Industrial Microscopy

Dive deep into detailed articles and webinars focusing on efficient inspection, optimized workflows, and ergonomic comfort in industrial and pathological contexts. Topics covered include quality control, materials analysis, microscopy in pathology, among many others. This is the place where you get valuable insights into using cutting-edge technologies for improving precision and efficiency in manufacturing processes as well as accurate pathological diagnosis and research.

How To Perform Fast & Stable Multicolor Live-Cell Imaging

With the help of live-cell imaging researchers gain insights into dynamic processes of living cells up to whole organisms. This includes intracellular as well as intercellular activities. Protein or…

TauInteraction – Studying Molecular Interactions with TauSense

Fluorescence microscopy constitutes one of the pillars in life sciences and is a tool commonly used to unveil cellular structure and function. A key advantage of fluorescence microscopy resides in the…

Images of smooth muscle cells during wound healing. Courtesy L.S. Shankman, Ph.D., University of Virginia.

Studying Wound Healing of Smooth Muscle Cells

This article discusses how wound healing of cultured smooth muscle cells (SMCs) in multiwell plates can be reliably studied over time with less effort using a specially configured Leica inverted…

Identification of distinct structures_roundworm_Ascaris_female

Find Relevant Specimen Details from Overviews

Switch from searching image by image to seeing the full overview of samples quickly and identifying the important specimen details instantly with confocal microscopy. Use that knowledge to set up…

Image of fixed U2OS cell expressing mEmerald-Tomm20 denoised using a 3D RCAN model trained with matching low and high SNR image pairs acquired on an iSIM system.

AI Microscopy Image Analysis – An Introduction

Artificial intelligence-guided microscopy image analysis and visualization is a powerful tool for data-driven scientific discovery. AI can help researchers tackle challenging imaging applications,…

Correlation of markers in the LM and the FIB image.

How to Target Fluorescent Structures in 3D for Cryo-FIB Milling

This article describes the major steps of the cryo-electron tomography workflow including super-resolution cryo-confocal microscopy. We describe how subcellular structures can be precisely located in…

HeLa cells labeled with dark blue – Hoechst, Nuclei; magenta – MitoTracker Green, Mitochondria; turquoise - Bodipy, lipid droplets. Cells kindly provided by Ievgeniia Zagoriy, Mahamid Group, EMBL Heidelberg, Germany.

Precise 3D Targeting for EM Imaging - Access What Matters

Find out how the seamless cryo-electron tomography workflow Coral Cryo uses confocal super resolution to target your structure of interest more precisely.

A Guide to Cryo-Electron Tomography

Cryo-electron tomography (CryoET) is used to resolve biomolecules within their cellular environment down to an unprecedented resolution below one nanometer.

Multi-color SRS image of a tri-cellular cancer spheroid

The Potential of Coherent Raman Scattering Microscopy at a Glance

Coherent Raman scattering microscopy (CRS) is a powerful approach for label-free, chemically specific imaging. It is based on the characteristic intrinsic vibrational contrast of molecules in the…