Scalable synthesis of asymmetric hemodialysis membranes to enhance performance and biocompatibility in flat sheet and hollow fiber configurations
Key Points
Enhanced biocompatibility is crucial for hemodialysis membranes used in treating end-stage renal disease.
Performance improvements are significant for both flat sheet and hollow fiber configurations of dialysis membranes.
Scalable synthesis methods are employed to create advanced hemodialysis membranes enhancing their functional capabilities.
The findings may suggest improved patient outcomes with the development of new membrane technologies for dialysis.
Abstract
Hemodialysis is indispensable for patients with end-stage renal disease (ESRD).
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Scalable synthesis of asymmetric hemodialysis membranes to enhance performance and biocompatibility in flat sheet and hollow fiber configurations | Synapse