K2HPO4-mediated Photocatalytic H2 Production over NiCoP/RP Heterojunction

In this work, bimetallic NiCoP nanoparticles (NPs) were firstly prepared by a solvothermal method using red phosphorus (RP) as P source, and it was combined with RP nanosheets via a physical grinding process. Investigation indicates that NiCoP has better charge transfer ability and faster H2 releasi...

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Published in	Jiégòu huàxué Vol. 41; no. 6; pp. 2206062 - 2206068
Main Authors	Huang, Junfeng, Li, Chenyang, Hu, Xiaoyun, Fan, Jun, Zhao, Binran, Liu, Enzhou
Format	Journal Article
Language	English
Published	Elsevier B.V 23.06.2022 School of Chemical Engineering/Xi'an Key Laboratory of Special Energy Materials,Northwest University,Xi'an 710069,China%School of Physics,Northwest University,Xi'an 710069,China
Subjects	bimetallic cocatalyst hydrogen K2HPO4 photocatalysis red phosphorus bimetallic cocatalyst K2HPO4 hydrogen photocatalysis red phosphorus
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Abstract	In this work, bimetallic NiCoP nanoparticles (NPs) were firstly prepared by a solvothermal method using red phosphorus (RP) as P source, and it was combined with RP nanosheets via a physical grinding process. Investigation indicates that NiCoP has better charge transfer ability and faster H2 releasing kinetics than the corresponding single metal phosphides alone. 6 wt% NiCoP/RP exhibits an excellent H2 evolution activity in 20 vol.% triethanol-amine/water solution under a 300W Xe-lamp irradiation, and the corresponding H2 production rate is 1535.6 μmol•g−1•h−1, which is 7.4, 3.2 and 2.6 times higher than those of pure RP, 6 wt% Co2P/RP and 6 wt% Ni2P/RP, respectively. In addition, we demonstrate that K2HPO4 can further enhance the H2 evolution kinetics by inducing a new H+ reduction path, when appropriate K2HPO4 is introduced into the reaction solution. The H2 production rate of 6 wt% NiCoP/RP is boosted from 1535.6 to 2793.9 μmol•g−1•h−1 due to the easier combination between H+ and electrons with the assistance of HPO42-. It is 13.4 times higher than that of pure RP. This work demonstrates that bimetallic phosphides with suitable electrolytes can greatly enhance the photocatalytic H2 evolution efficiency. NiCoP is employed to facilitate carrier migration and reduce H2 evolution overpotential of red phosphorus (RP), resulting in a H2 production rate of 1535.6 μmol•g−1•h−1 over 6% NiCoP/RP. The H2 evolution kinetics further increases to 2793.9 μmol•g−1•h−1 by inducing a new H+ reduction path after adding appropriate K2HPO4. [Display omitted]
AbstractList	In this work, bimetallic NiCoP nanoparticles (NPs) were firstly prepared by a solvothermal method using red phosphorus (RP) as P source, and it was combined with RP nanosheets via a physical grinding process. Investigation indicates that NiCoP has better charge transfer ability and faster H2 releasing kinetics than the corresponding single metal phosphides alone. 6 wt% NiCoP/RP exhibits an excellent H2 evolution activity in 20 vol.% triethanol-amine/water solution under a 300W Xe-lamp irradiation, and the corresponding H2 production rate is 1535.6 μmol•g−1•h−1, which is 7.4, 3.2 and 2.6 times higher than those of pure RP, 6 wt% Co2P/RP and 6 wt% Ni2P/RP, respectively. In addition, we demonstrate that K2HPO4 can further enhance the H2 evolution kinetics by inducing a new H+ reduction path, when appropriate K2HPO4 is introduced into the reaction solution. The H2 production rate of 6 wt% NiCoP/RP is boosted from 1535.6 to 2793.9 μmol•g−1•h−1 due to the easier combination between H+ and electrons with the assistance of HPO42-. It is 13.4 times higher than that of pure RP. This work demonstrates that bimetallic phosphides with suitable electrolytes can greatly enhance the photocatalytic H2 evolution efficiency. NiCoP is employed to facilitate carrier migration and reduce H2 evolution overpotential of red phosphorus (RP), resulting in a H2 production rate of 1535.6 μmol•g−1•h−1 over 6% NiCoP/RP. The H2 evolution kinetics further increases to 2793.9 μmol•g−1•h−1 by inducing a new H+ reduction path after adding appropriate K2HPO4. [Display omitted] In this work, bimetallic NiCoP nanoparticles (NPs) were firstly prepared by a solvothermal method using red phosphorus (RP) as P source, and it was combined with RP nanosheets via a physical grinding process. Investigation indicates that NiCoP has better charge transfer ability and faster H2 releasing kinetics than the corresponding single metal phosphides alone. 6 wt％ NiCoP/RP exhibits an excellent H2 evolution activity in 20 vol.％ triethanol-amine/water solution under a 300W Xe-lamp irradiation, and the corresponding H2 production rate is 1535.6 μmol·g-1·h-1, which is 7.4, 3.2 and 2.6 times higher than those of pure RP, 6 wt％ Co2P/RP and 6 wt％ Ni2P/RP, respectively. In addition, we demonstrate that K2HPO4 can further enhancethe H2 evolution kinetics by inducing a new H+ reduction path, when appropriate K2HPO4 is introduced into the reaction solution. The H2 produc-tion rate of 6 wt％ NiCoP/RP is boosted from 1535.6 to 2793.9 μmol·g-1·h-1 due to the easier combination between H+ and electrons with the assistance of HPO42-. It is 13.4 times higher than that of pure RP. This work demonstrates that bimetallic phosphides with suitable electrolytes can greatly enhance the photocatalytic H2 evolution efficiency.
Author	Liu, Enzhou Hu, Xiaoyun Fan, Jun Zhao, Binran Huang, Junfeng Li, Chenyang
AuthorAffiliation	School of Chemical Engineering/Xi'an Key Laboratory of Special Energy Materials,Northwest University,Xi'an 710069,China%School of Physics,Northwest University,Xi'an 710069,China
AuthorAffiliation_xml	– name: School of Chemical Engineering/Xi'an Key Laboratory of Special Energy Materials,Northwest University,Xi'an 710069,China%School of Physics,Northwest University,Xi'an 710069,China
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Keywords	bimetallic cocatalyst K2HPO4 hydrogen photocatalysis red phosphorus
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Snippet	In this work, bimetallic NiCoP nanoparticles (NPs) were firstly prepared by a solvothermal method using red phosphorus (RP) as P source, and it was combined...
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SubjectTerms	bimetallic cocatalyst hydrogen K2HPO4 photocatalysis red phosphorus
Title	K2HPO4-mediated Photocatalytic H2 Production over NiCoP/RP Heterojunction
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