Precisely Determined Water Permeabilities of Sub‐100 nm Nanochannels

Abstract: Membrane ultrafiltration is an extensively used technique for water purification and hence understanding the water flow confined in nanochannels is of vital importance. As a key parameter, water permeability has been the focus of fundamental researches and technical applications. However, water permeability in sub‐100 nm regime is not yet well understood as evidenced by the previously published data which are divergent from theory. Here, the precise determination of water permeabilities of sub‐100 nm nanochann… Show more

“…In RED processes, anion-selective and cation-selective membranes are used to convert the difference in energy between salt solutions into electrical energy. [126] Materials including iontrajectory etched nanochannels, [127] silicon nanopores, [128] boron nitride, [129] graphene oxide, [130] MXene, [131] carbon nitride, [132] and 3D porous membranes [133] have been developed for application in salt-difference energy conversion devices. Materials with high ion rectification or high ion selectivity can be obtained by optimizing the selection of nanoporous materials with different dimensions for efficient salt difference energy conversion.…”

Insights into Hierarchical Structure–Property–Application Relationships of Advanced Bacterial Cellulose Materials

“…In RED processes, anion-selective and cation-selective membranes are used to convert the difference in energy between salt solutions into electrical energy. [126] Materials including iontrajectory etched nanochannels, [127] silicon nanopores, [128] boron nitride, [129] graphene oxide, [130] MXene, [131] carbon nitride, [132] and 3D porous membranes [133] have been developed for application in salt-difference energy conversion devices. Materials with high ion rectification or high ion selectivity can be obtained by optimizing the selection of nanoporous materials with different dimensions for efficient salt difference energy conversion.…”

Insights into Hierarchical Structure–Property–Application Relationships of Advanced Bacterial Cellulose Materials

Next-generation ultrafiltration membranes: A review of material design, properties, recent progress, and challenges

Oppositely charged aligned bacterial cellulose biofilm with nanofluidic channels for osmotic energy harvesting