Conducting polymer-hydrogels for medical electrode applications
TL;DR: Although both fabrication and evaluation of structure–property relationships remain challenges, materials comprised of conducting polymers and hydrogels are promising for the next generation of bioactive electrode coatings.
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About: This article is published in Science and Technology of Advanced Materials. The article was published on 18 Mar 2010. and is currently open access. The article focuses on the topics: Self-healing hydrogels & Conductive polymer.
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References
Principles of Polymer Chemistry.
TL;DR: A good introduction to the history of the POLYMER CHEMISTRY can be found in this paper, where the authors present a good overview of the history and history of their work.
15.1K
Hydrogels for tissue engineering: scaffold design variables and applications.
Jeanie L. Drury,David J. Mooney +1 more
TL;DR: Hydrogels are an appealing scaffold material because they are structurally similar to the extracellular matrix of many tissues, can often be processed under relatively mild conditions, and may be delivered in a minimally invasive manner.
5.1K
Hydrogels in Biology and Medicine: From Molecular Principles to Bionanotechnology†
TL;DR: This work highlights recent developments in engineering uncrosslinked and crosslinked hydrophilic polymers for biomedical and biological applications and shows how such systems' intelligent behavior can be used in sensors, microarrays, and imaging.
Cell attachment activity of fibronectin can be duplicated by small synthetic fragments of the molecule
TL;DR: The ability of fibronectin to bind cells can be accounted for by the tetrapeptide L-arginyl-glycyl- L-aspartyl-L-serine, a sequence which is part of the cell attachment domain of fibronsectin and present in at least five other proteins.
3.8K