Nature 2013, 500, 54 — 58 — Nature News, News & Views Sensitive probing of temperature variations
on nanometre scales is an outstanding challenge in many areas of modern science and technology.
His current research interests include biochemical sensors based on AFM Technology; Chemical surface identification
on the nanometre scale with AFM; Nanomechanics, nanorobotics and molecular devices at the ultimate limits of measurement and fabrication; Atomic Force microscopy research on insulators; Single Spin Magnetic Resonance Force Microscopy (MRFM) and Self - organization and self - assembly at the nanometre scale.
Not exact matches
Like leaves, biofilms also have rough structures both
on the micrometre and the
nanometre scale, making them resistant to wetting with water.
Furthermore, the microscope will be capable of performing live - cell super-resolution imaging through structured illumination microscopy (SIM) and Super-Resolution Radial Fluctuations (SRRF); for fixed cells resolutions
on the
scale of tens of
nanometres will be achievable using single molecule localization microscopy (SMLM) techniques.
We aim to push its limits
on all fronts to establish a technique which combines
nanometre 3D resolution with maximum labelling efficiencies, absolute measurements of protein copy numbers, precise multi-colour measurements, high - throughput for large
scale statistics and novel data analysis approaches, to address the vast array of exciting biological questions at the nanoscale, which are becoming accessible only now.