Abstract: The invention relates to silk electronic components and methods for fabricating the same. The silk electronic components can be used as novel devices, such as implantable bioelectric and/or biophotonic devices, biosensors, surveillance devices, invisible cloaks, electromagnetic concentrators or antennas.
Type:
Grant
Filed:
April 12, 2011
Date of Patent:
March 21, 2017
Assignees:
TUFTS UNIVERSITY, TRUSTEES OF BOSTON UNIVERSITY
Inventors:
David Kaplan, Fiorenzo Omenetto, Hu Tao, Richard Averitt, Andrew Strikwerda, Xin Zhang, Konstantinos Tsioris
Abstract: A dried adhesive coating is manufactured by steps of: a) providing a composition comprising a solution of a polymer, wherein at least 1 wt % of said polymer based on the molecular weight Mw are catechol groups, and wherein the concentration of said polymer in said composition is from 0.1 to 250 mg/ml, b) adjusting the pH of the composition to a value from about รณ to about 7, either (i) before applying the composition to the surface to be coated or (ii) after applying the composition to the surface to be coated, c) applying the composition to the surface to be coated to obtain an adhesive coating on at least a part of the surface, and d) drying the coating.
Abstract: A method for producing a capsule for protein crystallization is provided. The method comprises adding a solution containing a protein and a gelling agent to an ionic cross-linking solution to form an ionically cross-linked gel capsule that encapsulates a solution of the protein.