| Literature DB >> 30368926 |
Jeremy R Sanborn1,2, Xi Chen1,3, Yun-Chiao Yao1,3, Joshua A Hammons1, Ramya H Tunuguntla1, Yuliang Zhang1, Christina C Newcomb4, Jennifer A Soltis4, James J De Yoreo4,5, Anthony Van Buuren1, Atul N Parikh2, Aleksandr Noy1,3.
Abstract
Biological membranes provide a fascinating example of a separation system that is multifunctional, tunable, precise, and efficient. Biomimetic membranes, which mimic the architecture of cellular membranes, have the potential to deliver significant improvements in specificity and permeability. Here, a fully synthetic biomimetic membrane is reported that incorporates ultra-efficient 1.5 nm diameter carbon nanotube porin (CNTPs) channels in a block-copolymer matrix. It is demonstrated that CNTPs maintain high proton and water permeability in these membranes. CNTPs can also mimic the behavior of biological gap junctions by forming bridges between vesicular compartments that allow transport of small molecules.Entities:
Keywords: artificial membranes; carbon nanotube porins; carbon nanotubes; fast transport; polymersomes
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Year: 2018 PMID: 30368926 DOI: 10.1002/adma.201803355
Source DB: PubMed Journal: Adv Mater ISSN: 0935-9648 Impact factor: 30.849