Earth-abundant photoelectrodes for water splitting and alternate oxidation reactions: Recent advances and future perspectives

Solar water splitting by means of photoelectrochemical (PEC) cells offers the promise to produce cost-effective renewable and clean fuel from abundant sunlight and water. Lately, the realization of promise of concurrent hydrogen (H2) production along with alternate oxidation reaction (which is less...

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Published in	Progress in materials science Vol. 134; p. 101073
Main Authors	Suryawanshi, Mahesh P., Ghorpade, Uma V., Toe, Cui Ying, Suryawanshi, Umesh P., He, Mingrui, Zhang, Doudou, Jang, Jun Sung, Shin, Seung Wook, Kim, Jin Hyeok, Hao, Xiaojing, Amal, Rose
Format	Journal Article
Language	English
Published	Elsevier Ltd 01.04.2023
Subjects	Alternate oxidation reactions Clean hydrogen production Computational screenings Earth-abundant materials Energy conversion Nanomaterials Photoanode Photocathode Solar water splitting Value-added chemicals products P-doped (ZnxCd1-x)S OCV IMPS DFF PV STH Cu:NiO CBTSSe STO b-BiVO4@a-TiO2-x DFT Alternate oxidation reactions Vo-Co3O4 VBM FeOOH VBO IO AI Nanomaterials DOS PEC-PV AM MOCVD EIS AAO Co-HAO CCZTS S-TNR GLLB TEMPO DHA OER FFCA ACZTS Value-added chemicals products Photocathode a-Si BP SC SnO2@BiVO4/Co-Pi S G@U-LDH@BVO FTIR Energy conversion CZTSSe HPLC CB Mo:BVO NTs CP TA Clean hydrogen production LA Si M:B-Fe2O3 FE-SEM ALD TM ETL N-TiO2 MDH SHE PW9Co PBE HC-STH CQD EVBM BL-BVO mid-IR TA BiOI ML α-Fe2O3 MW VB LSV In:BiVO4 NC Solar water splitting NFs Photoanode FDCA g-C3N4 Computational screenings HTL Eg NP OECs TANF O2 NR Earth-abundant materials NT ABPE NHE RHE LDH CBO Vo rGO OQMD HMA HMF GO/CuTCPP MOD MOF HMFCA Zn:BVO H2 LSPR IPCE MGI PED PEC STEM PC HER CZGTS r-BVO TEM
Online Access	Get full text
ISSN	0079-6425 1873-2208
DOI	10.1016/j.pmatsci.2023.101073

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Abstract	Solar water splitting by means of photoelectrochemical (PEC) cells offers the promise to produce cost-effective renewable and clean fuel from abundant sunlight and water. Lately, the realization of promise of concurrent hydrogen (H2) production along with alternate oxidation reaction (which is less energetically demanding than the water oxidation reaction) has also become a subject of intense global research interests. At present, developing inexpensive, non-toxic, and earth-abundant semiconductor-based photoelectrodes (i.e. photocathode and photoanode) with a high stability is of great importance in achieving economically viable H2 production and value-added chemicals. This review summarizes recent advances in these photoelectrodes along with contemporary understanding of key factors responsible for high solar-to-hydrogen efficiency, device stability, and highlights a promising new research trend of alternate oxidation reactions at photoanodes. First, we outline recent developments of novel photoelectrode materials using high-throughput computational screening integrated with ab-initio calculations. We proceed to discuss the merits and major challenges of these novel and existing photoelectrodes and links the strategies used to overcome these challenges to achieve economically viable solar H2 generation. Several important studies on the emerging new trend of alternate oxidations reactions at photoanodes toward value-added chemicals are then detailed with particular emphasis is placed on dependency of photoanode design on type of organic feedstocks and desired products from the oxidation reaction. We also emphasize the development of tandem devices for overall water splitting using these photoelectrodes with high onset potentials. Finally, we provide not only promising future directions for each material system, but also a critical assessment and outlook on how these earth-abundant photoelectrodes could lead to a potential large-scale implementation of water splitting devices.
AbstractList	Solar water splitting by means of photoelectrochemical (PEC) cells offers the promise to produce cost-effective renewable and clean fuel from abundant sunlight and water. Lately, the realization of promise of concurrent hydrogen (H2) production along with alternate oxidation reaction (which is less energetically demanding than the water oxidation reaction) has also become a subject of intense global research interests. At present, developing inexpensive, non-toxic, and earth-abundant semiconductor-based photoelectrodes (i.e. photocathode and photoanode) with a high stability is of great importance in achieving economically viable H2 production and value-added chemicals. This review summarizes recent advances in these photoelectrodes along with contemporary understanding of key factors responsible for high solar-to-hydrogen efficiency, device stability, and highlights a promising new research trend of alternate oxidation reactions at photoanodes. First, we outline recent developments of novel photoelectrode materials using high-throughput computational screening integrated with ab-initio calculations. We proceed to discuss the merits and major challenges of these novel and existing photoelectrodes and links the strategies used to overcome these challenges to achieve economically viable solar H2 generation. Several important studies on the emerging new trend of alternate oxidations reactions at photoanodes toward value-added chemicals are then detailed with particular emphasis is placed on dependency of photoanode design on type of organic feedstocks and desired products from the oxidation reaction. We also emphasize the development of tandem devices for overall water splitting using these photoelectrodes with high onset potentials. Finally, we provide not only promising future directions for each material system, but also a critical assessment and outlook on how these earth-abundant photoelectrodes could lead to a potential large-scale implementation of water splitting devices.
ArticleNumber	101073
Author	Shin, Seung Wook Amal, Rose Zhang, Doudou Suryawanshi, Mahesh P. Ghorpade, Uma V. Jang, Jun Sung Hao, Xiaojing Toe, Cui Ying Suryawanshi, Umesh P. He, Mingrui Kim, Jin Hyeok
Author_xml	– sequence: 1 givenname: Mahesh P. surname: Suryawanshi fullname: Suryawanshi, Mahesh P. email: m.suryawanshi@unsw.edu.au organization: School of Photovoltaic and Renewable Energy Engineering, University of New South Wales, Sydney, NSW 2052, Australia – sequence: 2 givenname: Uma V. surname: Ghorpade fullname: Ghorpade, Uma V. organization: School of Photovoltaic and Renewable Energy Engineering, University of New South Wales, Sydney, NSW 2052, Australia – sequence: 3 givenname: Cui Ying surname: Toe fullname: Toe, Cui Ying organization: Particles and Catalysis Research Group, School of Chemical Engineering, University of New South Wales, Sydney 2052, Australia – sequence: 4 givenname: Umesh P. surname: Suryawanshi fullname: Suryawanshi, Umesh P. organization: Optoelectronics Convergence Research Center and Department of Materials Science and Engineering, Chonnam National University, 300, Yongbong-Dong, Buk-Gu, Gwangju 61186, South Korea – sequence: 5 givenname: Mingrui surname: He fullname: He, Mingrui organization: School of Photovoltaic and Renewable Energy Engineering, University of New South Wales, Sydney, NSW 2052, Australia – sequence: 6 givenname: Doudou surname: Zhang fullname: Zhang, Doudou organization: Research School of Electrical, Energy and Materials Engineering, The Australian National University, Canberra 2601, Australia – sequence: 7 givenname: Jun Sung surname: Jang fullname: Jang, Jun Sung organization: Optoelectronics Convergence Research Center and Department of Materials Science and Engineering, Chonnam National University, 300, Yongbong-Dong, Buk-Gu, Gwangju 61186, South Korea – sequence: 8 givenname: Seung Wook surname: Shin fullname: Shin, Seung Wook email: swshin@ekr.or.kr organization: Future Agricultural Research Division, Water Resource and Environment Research Group, Rural Research Institute, Korea Rural Community Corporation, Ansan-Si, Gyeonggi-do 15634, South Korea – sequence: 9 givenname: Jin Hyeok surname: Kim fullname: Kim, Jin Hyeok email: jinhyeok@chonnam.ac.kr organization: Optoelectronics Convergence Research Center and Department of Materials Science and Engineering, Chonnam National University, 300, Yongbong-Dong, Buk-Gu, Gwangju 61186, South Korea – sequence: 10 givenname: Xiaojing surname: Hao fullname: Hao, Xiaojing email: xj.hao@unsw.edu.au organization: School of Photovoltaic and Renewable Energy Engineering, University of New South Wales, Sydney, NSW 2052, Australia – sequence: 11 givenname: Rose surname: Amal fullname: Amal, Rose organization: Particles and Catalysis Research Group, School of Chemical Engineering, University of New South Wales, Sydney 2052, Australia
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Snippet	Solar water splitting by means of photoelectrochemical (PEC) cells offers the promise to produce cost-effective renewable and clean fuel from abundant sunlight...
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SubjectTerms	Alternate oxidation reactions Clean hydrogen production Computational screenings Earth-abundant materials Energy conversion Nanomaterials Photoanode Photocathode Solar water splitting Value-added chemicals products
Title	Earth-abundant photoelectrodes for water splitting and alternate oxidation reactions: Recent advances and future perspectives
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