I’ve been in Santa Barbara, CA, this week, finding out that traveling with two small children doesn’t leave much time for writing about nanotechnology or anything else. The occasion for the visit is the 65th birthday of Ed Kramer, a distinguished materials scientist at University of California Santa Barbara; it’s a part social, part scientific event bringing together his past and present graduate students, postdocs, and collaborators to celebrate his career so far and to thank him for his huge influence on our scientific careers (I was a postdoc with him between 1987 and 1989 at Cornell; these were two tremendously productive, educational and enjoyable years).
The scientific part of the proceedings consisted of a meeting with talks by his former students and collaborators. There were many nano-science luminaries around and much great stuff talked about; among those talking were Ned Thomas, director of the Institute of Soldier Nanotechnology at MIT, talking about photonic crystals, Herbert Hui with a beautifully lucid description of exactly why gecko feet are so sticky, Chris Ober from Cornell talking about new resist materials for making sub-30nm features, as well as rapid 3-d prototyping at the micron-scale using two-photon photo-polymerisation, and lots of other good stuff too.
Strangely, though, there was little mention of the nano word. Even the most distinguished of our number, faced with giving a talk in front of Ed, felt a bit like a graduate student again, in awe of the great man. Everyone has worked with him is in agreement that he’s someone who expects a lot from their students, who is quick to appreciate good work, and outstanding at standing back and making sure his collaborators get all the credit they deserve and more. But he’s got a low tolerance threshold for hype and fashion and we all knew that the way to get his approval is by telling a solid science story without any sweeping claims for grander significance.
I think we were all overcompensating. I asked Ned Thomas how he felt about now being very publicly labeled as a nanotechnologist, rather than as a polymer physicist. He thought there was a real difference; the science he did was rather similar, learning how to create nanostructures in polymers by self-assembly, but the focus had changed. It wasn’t so much that all his work now was focused on an immediate application, but the possibility of an eventual application provided a much more powerful steer on the direction of his work than was the case in the past. I think this rings true as a description of one of the changes in the sociology of science that nanotechnology as a concept has brought about.