«The barrier is temporary opened at a desired location for approximately 2 hours by a small elevation of the temperature
generated by the nanoparticles when exposed to a radio - frequency field,» explained first author and co-inventor Seyed Nasrollah Tabatabaei.
Not exact matches
The researchers used a coherent, nanoscale beam of X-rays
generated by the high - flux synchrotron accelerator at the Advanced Light Source to interrogate each
nanoparticle.
By generating these jammed
nanoparticle surfactants at interfaces, fluid drops of arbitrary shape and size can be stabilized opening applications in fluidics, encapsulation and bicontinuous media for energy applications.
The researchers were able to rapidly
generate uniform heat throughout frozen tissues
by mixing tiny silica - coated iron oxide
nanoparticles, each one with a diameter 150 times smaller than a red blood cell, into the cryopreservation solution used for vitrification.
Scientists from the Max Planck Institute in Germany have now confirmed that silver
nanoparticles are significantly toxic when they penetrate cells, although the number of toxic radicals they
generate can vary
by coating them with carbohydrates.
A combination of iron - oxide
nanoparticles and an alternating magnetic field, which together
generate heat, have activated an immune system response to tumors in mice according to an accepted manuscript
by Dartmouth - Hitchcock Norris Cotton Center researchers in the journal Nanomedicine: Nanotechnology, Biology and Medicine released online on February 24, 2014.
Only nontoxic
nanoparticles can be screened, and researchers must control for potential inflammation
generated by the inserted DNA.
Rice University photonics researchers have unveiled a new
nanoparticle amplifier that can
generate infrared light and boost the output of one light
by capturing and converting energy from a second light.
The HZI will develop a vaccination protocol for mucosal administration based on three novel strategies: (i) development and optimization of a vaccination protocol in which parenterally - primed T and B cells are subsequently pulled into the mucosa
by the local delivery of the cognate antigen to the requested effector site, (ii) testing the co-administration of antigens with novel mucosal adjuvants using different mucosal immunisation routes and schedules, and (iii) testing various
nanoparticles co-administered with different immunomodulators for their ability to
generate both systemic and mucosal immune responses following transcutaneous / trans - follicular vaccination.
* «Hemagglutinin - stem
nanoparticles generate heterosubtypic influenza protection»
by Yassine et al. published in Nature Medicine on Monday 24th August.
Dielectrophoresis (DEP) is a scalable technique to electronically trap and manipulate biological cells, biomolecules and
nanoparticles using electric field gradients that can be
generated by applying a voltage bias between two electrodes.