Enhanced Electrical Performance of Monolayer MoS2 with Rare Earth Element Sm Doping

Abstract: Rare earth (RE) element-doped two-dimensional (2D) transition metal dichalcogenides (TMDCs) with applications in luminescence and magnetics have received considerable attention in recent years. To date, the effect of RE element doping on the electronic properties of monolayer 2D-TMDCs remains unanswered due to challenges including the difficulty of achieving valid monolayer doping and introducing RE elements with distinct valence and atomic configurations. Herein, we report a unique strategy to grow the Sm-dop… Show more

“…In order to synthesize MoS 2 , many strategies have been developed, including mechanical exfoliation, [81][82][83] solution exfoliation, [84][85][86] chemical vapor deposition [87][88][89] (CVD), hydrothermal synthesis, [90][91][92] electrodeposition methods, [93][94][95] metal-organic chemical vapor deposition (MOCVD), [96][97][98] and molecular beam epitaxy (MBE). [99][100][101] These methods can be classied as topdown methods (including mechanical exfoliation and solution exfoliation) and bottom-up methods (including hydrothermal synthesis, CVD, MOCVD and MBE).…”

Strategies to improve electrocatalytic performance of MoS₂-based catalysts for hydrogen evolution reactions

“…In order to synthesize MoS 2 , many strategies have been developed, including mechanical exfoliation, [81][82][83] solution exfoliation, [84][85][86] chemical vapor deposition [87][88][89] (CVD), hydrothermal synthesis, [90][91][92] electrodeposition methods, [93][94][95] metal-organic chemical vapor deposition (MOCVD), [96][97][98] and molecular beam epitaxy (MBE). [99][100][101] These methods can be classied as topdown methods (including mechanical exfoliation and solution exfoliation) and bottom-up methods (including hydrothermal synthesis, CVD, MOCVD and MBE).…”

Strategies to improve electrocatalytic performance of MoS₂-based catalysts for hydrogen evolution reactions

“…Compared with chemical vapor deposition [20,21,25] and molecular beam epitaxy (MBE) methods, [26,27] chemical vapor transport (CVT) is a traditional crystal growth technique to facilitate the growth of TMDCs bulk crystals for the exfoliation of their 2D counterparts. Jiao et al extended from growing 3D crystals to synthesizing various high-quality 2D atomic layers by tuning the growth kinetics using CVT method, [28][29][30][31] This approach is advantageous due to its high quality, large area, high throughput, and low growth temperature, [29] However, up to date, in situ doping of 2D semiconductors using the CVT technique has not been reported.…”

“…Compared with chemical vapor deposition [ 20,21,25 ] and molecular beam epitaxy (MBE) methods, [ 26,27 ] chemical vapor transport (CVT) is a traditional crystal growth technique to facilitate the growth of TMDCs bulk crystals for the exfoliation of their 2D counterparts. Jiao et al.…”

Dopant‐Induced Giant Photoluminescence of Monolayer MoS₂ by Chemical Vapor Transport

“…Two-dimensional (2D) materials show excellent electrical and optical characteristics, making them promising candidates in the field of photodetection. − Particularly, 2D molybdenum disulfide (MoS 2 ) possesses a desirable direct band gap and stronger photon–electron interaction in the visible spectrum. However, 2D MoS 2 synthesized using the chemical vapor deposition (CVD) method easily contains numerous surface defects, resulting in a poor device performance, such as low responsivity and field effect mobility. − To date, various methods have been developed to improve the device performance of MoS 2 photodetectors, − especially plasmon based on metallic nanoparticles. ,, The embedment of nanoparticles can strengthen the near-surface electromagnetic field, accordingly boosting the photoresponse.…”

Plasmonic MXene Nanoparticle-Enabled High-Performance Two-Dimensional MoS₂ Photodetectors