Using light-emitting nanoparticles, Rutgers University-New Brunswick scientists have invented a highly effective method to detect tiny tumors and track their spread, potentially leading to earlier cancer detection and more precise treatment. The technology, announced today, could improve patient cure rates and survival times.
Rutgers University-New Brunswick Professor Mark Croft began giving physics demonstrations for students and outside groups 40 years ago, but the demos required lots of heavy lifting and he later stopped giving them.
But stopping the shows made Croft feel guilty. So, 20 years ago, he asked Rutgers physics support specialist Dave Maiullo – star of Off-Broadway’s “That Physics Show” at The Elektra Theatre in New York City – to help him stage holiday physics shows for the public. Maiullo obliged, and an estimated 25,000-plus children and adults have since seen the annual Rutgers Faraday Holiday Children's Lecture and shows during Rutgers Day at Rutgers University-New Brunswick. Inspiration for the shows came from England’s Michael Faraday, a famous physicist and chemist who began presenting annual Christmas Lectures at the Royal Institution in London in 1825.
There are out-of-the-way places. There are remote places. Then there are places like the Trans-Antarctic Mountains, where the nearest human being – possibly, the nearest living organism – is at least 150 miles away.
That’s where Rutgers University-New Brunswick planetary geologist Juliane Gross will spend six to eight weeks, beginning in December. An associate professor of earth and planetary sciences in the School of Arts and Sciences, she will recover meteorites for the Case Western Reserve University's Antarctic Search for Meteorites (ANSMET) program, funded by the National Aeronautics and Space Administration (NASA).
If you’re sitting around the holiday table and one of your curmudgeonly uncles says something unintentionally bigoted, your inclination may be to ask for more mashed potatoes and get on with the feast. But Rutgers University-New Brunswick researchers say that might be a mistake.
Slowly but steadily, an enormous mass of warm rock is rising beneath part of New England, although a major volcanic eruption isn’t likely for millions of years, a Rutgers University-led study suggests. The research is unprecedented in its scope and challenges textbook concepts of geology.
More than 20 leaders at Rutgers University, including Rutgers University–New Brunswick Chancellor Deba Dutta, will join Governor-elect Philip D. Murphy’s Transition2018 committees to undertake policy analysis and recommendations on a host of state issues and new initiatives as the new gubernatorial administration prepares to take office.
Four Rutgers University professors have been named fellows of the American Association for the Advancement of Science (AAAS), an honor bestowed by their peers for scientifically or socially distinguished efforts to advance human knowledge. The honorees, representing Rutgers University-New Brunswick and Rutgers Biomedical and Health Sciences (RBHS), will be presented with official certificates and gold and blue rosette pins – the colors representing science and engineering – at the Feb. 17 AAAS Annual Meeting in Austin, Texas.
Inside cells, protein “motors” act like trucks on tiny cellular highways to deliver life-sustaining cargoes. Now a team led by Rutgers University–New Brunswick researchers has discovered how cells deploy enzymes to place traffic control and “roadway under construction” signs along cellular highways.
The Climate Science Special Report, released last week by the U.S. Global Change Research Program, details the science behind global warming and its current and potential impacts on the American economy, communities, public health and infrastructure.
One of the report’s lead authors is Robert E. Kopp, a professor in the Department of Earth and Planetary Sciences at Rutgers University–New Brunswick, director of Rutgers’ Institute of Earth, Ocean, and Atmospheric Sciences (EOAS) and co-director of Rutgers’ Coastal Climate Risk and Resilience Initiative.
Want to restore hearing by injecting stem cells into the inner ear? Well, that can be a double-edged sword. Inner ear stem cells can be converted to auditory neurons that could reverse deafness, but the process can also make those cells divide too quickly, posing a cancer risk, according to a study led by Rutgers University–New Brunswick scientists.