Inkjet inks made of silk could yield smart bandages, bacteria-sensing gloves and more Inkjet printing is one of the most immediate and accessible forms of printing technology currently available, according to the researchers, and ink-jet printing of biomolecules has been previously proposed by scientists. However, the heat-sensitive nature of these unstable compounds means printed materials rapidly lose functionality, limiting their use.Enter purified silk protein, or fibroin, which offers intrinsic strength and protective properties that make it well-suited for a range of biomedical and optoelectronic applications. This natural polymer is an ideal "cocoon" that can stabilize compounds such as enzymes, antibodies and growth factors while lending itself to many different mechanically robust formats, said Fiorenzo Omenetto, Ph.D., senior author on the paper and associate dean for research and Frank C. Doble Professor of Engineering at Tufts School of Engineering."We thought that if we were able to develop an inkjet-printable silk solution, we would have a universal building block to generate multiple functional printed formats that could lead to a wide variety of applications in which inks remain active over time," he said.By using this simple approach and starting with the same base material, the research team created and tested a "custom library" of inkjet-printable, functional silk inks doped with a variety of components:The researchers, who included collaborators from the University of Illinois at Urbana-Champaign, foresee wide potential for future investigation and application of this technology.For example, Omenetto envisions more work on the bio-sensing gloves, which he says could selectively react to different pathological agents. The ability to print antibiotics in topographical patterns could address the need for "smart" bandages, where therapeutics are incorporated and delivered to match a complex injury.The published research was restricted to one ink cartridge, but the scientists believe it could extend to multi-cartridge printing combining complex functions.In addition to Omenetto, authors on the paper were Hu Tao, former post-doctoral researcher in the Omenetto lab; Benedetto Marelli, Miaomiao Yang and Bo An, of the Department of Biomedical Engineering at Tufts University; Serdar Onses and John Rogers, of the University of Illinois at Urbana-Champaign; and David Kaplan, of the Department of Biomedical Engineering and Department of Chemical and Biological Engineering at Tufts University.Omenetto and Kaplan are pioneers in the use of silk as an alternative to plastics. Omenetto's 2011 TED Talk called silk a "new old material" that could have a profound impact in many technical fields.This work was supported by funding from the Office of Naval Research (N14-13-1-0596) and the AFOSR (FA9550-14-1-0015).