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Atomically flat membranes, one molecule thick based on modified amino acids and containing atomically precise pores. The development is by Professor Christian Schafmeister, Temple University Department of Chemistry and a recipient of the KidneyX Prize, and the Feynman Award for Experimental Nanotechnology. One important potential application is blood purification for portable dialysis devices. Photo courtesy of Professor Christian Schafmeister
Atomically flat membranes, one molecule thick based on modified amino acids and containing atomically precise pores. The development is by Professor Christian Schafmeister, Temple University Department of Chemistry and a recipient of the KidneyX Prize, and the Feynman Award for Experimental Nanotechnology. One important potential application is blood purification for portable dialysis devices. Photo courtesy of Professor Christian Schafmeister

Atomically flat membranes, one molecule thick based on modified amino acids and containing atomically precise pores. The development is by Professor Christian Schafmeister, Temple University Department of Chemistry and a recipient
of the KidneyX Prize, and the Feynman Award for Experimental Nanotechnology.
One important potential application is blood purification for portable dialysis devices. Photo courtesy of Professor Christian Schafmeister