CORDIS Project
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This project focuses on 3D printing hydrogel networks to create artificial tissues that can respond to stimuli. By developing biocompatible materials that mimic muscle movements, it aims to advance applications in biomaterials and tissue engineering.
This proposal describes the 3D printing of hydrogel droplet networks to prepare artificial tissue-like materials that demonstrate stimulus-responsive chemo-mechanical actuation. A recent breakthrough by Prof.
Bayley’s research group has enabled the 3D printing of self-supporting droplet networks which can be functionalised to allow rapid electrical and molecular communication along a specific path.
As a result of this, an opportunity now exists to prepare tissue-like materials that can perform m…
THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
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LOS ANGELES UCLA SANTA BARBARA UCSB DAVIS UCD RIVERSIDE UCR SAN DIEGO UCSD SANTA CRUZ UCSC IRVIN
United States, Berkeley
Type: University / higher education
Activity type: Higher or Secondary Education Establishments
SME: No
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