The Structural Effect of Electrode Mesh on Hydrogen Evolution Reaction Performance for Alkaline Water Electrolysis

Hae In Lee; Hae In Lee; Hyun-Seok Cho; MinJoong Kim; Jae Hun Lee; ChangSoo Lee; Sechan Lee; Sang-Kyung Kim; Sang-Kyung Kim; Chang-Hee Kim; Kwang Bok Yi; Kwang Bok Yi; Won-Chul Cho; Won-Chul Cho

doi:10.3389/fchem.2021.787787

Frontiers in Chemistry (Nov 2021)

The Structural Effect of Electrode Mesh on Hydrogen Evolution Reaction Performance for Alkaline Water Electrolysis

Hae In Lee,
Hae In Lee,
Hyun-Seok Cho,
MinJoong Kim,
Jae Hun Lee,
ChangSoo Lee,
Sechan Lee,
Sang-Kyung Kim,
Sang-Kyung Kim,
Chang-Hee Kim,
Kwang Bok Yi,
Kwang Bok Yi,
Won-Chul Cho,
Won-Chul Cho

Affiliations

Hae In Lee: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Hae In Lee: Graduate School of Energy Science and Technology, Chungnam National University (CNU), Daejeon, South Korea
Hyun-Seok Cho: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
MinJoong Kim: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Jae Hun Lee: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
ChangSoo Lee: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Sechan Lee: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Sang-Kyung Kim: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Sang-Kyung Kim: Department of Advanced Energy and Technology, Korea University of Science and Technology (UST), Daejeon, South Korea
Chang-Hee Kim: Department of Hydrogen Energy, Korea Institute of Energy Technology (KENTECH), Naju-si, South Korea
Kwang Bok Yi: Graduate School of Energy Science and Technology, Chungnam National University (CNU), Daejeon, South Korea
Kwang Bok Yi: Department of Chemical Engineering Education, Chungnam National University (CNU), Daejeon, South Korea
Won-Chul Cho: Hydrogen Research Department, Korea Institute of Energy Research (KIER), Daejeon, South Korea
Won-Chul Cho: Graduate School of Energy Science and Technology, Chungnam National University (CNU), Daejeon, South Korea

DOI: https://doi.org/10.3389/fchem.2021.787787
Journal volume & issue: Vol. 9

Abstract

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Alkaline water electrolysis (AWE) is a mature water electrolysis technology that can produce green hydrogen most economically. This is mainly attributed to the use of Ni-based materials that are easy to process and inexpensive. The nickel-based meshes with various structures such as woven mesh and expanded mesh are widely used as electrode in the AWE due to its common availability and easy fabrication. However, the morphological effect of meshes on hydrogen evolution reaction (HER) performance has not been studied. Here a new parameter to determine the structural effect of mesh on HER performance was first proposed. The key factors of the parameter were found to be the strand width, pore width and the strand surface area. The woven mesh with the ratio of pore width to strand width that converges to 1 showed the lowest the overpotential. The expanded mesh with the higher the structural surface area exhibited the lowest the overpotential. This study will help to choose an optimal structure for the mesh with the HER electrode.

Published in Frontiers in Chemistry

ISSN: 2296-2646 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science: Chemistry
Website: http://journal.frontiersin.org/journal/chemistry

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