Differentiating solutes with precise nanofiltration for next generation environmental separations: a review
Selective removal or enrichment of targeted solutes including micropollutants, valuable
elements, and mineral scalants from complex aqueous matrices is both challenging and …
elements, and mineral scalants from complex aqueous matrices is both challenging and …
Laminar graphene oxide membranes towards selective ionic and molecular separations: challenges and progress
Resolution of resources and environmental crises requires an efficient separation
technologies, consequently, scientists and engineers are working vigorously for ideal …
technologies, consequently, scientists and engineers are working vigorously for ideal …
Stable graphene membranes for selective ion transport and emerging contaminants removal in water
SN Sankar, J Fernandes, MB dos Santos… - Advanced Functional …, 2023 - Wiley Online Library
Carbon‐based materials, such as graphene oxide and reduced graphene oxide membranes
have been recently used to fabricate ultrathin, high‐flux, and energy‐efficient membranes for …
have been recently used to fabricate ultrathin, high‐flux, and energy‐efficient membranes for …
Nanopores in two-dimensional materials: accurate fabrication
Two-dimensional (2D) materials such as graphene and molybdenum disulfide have been
demonstrated with a wide range of applications in electronic devices, chemical catalysis …
demonstrated with a wide range of applications in electronic devices, chemical catalysis …
Deconstructing proton transport through atomically thin monolayer CVD graphene membranes
Selective proton (H+) permeation through the atomically thin lattice of graphene and other
2D materials offers new opportunities for energy conversion/storage and novel separations …
2D materials offers new opportunities for energy conversion/storage and novel separations …
Kinetic control of angstrom-scale porosity in 2D lattices for direct scalable synthesis of atomically thin proton exchange membranes
Angstrom-scale pores introduced into atomically thin 2D materials offer transformative
advances for proton exchange membranes in several energy applications. Here, we show …
advances for proton exchange membranes in several energy applications. Here, we show …
The validity of the continuum modeling limit in a single pore flows to the molecular scale
J Al Hossain, BH Kim - Physical Chemistry Chemical Physics, 2023 - pubs.rsc.org
The discrete characteristics of molecules become dominant in the molecular regime when
the surface-to-volume ratio becomes very high. Using the well-established continuum …
the surface-to-volume ratio becomes very high. Using the well-established continuum …
An atomically-thin graphene reverse electrodialysis system for efficient energy harvesting from salinity gradient
Salinity gradient energy is a kind of the Gibbs free energy of mixing, and it is a clean,
sustainable, and renewable energy source which is projected of the capacity to generate …
sustainable, and renewable energy source which is projected of the capacity to generate …
Kust-I: a high-performance two-dimensional graphene-based material for seawater desalination
X Yu, J Hou, H Wu, J Rong, X Wang, K Xu… - Journal of Materials …, 2021 - pubs.rsc.org
Global freshwater shortage has become one of the essential issues and many countries are
suffering increasing pressure on their environment. Recently, a large-area graphene …
suffering increasing pressure on their environment. Recently, a large-area graphene …
Graphene oxide membranes with short-range pore channels toward ultrafast water transport via γ-ray etching
Y Han, C Guo, P Liu, N Li, C Min, B Zhu, H Shi… - Applied Surface …, 2023 - Elsevier
Graphene oxide (GO) has the characteristics of easy membrane formation and adjustable
interlayer size, which can achieve molecular/ion separation precisely. However, the stacked …
interlayer size, which can achieve molecular/ion separation precisely. However, the stacked …