice based on 2D Semiconductors for CO2 Reduction Reaction

ECS: On-chip Photoelectrochemical Microdevice for Solar Water Splitting

DON_RMG: On-chip Electrochemical Approach towards CO2 Reduction Reaction - RMGS

Cite this

On-chip electrocatalytic microdevices

Abstract

Funding

RGC Funding Information

UN SDGs

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Other Access Options

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Projects

GRF: On-chip Electrocatalytic Microdevice based on 2D Semiconductors for CO2 Reduction Reaction

ECS: On-chip Photoelectrochemical Microdevice for Solar Water Splitting

DON_RMG: On-chip Electrochemical Approach towards CO2 Reduction Reaction - RMGS

Cite this