Home > News > Theoretical model predicts self-assembly
December 7th, 2005
Theoretical model predicts self-assembly
Abstract:
Researchers at Princeton University, US, have used statistical mechanics to model the self-assembly of particles into a honeycomb lattice. The team tailored the interaction between the particles so that they formed a honeycomb pattern instead of a close-packed arrangement.
Source:
nanotechweb
Bookmark:
Self Assembly
Beautiful "flowers" self-assemble in a beaker: Elaborate nanostructures blossom from a chemical reaction perfected at Harvard May 17th, 2013
DNA-Guided Assembly Yields Novel Ribbon-Like Nanostructures: Approach could be useful in fabricating new kinds of materials with engineered properties May 16th, 2013
Production of Sensitive Hydrogen Peroxide Biosensor Using Silver Nanoparticles April 26th, 2013
Scientists see nanoparticles form larger structures in real time April 22nd, 2013
Materials
Advancements and developments of solid-state nanopores sensors May 16th, 2013
Physicists discover a new kind of friction: Friction in the nano-world May 16th, 2013
Squishy hydrogels may be the ticket for studying biological effects of nanoparticles May 15th, 2013
Pitt Chemists Demonstrate Nanoscale Alloys So Bright They Could Have Potential Medical Applications: “Think about a particle that will not only help researchers detect cancer sooner but be used to treat the tumor, too.” May 15th, 2013
Announcements
Aspen Aerogels Announces $22.5 Million Private Placement May 18th, 2013
NanoInk, Inc. Assets To Be Sold May 18th, 2013
NIA Public Briefing: Nanotechnology and the Council of Europe May 17th, 2013
Scientists capture first direct proof of Hofstadter butterfly effect May 17th, 2013