When gold nanoparticles combine with red, blue and green glowing proteins, as in this sensor, it's possible to discern drug - induced physical and chemical changes on a cell's surface.
Not exact matches
Beyond the activity of the drugs, the plasmonic effects of the
gold nanoparticles could heat the
nanoparticles when they are subjected to light, attacking the cancer cells through a second route.
When mixed in solution, the complementary tethers paired up to «trap» one
gold nanoparticle inside each tetrahedron cage.
When mixed and annealed, the tetrahedral arrays formed superlattices with long - range order where the positions of the
gold nanoparticles mimics the arrangement of carbon atoms in a lattice of diamond, but at a scale about 100 times larger.
When stimulated with visible light, spherical
gold nanoparticles absorb and convert light energy into heat.
The researchers looked at how microbial communities (from waste - water - activated sludge) behaved
when exposed to
gold nanoparticles with various surface coatings and shapes.