Using mechanical force, rather than light or heat, to transform molecules from one form to another has gained traction in the past decade, creating the field of polymer mechanochemistry. Stanford University chemists have made a polymer that transforms from a nonconducting form to a semiconducting one in response to mechanical force. One day, such a material could find use in mimicking the sense of touch or hearing, in which a mechanical force is converted into an electrical signal. Yan Xias group spent two years trying to design the polymer without success. One-day Xia was chatting with his Stanford colleague Noah Z. Burns, when Burns showed him the ladderane lipids his group had been synthesizing. The two realized these ladder-like fused cyclobutanes would be a great motif for the polymer Xia envisioned. When subjected to mechanical force, they imagined that the ? bonds in the cyclobutanes would unzip to form continuous ? bonds as in polyacetylene (shown). Their colleague Todd J. Martinez joined the collaboration to study the mechanism of this transformation via computer modelling. When sonicated in solutiona common technique for applying mechanical forcethe polyladderene structure they made goes from colourless to blue in a matter of seconds. With longer sonication, the material darkens and transforms into an insoluble mesh of semiconducting nanowires (Science 2017, DOI: 10.1126/science.aan2797). The polymer could be used, for example, to report on physical stresses in a material. Its a creative work of mechanochemical beauty, comments Jeffrey S. Moore, a mechanochemistry pioneer at the University of Illinois, Urbana-Champaign. I wish wed have thought of this ourselves. Next, the chemists hope to create simpler structures that accomplish the same task. The polyladderene synthesis currently yields decent amounts, Burns says. But if we ever wanted to do commercial applications, our synthesis, as it stands, would not be viable, he says. So, we are actively making simpler monomers that take less steps to get to.
Chemical & Engineering News, 4 August 2017 ; http://pubs.acs.org/cen/news