Gold nanoparticles emit intense heat, study findsATHENS, Ohio – Nanoparticles of gold can act as tiny, precise and powerful heaters, which potentially could be used in biomedical applications, according to a new study.
When stimulated with the right frequency of laser light, a small collection of metal nanoparticles, such as gold, can heat an area up to 1,000 times its size, according to Ohio University scientists Hugh Richardson and Sasha Govorov.
The heating properties were observed in ice, water and a polymer shell that was designed to mimic material in biological systems. Though the ice did not melt when heated by low-intensity laser alone, it dissolved once a gold nanoparticle was embedded, said the scientists, whose findings have been published online by the journal Nano Letters.
The gold particle is 50 nanometers, which is 200,000 times smaller than an object 1 centimeter in size, Govorov said.
The process not only generates a considerable amount of heat at much larger scale than the nanoparticle, but also is very precise, the researchers report. By using bio-linkers, the nanoparticles can be designed to affect specific targets. Bio-linkers are special, sticky molecules that are created to link with only certain types of cells. In a biomedical application, a few gold nanoparticles could be used to generate heat to impact a single macro-scale object, such as a tumor cell.
"What's amazing is that we're taking particles that you can't even image with a light microscope, and all of the sudden they cause a huge change in a macroscopic system," said Richardson, whose project was funded by Ohio University's NanoBioTechnology Initiative, one of three major research priorities of the institution.
The scientists will collaborate with other researchers to continue to test and design efficient nanoscale heaters in more complicated systems, such as in the cells from living organisms, Govorov said.
Richardson is a professor of chemistry and Govorov is an associate professor of theoretical physics at Ohio University. Other collaborators in the project include Zachary Hickman, Alyssa Thomas, Wei Zhang and Martin Kordesch, all of Ohio University.
Written by Sarah Laubacher.
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