Bilayer graphene oxide membranes for a wearable hemodialyzer

Abstract: 2D nanomaterials have long been considered for development of ultra-high throughput membranes, due to their atomically thin nature and high mechanical strength. However, current processes have yet to yield a viable membrane for practical applications due to the lack of scalability and substantially improved performance over existing membranes. Herein, a graphene oxide (GO) bilayer membrane with a permeability of 1562 mL/hr.mmHg.m 2 , two orders of magnitude higher than existing nanofiltration membranes, and a … Show more

“…Our previous work concerning this GO nanoplatelet assembly investigated its viability in blood-contact environments. [39] Hemolysis, complement activation, and coagulation characteristics for the surface all fell within the physiological range, demonstrating the viability of the membrane in dialysis applications.…”

Biofouling Characteristics of Graphene Oxide Membrane in a Protein-rich Environment

“…Our previous work concerning this GO nanoplatelet assembly investigated its viability in blood-contact environments. [39] Hemolysis, complement activation, and coagulation characteristics for the surface all fell within the physiological range, demonstrating the viability of the membrane in dialysis applications.…”

Biofouling Characteristics of Graphene Oxide Membrane in a Protein-rich Environment

Construction of novel antiplatelet modified polyethersulfone membrane and study into its blood compatibility