In situ fabrication of dendritic tin-based carbon nanostructures for hydrogen evolution reaction

Abstract: In this work, dendritic tin-based carbon (Sn/C) nanostructures with four different morphologies were synthesized by a facile two-step carbonization and chemical vapor deposition method and were then evaluated for their...

“…CVD has been widely used to prepare graphene, carbon nanotubes, graphene nanoribbons, etc. [ 48 ]. The chemical vapor deposition procedure consists of three significant stages: the entry of the gas to be reacted onto the substrate surface, the adsorption of the reacting gas onto the substrate surface, the deposition of the product onto the substrate surface, and the release of the resulting vapor phase byproducts.…”

Recent Progress in Graphene-Based Electrocatalysts for Hydrogen Evolution Reaction

“…CVD has been widely used to prepare graphene, carbon nanotubes, graphene nanoribbons, etc. [ 48 ]. The chemical vapor deposition procedure consists of three significant stages: the entry of the gas to be reacted onto the substrate surface, the adsorption of the reacting gas onto the substrate surface, the deposition of the product onto the substrate surface, and the release of the resulting vapor phase byproducts.…”

Recent Progress in Graphene-Based Electrocatalysts for Hydrogen Evolution Reaction

“… 17 Ola et al synthesized dendritic tin-based carbon nanodendrites by a two-step carbonization and chemical vapor deposition method using tin chloride and acetone as precursors. 18 This progress encouraged us to synthesize such nanostructures and further explore their optical performance. It is well-known that changing the N-doping and S-doping can effectively tune the optical characteristics of carbon nanodots (CDs).…”

Photoluminescent sea urchin-shaped carbon-nanobranched polymers as nanoprobes for the selective and sensitive assay of hypochlorite

Synthesis of tin nanoparticles on Ketjen Black in ionic liquid and water for the hydrogen evolution reaction