Graphical Abstract Figure
Issue Section:
Technical Brief
Abstract
Enabling a hydrogen fuel-based economy is reliant on the discovery of materials that catalyze the electrolysis of water which requires low-cost catalytic electrodes to improve the kinetics of the oxygen evolution reaction. Fe2.5Ni2.5Sn3, was prepared by arc-melting and electrochemical studies were conducted to evaluate its ability to catalyze the oxygen evolution reaction. Potentiodynamic polarization testing revealed that the Fe2.5Ni2.5Sn3 alloy had a Tafel slope of 48 mV/decade and required an overpotential of 326 mV in order to obtain a current density of 10 mA/cm2. X-ray photoelectron spectroscopy studies indicated that the native oxide present on the surface became hydrated upon subjecting it to oxygen evolution studies.
Issue Section:
Technical Brief
References
1.
Felseghi
, R.-A.
, Carcadea
, E.
, Raboaca
, M. S.
, Trufin
, C. N.
, and Filote
, C.
, 2019
, “Hydrogen Fuel Cell Technology for the Sustainable Future of Stationary Applications
,” Energies
, 12
(23
), p. 4593
. 2.
Tsai
, F.-T.
, Deng
, Y.-T.
, Pao
, C.-W.
, Chen
, J.-L.
, Lee
, J.-F.
, Lai
, K.-T.
, and Liaw
, W.-F.
, 2020
, “The HER/OER Mechanistic Study of an FeCoNi-Based Electrocatalyst for Alkaline Water Splitting
,” J. Mater. Chem. A
, 8
(19
), pp. 9939
–9950
. 3.
Jamesh
, M.-I.
, and Harb
, M.
, 2021
, “Tuning the Electronic Structure of the Earth-Abundant Electrocatalysts for Oxygen Evolution Reaction (OER) to Achieve Efficient Alkaline Water Splitting—A Review
,” J. Energy Chem.
, 56
, pp. 299
–342
. 4.
Lei
, C.
, Lyu
, S.
, Si
, J.
, Yang
, B.
, Li
, Z.
, Lei
, L.
, Wen
, Z.
, Wu
, G.
, and Hou
, Y.
, 2019
, “Nanostructured Carbon Based Heterogeneous Electrocatalysts for Oxygen Evolution Reaction in Alkaline Media
,” ChemCatChem
, 11
(24
), pp. 5855
–5874
. 5.
Meng
, Y.
, Song
, W.
, Huang
, H.
, Ren
, Z.
, Chen
, S.-Y.
, and Suib
, S. L.
, 2014
, “Structure–Property Relationship of Bifunctional MnO2 Nanostructures: Highly Efficient, Ultra-Stable Electrochemical Water Oxidation and Oxygen Reduction Reaction Catalysts Identified in Alkaline Media
,” J. Am. Chem. Soc.
, 136
(32
), pp. 11452
–11464
. 6.
Zhang
, Q.
, Hu
, Y.
, Wu
, H.
, Zhao
, X.
, Wang
, M.
, Wang
, S.
, Feng
, R.
, et al, 2023
, “Entropy-Stabilized Multicomponent Porous Spinel Nanowires of NiFeXO4 (X = Fe, Ni, Al, Mo, Co, Cr) for Efficient and Durable Electrocatalytic Oxygen Evolution Reaction in Alkaline Medium
,” ACS Nano
, 17
(2
), pp. 1485
–1494
. 7.
Ding
, J.
, Ji
, S.
, Wang
, H.
, Linkov
, V.
, Gai
, H.
, Liu
, F.
, Liu
, Q.
, and Wang
, R.
, 2019
, “N-Doped 3D Porous Ni/C Bifunctional Electrocatalysts for Alkaline Water Electrolysis
,” ACS Sustain. Chem. Eng.
, 7
(4
), pp. 3974
–3981
. 8.
Zhong
, H.
, Campos-Roldán
, C.
, Zhao
, Y.
, Zhang
, S.
, Feng
, Y.
, and Alonso-Vante
, N.
, 2018
, “Recent Advances of Cobalt-Based Electrocatalysts for Oxygen Electrode Reactions and Hydrogen Evolution Reaction
,” Catalysts
, 8
(11
), p. 559
. 9.
Jamesh
, M.-I.
, and Sun
, X.
, 2018
, “Recent Progress on Earth Abundant Electrocatalysts for Oxygen Evolution Reaction (OER) in Alkaline Medium to Achieve Efficient Water Splitting—A Review
,” J. Power Sources
, 400
, pp. 31
–68
. 10.
McCrory
, C. C. L.
, Jung
, S.
, Ferrer
, I. M.
, Chatman
, S. M.
, Peters
, J. C.
, and Jaramillo
, T. F.
, 2015
, “Benchmarking Hydrogen Evolving Reaction and Oxygen Evolving Reaction Electrocatalysts for Solar Water Splitting Devices
,” J. Am. Chem. Soc.
, 137
(13
), pp. 4347
–4357
. 11.
Anantharaj
, S.
, Kundu
, S.
, and Noda
, S.
, 2021
, ““The Fe Effect”: A Review Unveiling the Critical Roles of Fe in Enhancing OER Activity of Ni and Co Based Catalysts
,” Nano Energy
, 80
, p. 105514
. 12.
Stevens
, M. B.
, Trang
, C. D. M.
, Enman
, L. J.
, Deng
, J.
, and Boettcher
, S. W.
, 2017
, “Reactive Fe-Sites in Ni/Fe (Oxy)Hydroxide are Responsible for Exceptional Oxygen Electrocatalysis Activity
,” J. Am. Chem. Soc.
, 139
(33
), pp. 11361
–11364
. 13.
Li
, N.
, Bediako
, D. K.
, Hadt
, R. G.
, Hayes
, D.
, Kempa
, T. J.
, Von Cube
, F.
, Bell
, D. C.
, Chen
, L. X.
, and Nocera
, D. G.
, 2017
, “Influence of Iron Doping on Tetravalent Nickel Content in Catalytic Oxygen Evolving Films
,” Proc. Natl. Acad. Sci. U.S.A.
, 114
(7
), pp. 1486
–1491
. 14.
Xiao
, H.
, Shin
, H.
, and Goddard III
, W. A.
, 2018
, “Synergy Between Fe and Ni in the Optimal Performance of (Ni, Fe) OOH Catalysts for the Oxygen Evolution Reaction
,” Proc. Natl. Acad. Sci. U.S.A.
, 115
(23
), pp. 5872
–5877
. 15.
Klaus
, S.
, Cai
, Y.
, Louie
, M. W.
, Trotochaud
, L.
, and Bell
, A. T.
, 2015
, “Effects of Fe Electrolyte Impurities on Ni(OH)2/NiOOH Structure and Oxygen Evolution Activity
,” J. Phys. Chem. C
, 119
(13
), pp. 7243
–7254
. 16.
Sverdrup
, H. U.
, and Olafsdottir
, A. H.
, 2019
, “Assessing the Long-Term Global Sustainability of the Production and Supply for Stainless Steel
,” Biophys. Econ. Resour. Qual.
, 4
(2
), p. 8
. 17.
Bera
, K.
, Karmakar
, A.
, Karthick
, K.
, Sankar
, S. S.
, Kumaravel
, S.
, Madhu
, R.
, and Kundu
, S.
, 2021
, “Enhancement of the OER Kinetics of the Less-Explored α-MnO2 Via Nickel Doping Approaches in Alkaline Medium
,” Inorg. Chem.
, 60
(24
), pp. 19429
–19439
. 18.
Zhang
, Y. J.
, Wang
, W. H.
, Zhang
, H. G.
, Liu
, E. K.
, Ma
, R. S.
, and Wu
, G. H.
, 2013
, “Structure and Magnetic Properties of Fe2NiZ (Z = Al, Ga, Si and Ge) Heusler Alloys
,” Phys. B
, 420
, pp. 86
–89
. 19.
Moore
, C.
, and Chidambaram
, D.
, 2023
, “Investigation of Cobalt Alloy L605 as an Effective Oxygen Evolution Reaction Catalyst
,” Mater. Lett.
, 330
, p. 133397
. 20.
Peng
, J.
, Lin
, L.
, Li
, Y.
, Yu
, S.
, and Chen
, L.
, 2022
, “Compositional Modulation by Elemental Leaching and Chronoamperometric Aging of 4J36 INVAR Alloy for Facile and Efficient Oxygen Evolution Reaction
,” J. Alloys Compd.
, 911
, p. 165059
. 21.
Lindstrom
, M. L.
, Gakhar
, R.
, Raja
, K.
, and Chidambaram
, D.
, 2020
, “Facile Synthesis of an Efficient Ni–Fe–Co Based Oxygen Evolution Reaction Electrocatalyst
,” J. Electrochem. Soc.
, 167
(4
), p. 046507
. 22.
Zheng
, X.
, Yang
, J.
, Xu
, Z.
, Wang
, Q.
, Wu
, J.
, Zhang
, E.
, Dou
, S.
, Sun
, W.
, Wang
, D.
, and Li
, Y.
, 2022
, “Ru–Co Pair Sites Catalyst Boosts the Energetics for the Oxygen Evolution Reaction
,” Angew. Chem., Int. Ed.
, 61
(32
), p. e202205946
. 23.
Li
, H.
, He
, F.
, Li
, Z.
, Du
, Z.
, and Tang
, K.
, 2023
, “In Situ Grown CoMn-Based Metal–Organic Framework on Nickel Foam as Efficient and Robust Electrodes for Electrochemical Oxygen Evolution Reaction
,” ASME J. Electrochem. Energy Convers. Storage
, 20
(3
), p. 031003
. 24.
Yang
, Y.-W.
, and Song
, B.-Y.
, 2022
, “A Novel Phosphide Derived From Metal-Organic Frameworks as Cost-Effective Electrocatalyst for Oxygen Evolution Reaction
,” ASME J. Electrochem. Energy Convers. Storage
, 19
(1
), p. 010907
. 25.
Hu
, F.
, Zhu
, S.
, Chen
, S.
, Li
, Y.
, Ma
, L.
, Wu
, T.
, Zhang
, Y.
, Wang
, C.
, Liu
, C.
, and Yang
, X.
, 2017
, “Amorphous Metallic NiFeP: A Conductive Bulk Material Achieving High Activity for Oxygen Evolution Reaction in Both Alkaline and Acidic Media
,” Adv. Mater.
, 29
(32
), p. 1606570
. 26.
Chandrasekaran
, S.
, Ma
, D.
, Ge
, Y.
, Deng
, L.
, Bowen
, C.
, Roscow
, J.
, Zhang
, Y.
, et al, 2020
, “Electronic Structure Engineering on Two-Dimensional (2D) Electrocatalytic Materials for Oxygen Reduction, Oxygen Evolution, and Hydrogen Evolution Reactions
,” Nano Energy
, 77
, p. 105080
. 27.
Biesinger
, M. C.
, Payne
, B. P.
, Grosvenor
, A. P.
, Lau
, L. W. M.
, Gerson
, A. R.
, and Smart
, R. S. C.
, 2011
, “Resolving Surface Chemical States in XPS Analysis of First Row Transition Metals, Oxides and Hydroxides: Cr, Mn, Fe, Co and Ni
,” Appl. Surf. Sci.
, 257
(7
), pp. 2717
–2730
. 28.
Suzuki
, S.
, Yanagihara
, K.
, and Hirokawa
, K.
, 2000
, “XPS Study of Oxides Formed on the Surface of High-Purity Iron Exposed to Air
,” Surf. Interface Anal.
, 30
(1
), pp. 372
–376
. 29.
Naumkin
, A.
, Kraut-Vass
, A.
, Gaarenstroom
, S.
, and Powell
, C.
, 2012
, “NIST X-Ray Photoelectron Spectroscopy Database
,” NIST.Copyright © 2024 by ASME
You do not currently have access to this content.