A new expert analysis in Nature Nanotechnology questions whether industry, government and scientists are successfully applying lessons learned from past technologies to ensure the safe and responsible development of emer...
The Defense Advanced Research Projects Agency (DARPA) has awarded a $1.2 million grant to an interdisciplinary team of Harvard University researchers to study surface enhanced Raman scattering (SERS) for the first phase ...
While nanotechnology is being used in everything from paints to car exteriors, clothing and cosmetics, research is also underway using the technology to discover medical breakthroughs. Nanoparticle research by Professor ...
A unique nanoparticle system developed by University at Buffalo scientists takes advantage of the versatility of bioconjugated quantum rods to ferry novel diagnostic and therapeutic agents across the blood-brain barrier, according to recent in vitro findings.
Agilent Technologies, Inc. and University of Technology Sydney (UTS) have teamed up to establish a unique research facility here to study trace metals and other elements in tissue, and their effects on health.
The UT...
Borrowing from a Nobel Prize-winning technique credited with starting the nanotechnology revolution, a team of researchers from Oak Ridge National Laboratory (ORNL) and Northwestern University's Nanomaterials for Can...
Materials researchers at the National Institute of Standards and Technology (NIST) have developed a simplified, low-cost process for producing high-quality, water-soluble quantum dots for biomedical applications. By usin...
A new treatment strategy using molecular "smart bombs" to target metastasis with anti-cancer drugs leads to good results using significantly lower doses of toxic chemotherapy, with less collateral damage to sur...
Researchers at North Carolina State University have found that quantum dot nanoparticles can penetrate the skin if there is an abrasion, providing insight into potential workplace concerns for healthcare workers or indiv...
"TIGA," the new high-tech imaging center at the University of Heidelberg founded in cooperation with the Japanese company Hamamatsu, provides deep insights: a high-tech robot makes it possible for the first time to automatically reproduce and evaluate tissue slices only micromillimeters thick - an important aid for researchers in understanding cancer or in following in detail the effect of treatment on cells and tissue.
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