New computational method screens for small molecules that bind to RNA molecules that move through a variety of conformations.
We’re going to take a shot at doing a live webcast of Foresight@Google: 25th Anniversary Conference and Celebration. See this page for schedule and link: https://foresight.org/reunion/schedule.html It’s free so please have patience if we run into any technical difficulties. You can try sending questions to speakers by using this Twitter tag (though in-person participants get first… Continue reading Free webcast this weekend of Foresight Conference at Google
Just a quick note to let you know that the registration deadline for our 25th Anniversary Conference and Reunion weekend is midnight, this Wednesday June 22nd FORESIGHT@GOOGLE 25th Anniversary Conference Celebration & Reunion Weekend Google HQ in Mountain View, CA June 24-26, 2011 https://foresight.org/reunion $50 off with code: NANODOT You’ll be stimulated, enlightened and inspired… Continue reading Two days left to register for this weekend's Foresight@Google
A new book collects the papers and discussions from the 2007 Solvay Conference “From Noncovalent Assemblies to Molecular Machines”.
Treatment of mice previously infected with a lethal dose of flu virus with a nanotechnology-based drug lowered viral load a thousand fold.
I. Foresight@Google: Registration Deadline – Wed June 22nd II. Open Foresight Reception in Palo Alto – Friday June 24th III. Senior Associates Reunion Banquet – Saturday June 25th IV. Thiel Foundation’s 20Under20 to attend Foresight@Google ================================== I. Foresight@Google Registration Deadline – Wednesday June 22nd Foresight@Google – June 24-26, 2011 25th Anniversary Conference Celebration & Reunion Weekend… Continue reading Foresight 25th anniversary: Open reception June 24, SrAssoc banquet June 25
Does the recent discovery that quantum tunneling controls a chemical reaction of a carbene complicate theoretical studies of nanotechnology, especially of diamond mechanosynthesis?
Computational studies show that small diamond structures of the type that might serve as nanoparts in diamondoid molecular machinery are structurally stable.
A biochemical circuit built from 74 small DNA molecules demonstrates an approach that may enable embedded control of molecular devices.
The interactions of xenon atoms with a nanoelectromechanical system have now been measured to characterize the statistical noise caused by atomic fluctuations.
