WS₂/Graphitic Carbon Nitride Heterojunction Nanosheets Decorated with CdS Quantum Dots for Photocatalytic Hydrogen Production

Abstract: Two-dimensional/two-dimensional (2D/2D) stacking heterostructures are highly desirable in fabricating efficient photocatalysts because face-to-face contact can provide a maximized interfacial region between the two semiconductors; this largely facilitates the migration of charge carriers. Herein, a WS /graphitic carbon nitride (CN) 2D/2D nanosheet heterostructure decorated with CdS quantum dots (QDs) has been designed, for the first time. Optimized CdS/WS /CN without another cocatalyst exhibits a significantly… Show more

“…10,11,21 As shown in Fig. 3c, deconvolution of the N 1s spectrum revealed four peaks at 404.2, 401.6, 399.7 and 398.8 eV, which correspond to charging effects and C-NH, N-(C) 3 and C-N]C bonds, respectively, which is consistent with reports by Zou et al and Ran et al 22,23 In particular, two peaks centered at 532.9 and 531.8 eV were detected in the spectra of O-C 3 N 4 and O-C 3 N 4 /MoS 2 -5, which were due to O-C]O and C-O groups. Moreover, the C/N ratio increased from 0.460 in g-C 3 N 4 to 0.503 in O-C 3 N 4 /MoS 2 -5, which led to nitrogen vacancies.…”

Fabrication of interlayer β-CD/g-C₃N₄@MoS₂ for highly enhanced photodegradation of glyphosate under simulated sunlight irradiation

“…10,11,21 As shown in Fig. 3c, deconvolution of the N 1s spectrum revealed four peaks at 404.2, 401.6, 399.7 and 398.8 eV, which correspond to charging effects and C-NH, N-(C) 3 and C-N]C bonds, respectively, which is consistent with reports by Zou et al and Ran et al 22,23 In particular, two peaks centered at 532.9 and 531.8 eV were detected in the spectra of O-C 3 N 4 and O-C 3 N 4 /MoS 2 -5, which were due to O-C]O and C-O groups. Moreover, the C/N ratio increased from 0.460 in g-C 3 N 4 to 0.503 in O-C 3 N 4 /MoS 2 -5, which led to nitrogen vacancies.…”

Fabrication of interlayer β-CD/g-C₃N₄@MoS₂ for highly enhanced photodegradation of glyphosate under simulated sunlight irradiation

“…Generally, the separation and transfer of photo‐excited electron‐hole pairs and surface redox reactions are the most critical steps in heterogeneous photocatalytic reaction, which decides whether these photocatalysts can reach to high quantum efficiency . For the sake of addressing this problem, a great amount of effort has devoted to coupling cocatalyst on the surface of semiconductor, which can decrease the activation barriers and provide more active sites to enhance the photocatalytic activity . Therefore, it is important to seek a suitable and low‐cost cocatalyst for improving the solar conversion efficiency of semiconductor photocatalyst.…”

“…21,22 For the sake of addressing this problem, a great amount of effort has devoted to coupling cocatalyst on the surface of semiconductor, which can decrease the activation barriers and provide more active sites to enhance the photocatalytic activity. [23][24][25][26] Therefore, it is important to seek a suitable and low-cost cocatalyst for improving the solar conversion efficiency of semiconductor photocatalyst.Recently, molybdenum disulfide (MoS 2 ) as a costeffective cocatalyst to take place of precious metals has received considerable attention for hydrogen evolution…”

Facile synthesis of MoS ₂ QDs/TiO ₂ nanosheets via a self‐assembly strategy for enhanced photocatalytic hydrogen production

“…14d). Similarly, MoSe 2 [254][255][256], WS 2 [257][258][259], and WSe 2 [260] can also be used as HER cocatalysts for solar-hydrogen production.…”

Recent progress of tungsten- and molybdenum-based semiconductor materials for solar-hydrogen production