LANTCET: elimination of solid tumor cells
with photothermal bubbles generated around clusters of gold nanoparticles.
Not exact matches
The gold - iron oxide core - shell nanorods may be useful in cancer therapy,
with MRI imaging enabled by the iron oxide shell, and local heating created by the
photothermal effect on the gold nanorod core killing cancer cells.
One way to help gold nanorods retain their shape during
photothermal heating is to coat them
with silica shells, which confine the nanorods to their original shape but allow light to pass through.
Sublethal
Photothermal Stimulation
with a Micropulse Laser Induces Heat Shock Protein Expression in ARPE - 19 Cells.
Expertise: Interactions of Ionizing and Non-ionizing Radiation
with Biological Tissues, Novel Laser - Based Therapeutics for Brain Tumors, Nanoparticle - Based
Photothermal Therapy
We conclude that the suggested method of cell theranostics
with «rainbow plasmonic nanobubbles» demonstrates the following advantages over other methods of
photothermal excitation of plasmonic NPs and PNBs:
Optical generation and detection of the PNBs was performed
with a previously developed
photothermal laser microscope [44] equipped
with a dual pulsed laser (STH - 01, Standa Ltd, Vilnius, Lithuania): each pulse 0.5 ns, the wavelength of 532 nm (matching plasmon resonances of gold spheres of 60 nm) and tunable near - infrared (matching plasmon resonances of gold nanorods and nanoshells that were employed).