In Situ Nucleation‐Decoupled and Site‐Specific Incorporation of Å‐Scale Pores in Graphene Via Epoxidation (Adv. Mater. 51/2022)

Graphene Nanopores In article number 2206627, Kumar Varoon Agrawal and co‐workers describe how ångstrom‐scale pores are generated in graphene at a desired site, on demand, by controlled gasification of pre‐formed epoxy clusters. This strategy allows independent control of pore density and pore size....

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Veröffentlicht in:	Advanced materials (Weinheim) 2022-12, Vol.34 (51), p.n/a
Hauptverfasser:	Huang, Shiqi, Villalobos, Luis Francisco, Li, Shaoxian, Vahdat, Mohammad Tohidi, Chi, Heng‐Yu, Hsu, Kuang‐Jung, Bondaz, Luc, Boureau, Victor, Marzari, Nicola, Agrawal, Kumar Varoon
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Sprache:	eng
Schlagworte:	Epoxidation etching kinetics Gasification Graphene graphene nanopore in situ gasification Materials science Nucleation Pore size Å‐scale pore manipulation
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creator	Huang, Shiqi Villalobos, Luis Francisco Li, Shaoxian Vahdat, Mohammad Tohidi Chi, Heng‐Yu Hsu, Kuang‐Jung Bondaz, Luc Boureau, Victor Marzari, Nicola Agrawal, Kumar Varoon
description	Graphene Nanopores In article number 2206627, Kumar Varoon Agrawal and co‐workers describe how ångstrom‐scale pores are generated in graphene at a desired site, on demand, by controlled gasification of pre‐formed epoxy clusters. This strategy allows independent control of pore density and pore size. The illustration shows CO2 released from the gasification event.
doi_str_mv	10.1002/adma.202270353
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subjects	Epoxidation etching kinetics Gasification Graphene graphene nanopore in situ gasification Materials science Nucleation Pore size Å‐scale pore manipulation
title	In Situ Nucleation‐Decoupled and Site‐Specific Incorporation of Å‐Scale Pores in Graphene Via Epoxidation (Adv. Mater. 51/2022)
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