Pan HM, Yu H, Guigas G, Fery A, Weiss M, Patzel V, Trau D (2017)
Publication Type: Journal article
Publication year: 2017
Book Volume: 9
Pages Range: 5447-5456
Journal Issue: 6
Hydrogels with complex internal structures are required for advanced drug delivery systems and tissue engineering or used as inks for 3D printing. However, hydrogels lack the tunability and diversity of polymeric shells and require complicated postsynthesis steps to alter its structure or properties. We report on the first integrated approach to assemble and design polymeric shells to take on various complex structures and functions such as multilayer nanofilms, multidensity immobilization matrix, or multiadhesive chromatography resins via the tuning of four assembly parameters: (a) poly(allylamine) (PA) concentration, (b) number of poly(allylamine)/poly(styrenesulfonic acid) (PA/PSSA) incubations, (c) poly(allylamine) (PA) to poly(ethylene glycol) (PEG) grafting ratio, and (d) % H
APA:
Pan, H.M., Yu, H., Guigas, G., Fery, A., Weiss, M., Patzel, V., & Trau, D. (2017). Engineering and Design of Polymeric Shells: Inwards Interweaving Polymers as Multilayer Nanofilm, Immobilization Matrix, or Chromatography Resins. ACS Applied Materials and Interfaces, 9(6), 5447-5456. https://doi.org/10.1021/acsami.6b13545
MLA:
Pan, Houwen Matthew, et al. "Engineering and Design of Polymeric Shells: Inwards Interweaving Polymers as Multilayer Nanofilm, Immobilization Matrix, or Chromatography Resins." ACS Applied Materials and Interfaces 9.6 (2017): 5447-5456.
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