Inaugural class of Rice Innovation Fellows announced
The Provost’s Office and the Liu Idea Lab for Innovation & Entrepreneurship (Lilie) have announced the inaugural class of Rice Innovation Fellows, a program that will provide educational and financial support to the next generation of scientist- and engineer-led spinout ventures.
Strong magnets put new twist on phonons
Phonons, quasiparticles in a crystal lattice that are usually hard to control by external fields, can be manipulated by a magnetic field -- but it takes a very strong magnet.
Rare earth elements await in waste
Rice University scientists applied their flash Joule heating process to coal fly ash and other toxic waste to safely extract rare earth elements essential to modern electronics and green technologies.
Matthew Jones wins NSF CAREER Award
Rice chemist Matthew Jones wins an NSF CAREER Award to study controlled growth of metallic nanoparticles for biomedicine, energy storage and computing.
Machine learning fine-tunes flash graphene
Rice University scientists are using machine learning techniques to streamline the process of synthesizing graphene from waste through flash Joule heating.
Now you don’t see it … and now you do
Scientists and engineers from Rice University and the Kuwait Institute for Scientific Research discover fluorescence from silicon nanoparticles in cement and show how it can be used to reveal early signs of damage in concrete structures.
Rusting iron can be its own worst enemy
Atom-level simulations reveal the reason iron rusts in supposedly “inert” supercritical carbon dioxide fluid. Trace amounts of water can cause a reaction at the interface between iron and the fluid, prompting the formation of corrosive chemicals.
When graphene speaks, scientists can now listen
Brothers working in a lab at Rice University discover that sound can be used to analyze the properties of laser-induced graphene in real time.
Nanotube fibers stand strong -- but for how long?
A Rice University study calculates how cyclic strain and stress affects nanotubes and describes how fibers under cyclic loads can fail over time.
Nickel’s need for speed makes unusual nanoribbons
It’s now possible to quickly make ultrathin nanoribbons of molybdenum disulfide, with a speedy nickel nanoparticle leading the way.
Rice’s Technology Development Fund backs faculty projects
Nine projects proposed by Rice researchers have been granted seed funding by Creative Ventures' Technology Development Fund.
Welch Institute names Sir Anthony Cheetham, Kristin Persson to Scientific Advisory Board
The Welch Institute for Advanced Materials names Sir Anthony Cheetham and Professor Kristin Persson to its Scientific Advisory Board.
Ultrathin solar cells get a boost
Rice University engineers boost the efficiency while retaining the toughness of solar cells made of two-dimensional perovskites.
Magnetene’s ultra-low friction explained
Rice scientists help make the first measurements of ultra-low friction in 2D magnetene.
Weak bonds a strength in making borophene
Rice University researchers show how borophene, the 2D form of boron, can be grown to simplify its use for applications.
