Formation and optical properties of nanocrystalline selenium on Si substrate

Pan, S.W.; Chen, S.Y.; Li, Cheng; Huang, Wei; Lai, Hongkai

doi:10.1016/j.tsf.2011.04.016

Cited by 9 publications

(1 citation statement)

References 21 publications

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“…A perfect 2H WSe 2 phase reveals the peaks at 176 and 250.6 cm -1 [16]. Amorphous selenium is indi cated by the lines near 250 and 300 cm -1 , and crystal line selenium is characterized by a feature near 233 cm -1 [17].…”

Section: Pld With the Use Of Antidroplet Screen In An Inert Gasmentioning

confidence: 98%

Control of structure of WSe x /C nanocoatings synthesized via pulsed laser deposition

Grigoriev

Fominski

Nevolin

et al. 2015

Inorg. Mater. Appl. Res.

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The requirements are formulated for a new type of nanomaterials based on transition metal dichalcogenides (TMD), which are promising to create relatively cheap and effective catalysts for electro chemical hydrogen evolution reaction. The possibility of implementation of some important requirements for the structure of these materials is investigated by the example of thin film coatings containing tungsten dise lenide and carbon. WSe x /C coatings are prepared via pulsed laser deposition in an inert and reactive (CH 4 ) gas in a standard configuration and using an antidroplet screen. In some cases, low DC voltage or pulsed high voltage bias are applied to the substrate, initiating ion bombardment of the coatings. Factors exerting an important influence on the chemical composition, morphology, and surface topography of the coatings are established. Modes of formation of a rough coating surface with a high density of WSe 2 edges are determined, which is essential for high catalytic activity and performance of TMD containing nanocatalysts. The carbon phase with a high concentration of sp 2 bonds is needed for effective current transport in the formed layers.

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Section: Pld With the Use Of Antidroplet Screen In An Inert Gasmentioning

confidence: 98%