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Thin, Flexible, Light-absorbent Material for Energy and Stealth Applications

February 2, 2017

Transparent window coatings that keep buildings and cars cool on sunny days. Devices that could more than triple solar cell efficiencies. Thin, lightweight shields that block thermal detection. These are potential applications for a thin, flexible, light-absorbing material developed by engineers at the University of California San Diego.

Strength of Hair Inspires New Materials for Body Armor

January 17, 2017

In a new study, researchers at the University of California San Diego investigate why hair is incredibly strong and resistant to breaking. The findings could lead to the development of new materials for body armor and help cosmetic manufacturers create better hair care products.

New Laser Based on Unusual Physics Phenomenon Could Improve Telecommunications, Computing and More

January 11, 2017

Researchers at the University of California San Diego have demonstrated the world’s first laser based on an unconventional wave physics phenomenon called bound states in the continuum. The technology could revolutionize the development of surface lasers for communications and computing applications, and high-power lasers for industrial and defense applications.

New Technique to Study How Proteins and Ligands Interact

December 6, 2016

small molecules that bind to them, known as ligands, interact. The method, called Transient Induced Molecular Electronic Spectroscopy (TIMES), could be used as a tool to better understand protein chemistry and to accelerate drug discovery and development.

Semiconductor-free Microelectronics Are Now Possible, Thanks to Metamaterials

November 7, 2016

If not included, the first paragraph from release will be used): Engineers at the University of California San Diego have fabricated the first semiconductor-free, optically-controlled microelectronic device. Using metamaterials, engineers were able to build a microscale device that shows a 1,000 percent increase in conductivity when activated by low voltage and a low power laser.

Nanoengineer Honored for Fundamental Research on Battery Materials

October 7, 2016

University of California San Diego nanoengineering professor Shirley Meng is the recipient of the 2016 Charles W. Tobias Young Investigator Award from the Electrochemical Society (ECS). The award recognizes a young scientist or engineer who has contributed outstanding theoretical or experimental work in the fields of electrochemistry, electrochemical engineering, or solid-state science and technology.

Researchers Build World’s Largest Database of Crystal Surfaces and Shapes

September 13, 2016

Nanoengineers at the University of California San Diego, in collaboration with the Materials Project at Lawrence Berkeley National Laboratory, have created the world’s largest database of elemental crystal surfaces and shapes to date. Dubbed Crystalium, this new open-source database can help researchers design new materials for technologies such as fuel cells, catalytic converters in cars, computer microchips, nanomaterials and solid-state batteries.

UC San Diego Nanoengineer Makes Popular Science’s ‘Brilliant 10’ List

September 12, 2016

Popular Science magazine has named Liangfang Zhang, a nanoengineering professor at the University of California San Diego, in its 15th annual “Brilliant 10” list, a lineup of “the 10 most innovative young minds in science and engineering.” Zhang was recognized for his revolutionary work in the field of nanomedicine, which focuses on nanomaterials for medical applications.

Model Maps Out Molecular Roots of Learning and Memory Formation

September 6, 2016

A team of researchers has built a mathematical model that describes the molecular events associated with the beginning stage of learning and memory formation in the human brain. The research paves the way for understanding cognitive function and neurodegenerative diseases—at the molecular and cellular levels.

Researchers Use a Single Molecule to Command Stem Cells to Build New Bone

August 31, 2016

Researchers at the University of California San Diego have discovered an easy and efficient way to coax human pluripotent stem cells to regenerate bone tissue—by feeding them adenosine, a naturally occurring molecule in the body. The stem-cell-derived bone tissue helped repair cranial bone defects in mice without developing tumors or causing infection.
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