AI Article Synopsis
- The study presents a new method for evenly coating hard carbon powders using fluidized bed chemical vapor deposition, which is beneficial for catalytic and electrochemical uses.
- To optimize powder retention and minimize loss, the reactor design was informed by computational fluid dynamics simulations that evaluated how gas flow rates affect powder behavior.
- The process utilized specific tin complexes as precursors, successfully creating hard carbon-sulfur and hard carbon-selenium composites that could be useful in electrocatalysis and as anodes in sodium-ion batteries.
Article Abstract
Herein, we report a general route for the uniform coating of hard carbon (HC) powders via fluidized bed chemical vapor deposition. Carbon-based fine powders are excellent substrate materials for many catalytic and electrochemical applications but intrinsically difficult to fluidize and prone to elutriation. The reactor was designed to achieve as much retention of powders as possible, supported by a computational fluid dynamics study to assess the hydrodynamic behavior for varying gaseous flow rates. Solutions of the tin seleno- and thio-ether complexes [SnCl{BuSe(CH)SeBu}] and [SnCl{BuS(CH)SBu}] were used as single source precursors and injected at high temperature into a fluidized bed of HC powders under nitrogen flow. The method allowed for the synthesis of HC-SnS-SnSe composites at the gram scale with potential applications in electrocatalysis and sodium-ion battery anodes.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10955755 | PMC |
| http://dx.doi.org/10.1021/acsomega.4c00297 | DOI Listing |
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