Recent development of graphene and MXene-based nanomaterials for proton exchange membrane fuel cells
The proton exchange membrane fuel cells (PEMFCs) are environmentally friendly,
sustainable, and excellent energy conversion systems to produce pollutant-free electricity …
sustainable, and excellent energy conversion systems to produce pollutant-free electricity …
Novel zirconium phosphate/MXene/ionic liquid membranes for PEM fuel cells operating up to 145° C
In this work, zirconium phosphate, MXene, and a hexyl-based ionic liquid were incorporated
into a porous PTFE polymer to synthesize novel composite proton exchange membranes …
into a porous PTFE polymer to synthesize novel composite proton exchange membranes …
Data-driven molecular dynamics simulation of water isotope separation using a catalytically active ultrathin membrane
Water isotope separation, specifically separating heavy from light water, is a technologically
important problem due to the usage of heavy water in applications such as nuclear magnetic …
important problem due to the usage of heavy water in applications such as nuclear magnetic …
Water Isotope Separation using Deep Learning and a Catalytically Active Ultrathin Membrane
Water isotope separation, specifically separating heavy from light water, is a socially
significant issue due to the usage of heavy water in applications such as nuclear magnetic …
significant issue due to the usage of heavy water in applications such as nuclear magnetic …
[HTML][HTML] Quantum water desalination: Water generation through separate pathways for protons and hydroxide ions in membranes
A Rayabharam, NR Aluru - Journal of Applied Physics, 2022 - pubs.aip.org
Much of the water desalination strategies has focused on designing pores and membranes
that transport water and reject ions and other molecules at a high rate. In this paper, we …
that transport water and reject ions and other molecules at a high rate. In this paper, we …