When Super-Resolution Localization Microscopy Meets Carbon Nanotubes
Langue
en
Article de revue
Ce document a été publié dans
Nanomaterials. 2022-04-22, vol. 12
MDPI
Résumé en anglais
We recently assisted in a revolution in the realm of fluorescence microscopy triggered by the advent of super-resolution techniques that surpass the classic diffraction limit barrier. By providing optical images with ...Lire la suite >
We recently assisted in a revolution in the realm of fluorescence microscopy triggered by the advent of super-resolution techniques that surpass the classic diffraction limit barrier. By providing optical images with nanometer resolution in the far field, super-resolution microscopy (SRM) is currently accelerating our understanding of the molecular organization of bio-specimens, bridging the gap between cellular observations and molecular structural knowledge, which was previously only accessible using electron microscopy. SRM mainly finds its roots in progress made in the control and manipulation of the optical properties of (single) fluorescent molecules. The flourishing development of novel fluorescent nanostructures has recently opened the possibility of associating super-resolution imaging strategies with nanomaterials' design and applications. In this review article, we discuss some of the recent developments in the field of super-resolution imaging explicitly based on the use of nanomaterials. As an archetypal class of fluorescent nanomaterial, we mainly focus on single-walled carbon nanotubes (SWCNTs), which are photoluminescent emitters at near-infrared (NIR) wavelengths bearing great interest for biological imaging and for information optical transmission. Whether for fundamental applications in nanomaterial science or in biology, we show how super-resolution techniques can be applied to create nanoscale images "in", "of" and "with" SWCNTs.< Réduire
Mots clés en anglais
single-walled carbon nanotubes (SWCNTs)
super-resolution microscopy (SRM)
nanoscience
nanoscopy
bionanotechnology
single-molecule study
single-particle tracking (SPT)
near-infrared (NIR) probes
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