Patch Clamp
Patch clamp is vital in neuroscience, measuring cell electrical activity by sealing a micropipette onto a membrane area for precise analysis.
TIRF Microscopy
TIRF microscopy offers high-resolution imaging near the cell membrane, providing insights into dynamic cellular processes in biology and neuroscience.
Spinning Disc Confocal Microscopy
Spinning disc confocal microscopy offers high-resolution live-cell imaging, crucial for studying dynamic cellular processes in biology and neuroscience.
Spatial Transcriptomics
Spatial transcriptomics integrates RNA sequencing with spatial data, mapping gene expression to understand disease progression, particularly in cancer, for targeted interventions.
Micropatterning
Micropatterning technologies, such as innovations like Primo Alveole, represent a sophisticated approach in biomedical research.
Microfluidics
Microfluidics revolutionizes biomedical research by enabling accurate preclinical models like organoids for studying disease mechanisms and drug responses.
Single-Cell Sequencing
Single cell sequencing allows researchers to analyze the genetic information of individual cells, uncovering cellular heterogeneity within a population…
Multi Electrode Array
MEA records electrical activity, aiding studies on network dynamics and drug responses in neuroscience, pharmacology, and regenerative medicine.
STED microscopy
STED microscopy surpasses the diffraction limit, visualizing structures at the nanoscale, crucial for biological and materials research.
FLIM Microscopy
FLIM (Fluorescence Lifetime Imaging Microscopy) measures fluorescence decay time, advancing research in various fields by revealing molecular dynamics in live cells and tissues.
