A review on low dimensional carbon desalination and gas separation membrane designs
The widespread use of low dimensional carbon membrane for desalination and gas
separation is limited by the difficulty to physically realise such membrane designs on a …
separation is limited by the difficulty to physically realise such membrane designs on a …
Structure and transport properties of water and hydrated ions in nano‐confined channels
H Zhu, Y Wang, Y Fan, J Xu… - Advanced Theory and …, 2019 - Wiley Online Library
Nano‐confined flow is ubiquitous in modern engineering and biomedical applications. As
the peculiar phenomena of nano‐confined flow were continuously reported and traditional …
the peculiar phenomena of nano‐confined flow were continuously reported and traditional …
Influences of electroosmotic flow on ionic current through nanopores: A comprehensive understanding
Y Qiu, L Ma - Physics of Fluids, 2022 - pubs.aip.org
Continuum simulations become an important tool to uncover the mysteries in nanofluidic
experiments. However, fluid flow in simulation models is usually unconsidered. Here …
experiments. However, fluid flow in simulation models is usually unconsidered. Here …
Investigations on different two-dimensional materials as slit membranes for enhanced desalination
The use of two-dimensional (2D) materials as ultra-thin desalination membrane has
garnered much interest in the scientific community. Various 2D materials membrane designs …
garnered much interest in the scientific community. Various 2D materials membrane designs …
Generating Sub-nanometer Pores in Single-Layer MoS2 by Heavy-Ion Bombardment for Gas Separation: A Theoretical Perspective
Single-layer molybdenum disulfide (MoS2) filters with nanometer-size pores have attracted
great attention recently due to their promising performance for membrane separation …
great attention recently due to their promising performance for membrane separation …
Free-standing graphene slit membrane for enhanced desalination
This study considers two novel ideas to further explore and enhance the graphene
membrane for desalination. Firstly, while earlier molecular dynamics (MD) simulations …
membrane for desalination. Firstly, while earlier molecular dynamics (MD) simulations …
Effect of surface functionalization on DNA sequencing using MXene-based nanopores
YS Yu, RR Tan, HM Ding - RSC advances, 2024 - pubs.rsc.org
As one of the most promising types of label-free nanopores has great potential for DNA
sequencing via fast detection of different DNA bases. As one of the most promising types of …
sequencing via fast detection of different DNA bases. As one of the most promising types of …
Impact of surface ionization on water transport and salt leakage through graphene oxide membranes
Nanopores in graphene-based membranes have shown great potential in enabling highly
efficient water desalination. The effective engineering of these membranes necessitates a …
efficient water desalination. The effective engineering of these membranes necessitates a …
Molecular simulations of phenol and ibuprofen removal from water using multilayered graphene oxide membranes
We present here non-equilibrium molecular dynamic simulations concerning the separation
of phenol and ibuprofen as impurities compounds (ICs) in water by novel graphene oxide …
of phenol and ibuprofen as impurities compounds (ICs) in water by novel graphene oxide …
Impact of Confinement and Zwitterionic Ligand Chemistry on Ion–Ion Selectivity of Functionalized Nanopores
Membranes incorporating zwitterionic chemistries have recently emerged as promising
candidates for facilitating challenging ion–ion separations. Transport of ions in such …
candidates for facilitating challenging ion–ion separations. Transport of ions in such …