The resulting measurements have altered dramatically our understanding of
nanoscale interactions, and have provided new insights into altering material properties.
Nanostructured and chemically functionalized materials which mimic architectural and mechanical features of natural cell microenvironments hold promise for a better understanding and control of cell physiological processes through molecular and
nanoscale interactions.
They also explained the experimental results with models based on the estimation of
nanoscale interactions between the tiny building blocks.
Their approach provides a new platform to view and record
these nanoscale interactions in real time.
Not exact matches
That's according to researchers at Procter & Gamble, who have used atomic force microscopy — which generates
nanoscale images — and micro-CT scanning to analyse the
interactions between chemicals and hair fibres.
One of the key issues in nanoplasmonics is the
interaction between metallic nanoparticles at the
nanoscale.
«The idea of metamaterials in the context of optics is that you can manipulate light and decide how you want it to behave in this medium,» said Professor Menon a photonics expert whose specialty includes control of light - matter
interaction at the
nanoscale.
Professor Smith said: «Although researchers have used gels before to try and improve the formulation of naproxen, this is the first time that a self - assembling system has been used for the job, with the advantages of directed
interactions between the
nanoscale delivery scaffold and the drug.
The
interaction between the mineral crystals and the proteins yields an eggshell that's initially crack - resistant, while making
nanoscale adjustments over time that ultimately let a chick peck its way out, researchers report online March 30 in Science Advances.
«The next step will be investigation of the spin - phonon
interaction in
nanoscale thin films and structures made of this important antiferromagnetic material.»
The
interaction between the laser light and the plasmons is critical for sensing tiny displacements from
nanoscale particles, notes Aksyuk.
That's the promise of
nanoscale plasmonic interferometry, a technique that combines nanotechnology with plasmonics — the
interaction between electrons in a metal and light.
Leveraging their instrument's
nanoscale spatial resolution, they aim to determine the relative strengths of competing
interactions in the material that give rise to skyrmions.
Current research includes spin relaxation and decoherence in quantum dots due to spin - orbit and hyperfine
interaction; non-Markovian spin dynamics in bosonic and nuclear spin environments; generation and characterization of non-local entanglement with quantum dots, superconductors, Luttinger liquids or Coulomb scattering in interacting 2DEGs; spin currents in magnetic insulators and in semiconductors; spin Hall effect in disordered systems; spin orbit effects in transport and noise; asymmetric quantum shot noise in quantum dots; entanglement transfer from electron spins to photons; QIP with spin qubits in quantum dots and molecular magnets; macroscopic quantum phenomena (spin tunneling and coherence) in molecular and
nanoscale magnetism.