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Turning Coacervates into Biohybrid Glass: Core/Shell Capsules Formed by Silica Precipitation in Protein/Polysaccharide Scaffolds

2013; Wiley; Volume: 52; Issue: 39 Linguagem: Inglês

10.1002/anie.201303489

ISSN

1521-3773

Autores

Philipp Erni, Gregory Dardelle, Matthew Sillick, Kenneth Wong, Pascal Beaussoubre, Wolfgang Fieber,

Tópico(s)

Bone Tissue Engineering Materials

Resumo

Angewandte Chemie International EditionVolume 52, Issue 39 p. 10334-10338 Communication Turning Coacervates into Biohybrid Glass: Core/Shell Capsules Formed by Silica Precipitation in Protein/Polysaccharide Scaffolds Dr. Philipp Erni, Corresponding Author Dr. Philipp Erni [email protected] Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorGregory Dardelle, Gregory Dardelle Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorMatthew Sillick, Matthew Sillick Research North America, Materials Science, Firmenich SA, 250 Plainsboro Rd., 08536 Plainsboro Township, Princeton NJ (USA)Search for more papers by this authorDr. Kenneth Wong, Dr. Kenneth Wong Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorPascal Beaussoubre, Pascal Beaussoubre Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorDr. Wolfgang Fieber, Dr. Wolfgang Fieber Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this author Dr. Philipp Erni, Corresponding Author Dr. Philipp Erni [email protected] Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorGregory Dardelle, Gregory Dardelle Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorMatthew Sillick, Matthew Sillick Research North America, Materials Science, Firmenich SA, 250 Plainsboro Rd., 08536 Plainsboro Township, Princeton NJ (USA)Search for more papers by this authorDr. Kenneth Wong, Dr. Kenneth Wong Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorPascal Beaussoubre, Pascal Beaussoubre Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this authorDr. Wolfgang Fieber, Dr. Wolfgang Fieber Research Division, Materials Science Department, Firmenich SA, 7 Rue de la Bergère, 1217 Meyrin 2 Genève (Switzerland)Search for more papers by this author First published: 23 July 2013 https://doi.org/10.1002/anie.201303489Citations: 22Read the full textAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Graphical Abstract In case of emergency, break glass: Biohybrid core/shell capsules (see picture) suitable for encapsulation of volatile molecules can be formed through precipitation of amorphous silica in a protein/polyanion coacervate scaffold. The coacervate molds the final shape and structure of the capsule shell and provides an acidic microenvironment to locally induce hydrolysis and condensation of liquid silica precursors. References 1 1aD. Cui, J. Jing, T. Boudou, I. Pignot-Paintrand, S. De Koker, B. G. De Geest, C. Picart, R. Auzely-Velty, Adv. Mater. 2011, 23, H 200; 1bY. Yeo, E. Bellas, W. Firestone, R. Langer, D. S. Kohane, J. Agric. Food Chem. 2005, 53, 7518; 1cP. W. Chen, R. M. Erb, A. R. Studart, Langmuir 2012, 28, 144. 2 2aC. J. Martinez, J. W. Kim, C. Ye, I. Ortiz, A. C. Rowat, M. Marquez, D. Weitz, Macromol. Biosci. 2012, 12, 946; 2bW. H. Tan, S. Takeuchi, Adv. Mater. 2007, 19, 2696; 2cW.-H. Tan, S. Takeuchi, Lab Chip 2008, 8, 259. 3M. Pretzl, M. 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Controlled Release 2004, 99, 315. 32 32aP. Erni, A. Parker, Langmuir 2012, 28, 7757; 32bG. Dardelle, A. Subramaniam, V. Normand, Soft Matter 2011, 7, 3315. Citing Literature Supporting Information As a service to our authors and readers, this journal provides supporting information supplied by the authors. Such materials are peer reviewed and may be re-organized for online delivery, but are not copy-edited or typeset. Technical support issues arising from supporting information (other than missing files) should be addressed to the authors. Filename Description anie_201303489_sm_miscellaneous_information.pdf2.1 MB miscellaneous_information Please note: The publisher is not responsible for the content or functionality of any supporting information supplied by the authors. Any queries (other than missing content) should be directed to the corresponding author for the article. Volume52, Issue39September 23, 2013Pages 10334-10338 ReferencesRelatedInformation

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