Gas separations using nanoporous atomically thin membranes: recent theoretical, simulation, and experimental advances
Porous graphene and other atomically thin 2D materials are regarded as highly promising
membrane materials for high‐performance gas separations due to their atomic thickness …
membrane materials for high‐performance gas separations due to their atomic thickness …
Advances in surface modification and functionalization for tailoring the characteristics of thin films and membranes via chemical vapor deposition techniques
Advanced materials are among the prime drivers for technological revolutions and
transformation in quality of lives. Over time, several modification techniques have emerged …
transformation in quality of lives. Over time, several modification techniques have emerged …
Gas separation membranes with atom-thick nanopores: the potential of nanoporous single-layer graphene
Conspectus Gas separation is one of the most important industrial processes and is poised
to take a larger role in the transition to renewable energy, eg, carbon capture and hydrogen …
to take a larger role in the transition to renewable energy, eg, carbon capture and hydrogen …
Direct chemical vapor deposition synthesis of porous single‐layer graphene membranes with high gas permeances and selectivities
Single‐layer graphene containing molecular‐sized in‐plane pores is regarded as a
promising membrane material for high‐performance gas separations due to its atomic …
promising membrane material for high‐performance gas separations due to its atomic …
Graphene-based Membranes for H2 Separation: Recent Progress and Future Perspective
Hydrogen (H2) is an industrial gas that has showcased its importance in several well-known
processes such as ammonia, methanol and steel productions, as well as in petrochemical …
processes such as ammonia, methanol and steel productions, as well as in petrochemical …
Predicting gas separation through graphene nanopore ensembles with realistic pore size distributions
The development of nanoporous single-layer graphene membranes for gas separation has
prompted increasing theoretical investigations of gas transport through graphene …
prompted increasing theoretical investigations of gas transport through graphene …
[HTML][HTML] Oxygen enrichment of air: Performance guidelines for membranes based on techno-economic assessment
The use of oxygen-enriched air (OEA) is an important strategy for reducing process cost and
CO 2 emissions in several industrial processes. Membrane-based processes, attributing to …
CO 2 emissions in several industrial processes. Membrane-based processes, attributing to …
Multipulsed millisecond ozone gasification for predictable tuning of nucleation and nucleation-decoupled nanopore expansion in graphene for carbon capture
Predictable and tunable etching of angstrom-scale nanopores in single-layer graphene
(SLG) can allow one to realize high-performance gas separation even from similar-sized …
(SLG) can allow one to realize high-performance gas separation even from similar-sized …
Millisecond lattice gasification for high-density CO2- and O2-sieving nanopores in single-layer graphene
Etching single-layer graphene to incorporate a high pore density with sub-angstrom
precision in molecular differentiation is critical to realize the promising high-flux separation …
precision in molecular differentiation is critical to realize the promising high-flux separation …
Chemical vapor-deposited graphene on ultraflat copper foils for van der Waals hetero-assembly
The purity and morphology of the copper surface is important for the synthesis of high-
quality, large-grained graphene by chemical vapor deposition. We find that atomically …
quality, large-grained graphene by chemical vapor deposition. We find that atomically …