![growing-nano-hair-large.jpg Control of the synthesis results in a diversity of self-assembled structures formed by sticky colloidal particles: array of “mushrooms” (left), wavy colloidal “fur”, dense fiber network, and three-dimensional reconstruction of the network (right).](/-/media/bes/images/highlights/2014/06/growing-nano-hair-large.jpg?h=208&w=850&la=en&hash=5E469C6244D370D7732A09B68900E7C9E04DEFEBF9573DC9171F5ACD3AD0B8D5)
Growing Nano “Hair” for Electrodes - From the Bottom Up
Electric fields control growth of “sticky” polymer particles.
Electric fields control growth of “sticky” polymer particles.
Soot particle diversity and complexity discovered using ultrafast x-rays at the Linac Coherent Light Source (LCLS).
An optimized nuclear force model yields a high-precision interaction with an unexpected descriptive power.
Scientists make the first experimental determination of the weak charge of the proton and extract the weak charges of the neutron and up and down quarks.
Argonne superconducting radiofrequency technology boosts a variety of applications.
Particles flowing from heavy ion collisions at RHIC and LHC reveal properties of new form of matter.
Argonne’s new superconducting cryomodule enhances its ATLAS heavy-ion accelerator.
First measurements of isotopes produced by Argonne’s new CARIBU facility provide insight into the creation of the elements in the universe.
Researchers have invented a new x-ray imaging technique that could reveal key atomic-scale properties in ferroelectric magnetic materials.
Using neutron diffraction, movement of charged atoms arranged as “stripes” was captured for the first time.
Novel high temperature superconductor magnet technology charts new territory.
Brookhaven’s large proton linear accelerator is able to produce medically useful radioisotopes not available elsewhere.