Recent Development on Controlled Synthesis of Metal Sulfides Hollow Nanostructures via Hard Template Engaged Strategy: A Mini‐Review

In this mini‐review, we highlighted the recent progresses in the controlled synthesis of metal sulfides hollow nanostructures via hard template technique. After a brief introduction about the formation mechanism of the inorganic hollow nanostructures via hard template technique, the discussions prim...

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Bibliographic Details
Published in:Chemical record 2020-08, Vol.20 (8), p.882-892
Main Authors: Jin, Qian‐Qian, Zhang, Chen‐Yang, Wang, Wan‐Ni, Chen, Ben‐Jin, Ruan, Juan, Qian, Hai‐Sheng
Format: Article
Language:English
Subjects:
Controlled synthesis
Hard templates
Hollow nanostructures
Metal sulfides
Metals
Nanostructure
Sulfidation
Sulfides
Synthesis
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Summary:In this mini‐review, we highlighted the recent progresses in the controlled synthesis of metal sulfides hollow nanostructures via hard template technique. After a brief introduction about the formation mechanism of the inorganic hollow nanostructures via hard template technique, the discussions primarily focused on the emerging development of metal sulfides hollow nanostructures. Various synthetic strategies were summarized concerning the use of the hard template engaged strategies to fabricate various metal sulfides hollow nanostructures, such as hydrothermal method, solvothermal method, ion‐exchange, sulfidation or calcination etc. Finally, the perspectives and summaries have been presented to demonstrate that a facile synthetic technique would be widely used to fabricate metal sulfides hollow nanostructures with multi‐shells and components. Metal sulfides hollow nanostructures have attracted extensive interest owing to their important and wide applications in energy storage and conversion, catalysis etc. In this mini‐review, we have highlighted the formation mechanism of the inorganic hollow nanostructures via template technique and recent progresses on the controlled synthesis of metal sulfides hollow nanostructures via various hard template techniques.
ISSN:1527-8999
1528-0691
DOI:10.1002/tcr.202000033