Litcius/Paper detail

Scalable synthesis of CO2-selective porous single-layer graphene membranes

Jian Hao, Piotr Mieczyslaw Gebolis, Piotr Marcin Gach, Mojtaba Chevalier, Luc Bondaz, Ceren Kocaman, Kuang‐Jung Hsu, Kapil Bhorkar, Deep J. Babu, Kumar Varoon Agrawal

2025Nature Chemical Engineering23 citationsDOIOpen Access PDF

Abstract

Abstract Membranes based on atom-thin porous single-layer graphene (PG) have shown attractive performance for diverse separation applications, especially gas separation and carbon capture. However, despite a decade of research, a scalable synthesis of PG membranes has remained under question. The literature on gas separation using porous graphene membranes is based on complex methods that limit membrane size and reproducibility. Here we introduce several interventions that substantially reduce PG membrane cost, allow uniform pore formation in a large area and enable the preparation of large-area PG membranes with attractive performance. We show that mass transfer of the oxidant plays a crucial role in achieving uniform oxidation of large-area graphene. Crack formation during the transfer of graphene, which also limits reproducibility, is eliminated using a protocol that does not require delicate floating and handling of graphene, allowing the realization of a high-performance 50-cm 2 graphene membrane in a cross-flow module.

Topics & Concepts

GrapheneMembraneMaterials scienceScalabilityPorosityLayer (electronics)NanotechnologyChemical engineeringComputer scienceChemistryComposite materialEngineeringBiochemistryDatabaseGraphene research and applicationsMembrane Separation and Gas TransportAdvancements in Battery Materials