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Le biomimétisme permet une percée dans la technologie des membranes Une équipe de l'Institut Adolphe Merkle (AMI) à Fribourg, en collaboration avec l'EPFL et des partenaires internationaux, a mis au point une méthode pour créer des membranes ultrafines inspirées des membranes cellulaires. Cela pourrait déboucher sur des applications dans des domaines allant des organes électriques artificiels implantables au dessalement de l'eau.
New method for creating biomimetic membranes offer solutions for energy, desalination and medicineResearchers from the Adolphe Merkle Institute (AMI), together with international collaborators, have pioneered a novel method for creating thin, energy-...
New Method For Creating Biomimetic Membranes Offer Solutions For Energy, Desalination And Medicine | Investment News | Trusted InsightResearchers from the Adolphe Merkle Institute (AMI), together with international collaborators, have pioneered a novel method for creating thin, energy-converting membranes that mimic the structure and function of biological cell membranes. This discovery could have significant applications in fields ranging from implantable artificial electric organs to water desalination.
Breakthrough in biomimetic membrane technology could impact multiple industriesResearchers from the Adolphe Merkle Institute (AMI, University of Fribourg), together with international collaborators, have pioneered a novel method ....
New method for creating biomimetic membranes offer solutions for energy, desalination and medicineResearchers from the Adolphe Merkle Institute (AMI), together with international collaborators, have pioneered a novel method for creating thin, energy-converting membranes that mimic the structure and function of biological cell membranes. This discovery could have significant applications in fields ranging from implantable artificial electric organs to water desalination.
Une percée dans la technologie des membranes biomimétiques pourrait avoir un impact sur de nombreuses industriesDes chercheurs et chercheuses du laboratoire de Physique des Solides (LPS,
Simulations moléculaires : une nouvelle voie pour contrôler la cristallisation de polymères industrielsDes scientifiques du CNRS et de TotalEnergies ont réussi une prouesse : simuler la cristallisation d’un matériau po
Molecular ejection transition in liquid crystal columns self-assembled from wedge-shaped minidendronsFan-shaped molecules with aromatic head-groups and two or more flexible pendant chains often self-assemble into columns that form columnar liquid crystals by packing on a 2d lattice. Such dendrons or minidendrons are essential building blocks in a large number of synthetic self-assembled systems and organic

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