Black Phosphorus/WS2-TM (TM: Ni, Co) Heterojunctions for Photocatalytic Hydrogen Evolution under Visible Light Illumination

Black phosphorus (BP) has recently emerged as a versatile photocatalyst owing to its unique photophysical properties and tunable bandgap. Nonetheless, the rapid recombination of the photogenerated charges of pristine BP samples has significantly hindered its practical applications in photocatalysis....

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Veröffentlicht in:	Catalysts 2023-06, Vol.13 (6), p.1006
Hauptverfasser:	Acar, Eminegül Genc, Yılmaz, Seda, Eroglu, Zafer, Çekceoğlu, İlknur Aksoy, Aslan, Emre, Patır, İmren Hatay, Metin, Onder
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Schlagworte:	Catalysts Catalytic activity Chemical reactions Chemical reduction Chemical synthesis Efficiency Electromagnetic absorption Heterojunctions Hydrogen Hydrogen evolution reactions Hydrogen production Investigations Light Light irradiation Morphology Nanocomposites Nanoparticles Oxidation Phosphorus Photocatalysis Semiconductors Transition metals Tungsten disulfide
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description	Black phosphorus (BP) has recently emerged as a versatile photocatalyst owing to its unique photophysical properties and tunable bandgap. Nonetheless, the rapid recombination of the photogenerated charges of pristine BP samples has significantly hindered its practical applications in photocatalysis. Herein, we report, for the first time, the effect of transition metal nanoparticles (Ni and Co) as co-catalysts on the photocatalytic activity of BP/tungsten disulfide (WS2) binary heterojunctions (BP/WS2-TM (TM: Ni, Co)) in the hydrogen evolution reaction (HER) under visible light irradiation (λ > 420 nm). Ternary heterojunctions named BP/WS2-TM (TM: Ni, Co) were synthesized via a chemical reduction method, leading to the formation of an S-scheme heterojunction, in which BP acts as a reduction catalyst and WS2 serves as an oxidation catalyst. BP/WS2-Ni and BP/WS2-Co performed substantial amounts of hydrogen generation of 9.53 mmol h−1g−1 and 12.13 mmol h−1g−1, respectively. Moreover, BP/WS2-Co exhibited about 5 and 15 times higher photocatalytic activity compared to the binary BP/WS2 heterojunctions and pristine BP, respectively. The enhanced photocatalytic activity of the heterojunction catalysts is attributed to the extended light absorption ability, enhanced charge separation, and larger active sites. This study is the first example of photocatalytic hydrogen evolution from water by using Ni- and Co-doped binary BP/WS2 heterojunctions.
doi_str_mv	10.3390/catal13061006
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Nonetheless, the rapid recombination of the photogenerated charges of pristine BP samples has significantly hindered its practical applications in photocatalysis. Herein, we report, for the first time, the effect of transition metal nanoparticles (Ni and Co) as co-catalysts on the photocatalytic activity of BP/tungsten disulfide (WS2) binary heterojunctions (BP/WS2-TM (TM: Ni, Co)) in the hydrogen evolution reaction (HER) under visible light irradiation (λ > 420 nm). Ternary heterojunctions named BP/WS2-TM (TM: Ni, Co) were synthesized via a chemical reduction method, leading to the formation of an S-scheme heterojunction, in which BP acts as a reduction catalyst and WS2 serves as an oxidation catalyst. BP/WS2-Ni and BP/WS2-Co performed substantial amounts of hydrogen generation of 9.53 mmol h−1g−1 and 12.13 mmol h−1g−1, respectively. Moreover, BP/WS2-Co exhibited about 5 and 15 times higher photocatalytic activity compared to the binary BP/WS2 heterojunctions and pristine BP, respectively. The enhanced photocatalytic activity of the heterojunction catalysts is attributed to the extended light absorption ability, enhanced charge separation, and larger active sites. This study is the first example of photocatalytic hydrogen evolution from water by using Ni- and Co-doped binary BP/WS2 heterojunctions.</description><identifier>ISSN: 2073-4344</identifier><identifier>EISSN: 2073-4344</identifier><identifier>DOI: 10.3390/catal13061006</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Catalysts ; Catalytic activity ; Chemical reactions ; Chemical reduction ; Chemical synthesis ; Efficiency ; Electromagnetic absorption ; Heterojunctions ; Hydrogen ; Hydrogen evolution reactions ; Hydrogen production ; Investigations ; Light ; Light irradiation ; Morphology ; Nanocomposites ; Nanoparticles ; Oxidation ; Phosphorus ; Photocatalysis ; Semiconductors ; Transition metals ; Tungsten disulfide</subject><ispartof>Catalysts, 2023-06, Vol.13 (6), p.1006</ispartof><rights>2023 by the authors. Licensee MDPI, Basel, Switzerland. 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subjects	Catalysts Catalytic activity Chemical reactions Chemical reduction Chemical synthesis Efficiency Electromagnetic absorption Heterojunctions Hydrogen Hydrogen evolution reactions Hydrogen production Investigations Light Light irradiation Morphology Nanocomposites Nanoparticles Oxidation Phosphorus Photocatalysis Semiconductors Transition metals Tungsten disulfide
title	Black Phosphorus/WS2-TM (TM: Ni, Co) Heterojunctions for Photocatalytic Hydrogen Evolution under Visible Light Illumination
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