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Unique CdS@MoS2 Core Shell Heterostructure for Efficient Hydrogen Generation Under Natural Sunlight.


ABSTRACT: The hierarchical nanostructured CdS@MoS2 core shell was architectured using template free facile solvothermal technique. More significantly, the typical hexagonal phase of core CdS and shell MoS2 has been obtained. Optical study clearly shows the two steps absorption in the visible region having band gap of 2.4?eV for CdS and 1.77?eV for MoS2. The FESEM of CdS@MoS2 reveals the formation of CdS microsphere (as a core) assemled with 40-50?nm nanoparticles and covered with ultrathin nanosheets of MoS2 (Shell) having size 200-300?nm and the 10-20?nm in thickness. The overall size of the core shell structure is around 8?µm. Intially, there is a formation of CdS microsphre due to high affinity of Cd ions with sulfur and further growth of MoS2 thin sheets on the surface. Considering band gap ideally in visible region, photocatalytic hydrogen evolution using CdS@MoS2 core shell was investigated under natural sunlight. The utmost hydrogen evolution rate achieved for core shell is 416.4 µmole h-1 with apparent quantum yield 35.04%. The photocatalytic activity suggest that an intimate interface contact, extended visible light absorption and effective photo generated charge carrier separation contributed to the photocatalytic enhancement of the CdS@MoS2 core shell. Additional, the enhanced hole trapping process and effective electrons transfer from CdS to MoS2 in CdS@MoS2 core shell heterostructures can significantly contribute for photocatalytic activity. Such core shell heterostructure will also have potential in thin film solar cell and other microelectronic devices.

SUBMITTER: Kadam SR 

PROVIDER: S-EPMC6700150 | biostudies-literature | 2019 Aug

REPOSITORIES: biostudies-literature

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Unique CdS@MoS<sub>2</sub> Core Shell Heterostructure for Efficient Hydrogen Generation Under Natural Sunlight.

Kadam Sunil R SR   Gosavi Suresh W SW   Kale Bharat B BB   Suzuki Norihiro N   Terashima Chiaki C   Fujishima Akira A  

Scientific reports 20190819 1


The hierarchical nanostructured CdS@MoS<sub>2</sub> core shell was architectured using template free facile solvothermal technique. More significantly, the typical hexagonal phase of core CdS and shell MoS<sub>2</sub> has been obtained. Optical study clearly shows the two steps absorption in the visible region having band gap of 2.4 eV for CdS and 1.77 eV for MoS<sub>2</sub>. The FESEM of CdS@MoS<sub>2</sub> reveals the formation of CdS microsphere (as a core) assemled with 40-50 nm nanoparticle  ...[more]

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