This is the metadata section. Skip to content viewer section. Nuclear magnetic resonance cryoporometry is a newly developed technique that can characterize the pore size distribution of nano-scale ...

Researchers achieve MRI resolution of one billionth of a meter, paving the way for the most detailed images of individual molecules ever produced. (Nanowerk News) Conventional MRI scans, familiar to ...

(Nanowerk News) A research team led by CHEON Jinwoo at the Center for Nanomedicine, within the Institute for Basic Science (IBS), developed the Nano MRI Lamp: A new technology platform that tunes the ...

Nanoscale magnets in the form of iron-containing molecules might be used to improve the contrast between healthy and diseased tissue in magnetic resonance imaging (MRI) according to a new report by ...

The research group proposed and tested a nano-antenna that uses the specific optical resonance of dielectric nanoparticles to form a near field of circularly polarized light. This technique bolsters ...

Figure 1: Illustration of the scattering response of plasmonic nanorings. Figure 2: Experimental set-up and scattering measurements versus simulations demonstrating the presence of a magnetic-based ...

Physicists have created an MRI-like machine capable of making three-dimensional scans of single virus particles — a resolution 100 million times higher than previously possible. The achievement is a ...

Background: Active spondylolysis is an acquired lesion in the pars interarticularis and is a common cause of low back pain in the young athlete. Objectives: To evaluate whether the one-legged ...

A research team led by CHEON Jinwoo at the Center for Nanomedicine, within the Institute for Basic Science (IBS), developed the Nano MRI Lamp: A new technology platform that tunes the magnetic ...

Conventional MRI scans, familiar to us from hospitals, have a resolution of around one-tenth of a millimeter, which allows them to image incredibly thin slices of our bodies, from head to toe, helping ...