Introducing Aplo Scope: A new era in super-resolution imaging! learn more >
Bacteria Biosensing Cell phenotyping DNA Replication Extracellular vesicles Immuno-oncology Nanoparticles Nanotechnology Neuroscience Plant science Signaling Virology
Aplo Scope Brightfield Confocal dSTORM HILO Live Imaging PAINT PALM Product SIM Single-Particle Tracking smFISH smFRET SMLM TIRF Widefield
Application Notes Imaging Guides Protocol Support Technical Guide Tips & Tricks Videos Webinars
When preparing a sample for STORM microscopy it is also crucial to select an appropriate buffer solution, which will efficiently regulate blinking behavior and help achieve high quality super-resolution images. Here is a brief guide to STORM buffer components and how they can affect sample imaging.
We've put together a one page, printable PDF to help you choose between the Nanoimager's key super-resolution microscopy techniques. It covers core techniques including dSTORM, PALM, SPT and smFRET.
We've put together a one page, printable PDF table to help you compare the most popular fluorophores used for PALM imaging, which include photoactivatable, photoconvertible and photoswitchable fluorescent proteins, as well as synthetic dyes.
Download the full Nanoimager technical specifications as a PDF.
Learn how the Nanoimager enables visualization and quantification of bacterial infection and host-pathogen interactions at a single-molecule level.
Learn how the Nanoimager provides a multiplex solution for novel antibiotic development.
Learn how the Nanoimager allows real-time visualization and quantification of cellular processes at a single-molecule level, in live cells.
Learn how the Nanoimager platform allows visualization and quantification of viral particles at a single molecule level.
Learn how the Nanoimager platform allows imaging of brain tissue at high-sensitivity and the visualization of individual synaptic proteins at high-resolution.
Learn how the Nanoimager platform supports imaging of brain tissue at high sensitivity and the visualization of synaptic proteins at a single-molecule level.
Learn how the Nanoimager platform supports super-resolution imaging of cultured neuronal cells and the precise localization of different synaptic proteins.
This guide focuses on recent progress in fluorescent super-resolution imaging and characterization of extracellular vesicles.
