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Recent Advances in Nanoarchitectonics of SnO2 Clusters and Their Applications in Catalysis
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Tin dioxide nanoclusters are very effective as catalysts for various reactions including CO2 conversion and Friedel-Crafts acylation for pharmaceuticals. The nanoarchitectonics of SnO2 could be controlled by different synthetic strategies. In the current article,
we have presented synthesis of SnO2 nanoclusters and their applications in catalysis. We have also reviewed computational studies on SnO2 nanoclusters for using them in nanoarchitectonics and catalytic conversion of CO2 to useful chemicals. Optimized structures
of various cluster sizes are presented. The present and future perspectives of SnO2 catalysts in biomass conversions are also given
American Scientific Publishers
Title: Recent Advances in Nanoarchitectonics of SnO2 Clusters and Their Applications in Catalysis
Description:
Tin dioxide nanoclusters are very effective as catalysts for various reactions including CO2 conversion and Friedel-Crafts acylation for pharmaceuticals.
The nanoarchitectonics of SnO2 could be controlled by different synthetic strategies.
In the current article,
we have presented synthesis of SnO2 nanoclusters and their applications in catalysis.
We have also reviewed computational studies on SnO2 nanoclusters for using them in nanoarchitectonics and catalytic conversion of CO2 to useful chemicals.
Optimized structures
of various cluster sizes are presented.
The present and future perspectives of SnO2 catalysts in biomass conversions are also given.
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