Photoelectrochemical concurrent hydrogen generation and heavy metal recovery from polluted acidic mine water

Ben Jones; Katherine R. Davies; Michael G. Allan; S. Anantharaj; Ian Mabbett; Trystan Watson; James R. Durrant; Moritz F. Kuehnel; Sudhagar Pitchaimuthu

doi:10.1039/d1se00232e

Photoelectrochemical concurrent hydrogen generation and heavy metal recovery from polluted acidic mine water

Ben Jones, Katherine R. Davies, Michael G. Allan, S. Anantharaj, Ian Mabbett, Trystan Watson, James R. Durrant, Moritz F. Kuehnel, Sudhagar Pitchaimuthu^*

^*この研究の対応する著者

理工学術院総合研究所

研究成果: Article › 査読

2 被引用数 (Scopus)

抄録

The feasibility of a solar-driven photoelectrochemical process to generate hydrogen fuel from metal mine polluted water while simultaneously recovering heavy metals has been explored. Electron transport from the photoanode to the cathode plays a key role in generating hydrogen (37.6 μmol h⁻¹cm⁻²at 0.2 V RHE, 1 sun illumination), and scavenging Zn²⁺ions in the form of ZnO.

本文言語	English
ページ（範囲）	3084-3091
ページ数	8
ジャーナル	Sustainable Energy and Fuels
巻	5
号	12
DOI	https://doi.org/10.1039/d1se00232e
出版ステータス	Published - 2021 6月 21

ASJC Scopus subject areas

再生可能エネルギー、持続可能性、環境
燃料技術
エネルギー工学および電力技術

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

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10.1039/d1se00232e

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title = "Photoelectrochemical concurrent hydrogen generation and heavy metal recovery from polluted acidic mine water",

abstract = "The feasibility of a solar-driven photoelectrochemical process to generate hydrogen fuel from metal mine polluted water while simultaneously recovering heavy metals has been explored. Electron transport from the photoanode to the cathode plays a key role in generating hydrogen (37.6 μmol h−1cm−2at 0.2 V RHE, 1 sun illumination), and scavenging Zn2+ions in the form of ZnO.",

author = "Ben Jones and Davies, {Katherine R.} and Allan, {Michael G.} and S. Anantharaj and Ian Mabbett and Trystan Watson and Durrant, {James R.} and Kuehnel, {Moritz F.} and Sudhagar Pitchaimuthu",

note = "Funding Information: This work was part-funded by the European Social Fund (ESF) through the European Union's Convergence programme administered by the Welsh Government (KESS-II program) and Ser Cymru-II Rising Star Fellowship (80761-SU-102 (West)). We thank Natural Resources Wales (NRW) for partial nancial support to demonstrate this project through KESS-II program at Swansea University. SP sincerely thanks Peter Stanley for providing the AMD water samples from different Mid Wales regions, UK. MFK acknowledges startup funding from Swansea University. MGA thanks EPSRC for a DTP studentship (EP/ R51312x/1). Funding Information: This work was part-funded by the European Social Fund (ESF) through the European Union's Convergence programme administered by the Welsh Government (KESS-II program) and Ser Cymru-II Rising Star Fellowship (80761-SU-102 (West)). We thank Natural Resources Wales (NRW) for partial financial support to demonstrate this project through KESS-II program at Swansea University. SP sincerely thanks Peter Stanley for providing the AMD water samples from different Mid Wales regions, UK. MFK acknowledges startup funding from Swansea University. MGA thanks EPSRC for a DTP studentship (EP/R51312x/1). Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2021.",

year = "2021",

month = jun,

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doi = "10.1039/d1se00232e",

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AU - Watson, Trystan

AU - Durrant, James R.

AU - Kuehnel, Moritz F.

AU - Pitchaimuthu, Sudhagar

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Photoelectrochemical concurrent hydrogen generation and heavy metal recovery from polluted acidic mine water

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ASJC Scopus subject areas

UN SDG

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