October 15, 2015
October 15, 2015 —
An international team of researchers has identified a new molecule involved in skin fibrosis, a life-threatening disease characterized by the inflammation and hardening of skin tissue. The new study is the first to investigate the role of this molecule in skin fibrosis and paves the way toward new and improved therapies for the disease.
October 13, 2015
October 13, 2015 —
A wireless charger that’s compatible with different consumer electronics from different brands is one step closer to becoming a reality thanks to research by electrical engineers at the University of California, San Diego. Researchers have developed a dual frequency wireless charging platform that could be used to charge multiple devices, such as smartphones, smartwatches, laptops and tablets, at the same time — regardless of which wireless standard, or frequency, each device supports.
September 22, 2015
September 22, 2015 —
Machines that are much smaller than the width of a human hair could one day help clean up carbon dioxide pollution in the oceans. Nanoengineers at the University of California, San Diego have designed enzyme-functionalized micromotors that rapidly zoom around in water, remove carbon dioxide and convert it into a usable solid form.
September 16, 2015
September 16, 2015 —
Nanoparticles disguised as human platelets could greatly enhance the healing power of drug treatments for cardiovascular disease and systemic bacterial infections. These nanoparticles are capable of delivering drugs to targeted sites in the body — particularly injured blood vessels and organs infected by harmful bacteria. This targeted drug delivery greatly increased the therapeutic effects of drugs administered to diseased rats and mice.
September 1, 2015
September 1, 2015 —
Electrical engineers at the University of California, San Diego demonstrated a new wireless communication technique that works by sending magnetic signals through the human body. The new technology could offer a lower power and more secure way to communicate information between wearable electronic devices, providing an improved alternative to existing wireless communication systems, researchers said.
August 25, 2015
August 25, 2015 —
Nanoengineers at the University of California, San Diego used an innovative 3D printing technology they developed to manufacture multipurpose fish-shaped microrobots — called microfish — that are efficient swimmers, are chemically powered and magnetically controlled. These proof-of-concept synthetic microfish will inspire a new generation of “smart” microrobots that have diverse capabilities such as detoxification, sensing and directed drug delivery.
July 28, 2015
July 28, 2015 —
A team of photonics researchers at the University of California, San Diego is part a new multimillion dollar photonics manufacturing and research center based in Rochester, New York. Vice President Joseph Biden and Governor Andrew Cuomo announced on July 27 the details of the American Institute for Manufacturing Integrated Photonics (AIM Photonics), which was established to push the United States as a worldwide leader in photonics manufacturing.
July 17, 2015
July 17, 2015 —
Researchers at Harvard University and the University of California, San Diego, have developed a new user-friendly resource to accompany the powerful gene editing tool called CRISPR/Cas9, which has been widely adopted to make precise, targeted changes in DNA. This breakthrough has the potential to facilitate new discoveries in gene therapies and basic genetics research. The research was published in the July 13 issue of Nature Methods.
July 7, 2015
July 7, 2015 —
Researchers have developed a new design for a cloaking device that overcomes some of the limitations of existing “invisibility cloaks.” In a new study, electrical engineers at the University of California, San Diego have designed a cloaking device that is both thin and does not alter the brightness of light around a hidden object. The technology behind this cloak will have more applications than invisibility, such as concentrating solar energy and increasing signal speed in optical communications.
June 25, 2015
June 25, 2015 —
Electrical engineers have broken key barriers that limit the distance information can travel in fiber optic cables and still be accurately deciphered by a receiver. Photonics researchers at the University of California, San Diego have increased the maximum power — and therefore distance — at which optical signals can be sent through optical fibers. This advance has the potential to increase the data transmission rates for the fiber optic cables that serve as the backbone of the internet, cable, wireless and landline networks. The research is published in the June 26 issue of the journal Science.
