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In Situ Nucleation‐Decoupled and Site‐Specific Incorporation of Å‐Scale Pores in Graphene Via Epoxidation

Shiqi Huang, Luis Francisco Villalobos, Shaoxian Li, Mohammad Tohidi Vahdat, Heng‐Yu Chi, Kuang‐Jung Hsu, Luc Bondaz, Victor Boureau, Nicola Marzari, Kumar Varoon Agrawal

2022Advanced Materials29 citationsDOIOpen Access PDF

Abstract

Generating pores in graphene by decoupled nucleation and expansion is desired to achieve a fine control over the porosity, and is desired to advance several applications. Herein, epoxidation is introduced, which is the formation of nanosized epoxy clusters on the graphitic lattice as nucleation sites without forming pores. In situ gasification of clusters inside a transmission electron microscope shows that pores are generated precisely at the site of the clusters by surpassing an energy barrier of 1.3 eV. Binding energy predictions using ab initio calculations combined with the cluster nucleation theory reveal the structure of the epoxy clusters and indicate that the critical cluster is an epoxy dimer. Finally, it is shown that the cluster gasification can be manipulated to form Å-scale pores which then effectively sieve gas molecules based on their size. This decoupled cluster nucleation and pore formation will likely pave the way for an independent control of pore size and density.

Topics & Concepts

NucleationMaterials scienceCluster (spacecraft)Chemical physicsGraphenePorosityIn situNanotechnologyChemical engineeringMolecular sieveComposite materialPhysical chemistryAdsorptionOrganic chemistryChemistryProgramming languageComputer scienceEngineeringGraphene research and applicationsNanopore and Nanochannel Transport StudiesThermal properties of materials
In Situ Nucleation‐Decoupled and Site‐Specific Incorporation of Å‐Scale Pores in Graphene Via Epoxidation | Litcius