A hydrogen evolution reaction determination system integrated high electrocatalyst palladium nano-electrode ensemble

Chun Mao Chen; Ming-Long Yeh; Chia Yen Lee; Ya Ting Chuang; Che Hsin Lin

doi:10.1109/ICSENS.2009.5398184

A hydrogen evolution reaction determination system integrated high electrocatalyst palladium nano-electrode ensemble

Chun Mao Chen, Ming-Long Yeh, Chia Yen Lee, Ya Ting Chuang, Che Hsin Lin

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

1 Citation (Scopus)

Abstract

The aim of this work is to develop a high electrocatalyst system for hydrogen evolution utilizing palladium electrode ensemble (Pd-NEE). The work proposes a novel fabrication process to fabricate Pd-NEE using electroless deposition of Pd in a thin porous polycarbonate (PC) film for high performance electrochemical detection. Scanning electron microscopy (SEM) in conjunction with energy dispersive X-ray spectroscopy (EDS) are used to characterize the morphology and composition of Pd-NEE. It shows the best performance for hydrogen evolution reaction on Pd-NEE than other electrodes including bulk Pd, bulk Au and gold nanoelectrode ensemble. The Pd-NEE has a linear peak current response of the removal of adsorbed hydrogen over the tested sample concentration range. The effect of scan rate for voltammetric analysis is investigated. It is found that peak currents decrease as the scan rate from 0.5-0.05 V/s, but increase as the scan rate is lower than 0.05 V/s. It is demonstrated that hydrogen absorption and desorption on Pd-NEE is faster than that on other materials. A high electrocatalyst system is developed for hydrogen evolution reaction (HER).

Original language	English
Title of host publication	IEEE Sensors 2009 Conference - SENSORS 2009
Pages	222-225
Number of pages	4
DOIs	https://doi.org/10.1109/ICSENS.2009.5398184
Publication status	Published - 2009 Dec 1
Event	IEEE Sensors 2009 Conference - SENSORS 2009 - Christchurch, New Zealand Duration: 2009 Oct 25 → 2009 Oct 28

Publication series

Name	Proceedings of IEEE Sensors

Other

Other	IEEE Sensors 2009 Conference - SENSORS 2009
Country/Territory	New Zealand
City	Christchurch
Period	09-10-25 → 09-10-28

All Science Journal Classification (ASJC) codes

Electrical and Electronic Engineering

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10.1109/ICSENS.2009.5398184

Cite this

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title = "A hydrogen evolution reaction determination system integrated high electrocatalyst palladium nano-electrode ensemble",

abstract = "The aim of this work is to develop a high electrocatalyst system for hydrogen evolution utilizing palladium electrode ensemble (Pd-NEE). The work proposes a novel fabrication process to fabricate Pd-NEE using electroless deposition of Pd in a thin porous polycarbonate (PC) film for high performance electrochemical detection. Scanning electron microscopy (SEM) in conjunction with energy dispersive X-ray spectroscopy (EDS) are used to characterize the morphology and composition of Pd-NEE. It shows the best performance for hydrogen evolution reaction on Pd-NEE than other electrodes including bulk Pd, bulk Au and gold nanoelectrode ensemble. The Pd-NEE has a linear peak current response of the removal of adsorbed hydrogen over the tested sample concentration range. The effect of scan rate for voltammetric analysis is investigated. It is found that peak currents decrease as the scan rate from 0.5-0.05 V/s, but increase as the scan rate is lower than 0.05 V/s. It is demonstrated that hydrogen absorption and desorption on Pd-NEE is faster than that on other materials. A high electrocatalyst system is developed for hydrogen evolution reaction (HER).",

author = "Chen, {Chun Mao} and Ming-Long Yeh and Lee, {Chia Yen} and Chuang, {Ya Ting} and Lin, {Che Hsin}",

year = "2009",

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doi = "10.1109/ICSENS.2009.5398184",

language = "English",

isbn = "9781424445486",

series = "Proceedings of IEEE Sensors",

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}

Chen, CM, Yeh, M-L, Lee, CY, Chuang, YT & Lin, CH 2009, A hydrogen evolution reaction determination system integrated high electrocatalyst palladium nano-electrode ensemble. in IEEE Sensors 2009 Conference - SENSORS 2009., 5398184, Proceedings of IEEE Sensors, pp. 222-225, IEEE Sensors 2009 Conference - SENSORS 2009, Christchurch, New Zealand, 09-10-25. https://doi.org/10.1109/ICSENS.2009.5398184

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AU - Chen, Chun Mao

AU - Yeh, Ming-Long

AU - Lee, Chia Yen

AU - Chuang, Ya Ting

AU - Lin, Che Hsin

PY - 2009/12/1

Y1 - 2009/12/1

N2 - The aim of this work is to develop a high electrocatalyst system for hydrogen evolution utilizing palladium electrode ensemble (Pd-NEE). The work proposes a novel fabrication process to fabricate Pd-NEE using electroless deposition of Pd in a thin porous polycarbonate (PC) film for high performance electrochemical detection. Scanning electron microscopy (SEM) in conjunction with energy dispersive X-ray spectroscopy (EDS) are used to characterize the morphology and composition of Pd-NEE. It shows the best performance for hydrogen evolution reaction on Pd-NEE than other electrodes including bulk Pd, bulk Au and gold nanoelectrode ensemble. The Pd-NEE has a linear peak current response of the removal of adsorbed hydrogen over the tested sample concentration range. The effect of scan rate for voltammetric analysis is investigated. It is found that peak currents decrease as the scan rate from 0.5-0.05 V/s, but increase as the scan rate is lower than 0.05 V/s. It is demonstrated that hydrogen absorption and desorption on Pd-NEE is faster than that on other materials. A high electrocatalyst system is developed for hydrogen evolution reaction (HER).

AB - The aim of this work is to develop a high electrocatalyst system for hydrogen evolution utilizing palladium electrode ensemble (Pd-NEE). The work proposes a novel fabrication process to fabricate Pd-NEE using electroless deposition of Pd in a thin porous polycarbonate (PC) film for high performance electrochemical detection. Scanning electron microscopy (SEM) in conjunction with energy dispersive X-ray spectroscopy (EDS) are used to characterize the morphology and composition of Pd-NEE. It shows the best performance for hydrogen evolution reaction on Pd-NEE than other electrodes including bulk Pd, bulk Au and gold nanoelectrode ensemble. The Pd-NEE has a linear peak current response of the removal of adsorbed hydrogen over the tested sample concentration range. The effect of scan rate for voltammetric analysis is investigated. It is found that peak currents decrease as the scan rate from 0.5-0.05 V/s, but increase as the scan rate is lower than 0.05 V/s. It is demonstrated that hydrogen absorption and desorption on Pd-NEE is faster than that on other materials. A high electrocatalyst system is developed for hydrogen evolution reaction (HER).

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A hydrogen evolution reaction determination system integrated high electrocatalyst palladium nano-electrode ensemble

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