Add to ORKGElectron microscopy has been instrumental in our understanding of complex biological systems. Although electron microscopy reveals cellular morphology with nanoscale resolution, it does not provide information on the location of different types of proteins. An electron-microscopy-based bioimaging technology capable of localizing individual proteins and resolving protein-protein interactions with respect to cellular ultrastructure would provide important insights into the molecular biology of a cell. Here, we synthesize small lanthanide-doped nanoparticles and measure the absolute photon emission rate of individual nanoparticles resulting from a given electron excitation flux (cathodoluminescence). Our results suggest that the optimization o...
Upconversion nanoparticles (UCNPs) are a class of inorganic fluorophores that follow the anti-Stokes...
Electron microscopy (EM) entered a new era with the emergence of direct electron detectors and new n...
Recently, a number of nanoparticle carriers have provided new platforms for research in biotechnolog...
Lanthanide-doped nanophosphors have emerged as promising optical labels for high-resolution, "multic...
The understanding of living systems and their building blocks relies heavily on the assessment of st...
International audienceLight and Transmission Electron Microscopies (LM and TEM) hold potential in bi...
Labeling of specimens by nanoscale probes is common approach of complex biological\nsystems explorat...
Electron microscopy (EM) remains the primary method for imaging cellular and tissue ultrastructure, ...
Nanometer-scale identification of multiple targets is crucial to understand how biomolecules regulat...
Electron microscopy (EM) remains the primary method for imaging cellular and tissue ultrastructure, ...
International audienceWe report on the single-particle properties of lanthanide-ion doped oxide nano...
We demonstrate a new nanoimaging platform in which optical excitations generated by a low-energy ele...
Advances in the imaging of biological structures with transmission electron microscopy continue to r...
Photoinduced electron transfer (PET)-based molecular probes have been successfully used for the intr...
Super-resolution imaging has revolutionized how the structure of biological systems are observed at ...
Upconversion nanoparticles (UCNPs) are a class of inorganic fluorophores that follow the anti-Stokes...
Electron microscopy (EM) entered a new era with the emergence of direct electron detectors and new n...
Recently, a number of nanoparticle carriers have provided new platforms for research in biotechnolog...
Lanthanide-doped nanophosphors have emerged as promising optical labels for high-resolution, "multic...
The understanding of living systems and their building blocks relies heavily on the assessment of st...
International audienceLight and Transmission Electron Microscopies (LM and TEM) hold potential in bi...
Labeling of specimens by nanoscale probes is common approach of complex biological\nsystems explorat...
Electron microscopy (EM) remains the primary method for imaging cellular and tissue ultrastructure, ...
Nanometer-scale identification of multiple targets is crucial to understand how biomolecules regulat...
Electron microscopy (EM) remains the primary method for imaging cellular and tissue ultrastructure, ...
International audienceWe report on the single-particle properties of lanthanide-ion doped oxide nano...
We demonstrate a new nanoimaging platform in which optical excitations generated by a low-energy ele...
Advances in the imaging of biological structures with transmission electron microscopy continue to r...
Photoinduced electron transfer (PET)-based molecular probes have been successfully used for the intr...
Super-resolution imaging has revolutionized how the structure of biological systems are observed at ...
Upconversion nanoparticles (UCNPs) are a class of inorganic fluorophores that follow the anti-Stokes...
Electron microscopy (EM) entered a new era with the emergence of direct electron detectors and new n...
Recently, a number of nanoparticle carriers have provided new platforms for research in biotechnolog...