Empowering ultrathin polyamide membranes at the water–energy nexus: strategies, limitations, and future perspectives
University of Hong Kong · The University of Queensland
Abstract
Membrane-based separation is one of the most energy-efficient methods to meet the growing need for a significant amount of fresh water. It is also well-known for its applications in water treatment, desalination, solvent recycling, and environmental remediation. Most typical membranes used for separation-based applications are thin-film composite membranes created using polymers, featuring a top selective layer generated by employing the interfacial polymerization technique at an aqueous-organic interface. In the last decade, various manufacturing techniques have been developed in order to create high-specification membranes. Among them, the creation of ultrathin polyamide membranes has shown enormous…
Citation impact
- FWCI
- 21.73
- Percentile
- 100%
- References
- 199
Authors
4Topics & keywords
- Membrane
- Polyamide
- Interfacial polymerization
- Thin-film composite membrane
- Desalination
- Permeation
- Materials science
- Nanotechnology