Synthesis of MoS2/MoO3 nano-heterojunction towards enhanced photocatalytic activity under LED light irradiation via in situ oxidation sintering

Synthesis of MoS2/MoO3 nano-heterojunction towards enhanced photocatalytic activity under LED light irradiation via in situ oxidation sintering

The MoS2/MoO3 nano-heterojunction photocatalyst was synthesized via the in situ oxidation sintering method. The properties of the samples were characterized by XRD, SEM, EDX, TEM, UV-vis, PL, FT-IR, BET and electrochemical techniques. The MoS2/MoO3 nano-heterojunction (MS-400) exhibited significantl...

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Veröffentlicht in:RSC advances 2024-10, Vol.14 (47), p.34606-34610
Hauptverfasser: Qiu, Jianfeng, Liu, Yanping, Cao, Minxian, Xie, Luqi, Liu, Yongkun, Li, Hongwen, Lu, Junqiang, Liang, Qifeng, Pan, Jiaqi, Li, Chaorong
Format: Artikel
Sprache:eng
Schlagworte:
Catalytic activity
Chemistry
Heterojunctions
Light irradiation
Molybdenum disulfide
Molybdenum trioxide
Oxidation
Photocatalysis
Photodegradation
Potential gradient
Rhodamine
Sintering
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Zusammenfassung:The MoS2/MoO3 nano-heterojunction photocatalyst was synthesized via the in situ oxidation sintering method. The properties of the samples were characterized by XRD, SEM, EDX, TEM, UV-vis, PL, FT-IR, BET and electrochemical techniques. The MoS2/MoO3 nano-heterojunction (MS-400) exhibited significantly better photocatalytic activity toward Rhodamine B degradation (0.42634 h−1) than monomer MoS2 (∼8.0-folds) and MoO3 (∼25.6-folds). This is mainly attributed to the MoS2/MoO3 heterojunction interface having an appropriate potential gradient that can promote the interface carrier transportation/separation to optimize the carrier efficiency and increase the solar absorption and specific surface areas/active sites via microstructures.
ISSN:2046-2069
2046-2069
DOI:10.1039/d4ra05673f