Advanced microfluidics and optical measurement solutions
for innovative research
Combining microfluidics-based droplet sorting with high-quality, real-time imaging creates a highly powerful and versatile cell sorting system. This integration leverages the strengths of both techniques, leading to several significant advantages in cell analysis and sorting.
Enhanced Precision and Real-Time Insights: The ‘Seeing is Believing’ approach transforms cell sorting from mere intensity peak analysis to a comprehensive visual journey. This provides real-time, image-based insights, revolutionizing user experience and interaction with experiments.
Increased Speed and Efficiency: Real-time imaging enables rapid assessment and sorting, significantly boosting throughput and efficiency. This is ideal for high-volume applications while maintaining exceptional precision and control, the main advantage of droplet sorting.
Detailed Analysis: High-resolution imaging offers detailed visual information about each cell, allowing for comprehensive analysis of morphological characteristics, fluorescence signals, and other phenotypic markers. Sorting can be performed with fluorescence labels or label-free, increasing flexibility and applicability.
Automation, Reproducibility, and High Cell Viability: The integration of automated microfluidics and real-time imaging minimizes human intervention, ensuring consistent, reproducible results, reducing sample loss, and maintaining high cell viability.
Our goal is to provide the best tools for scientists who work with droplet sorting to solve the unmet needs in life science research.
Our products
SSENSIFIC develops and offers advanced optical measurement and automation systems for microfluidics based research.
Our comprehensive product range supports droplet-based assay-driven cell sorting, opening new avenues for scientific research.
News and blog
Read our blog for insights to our products and updates on events that we are attending
Triff uns auf der BioCHIP Berlin
Triff uns auf der BioCHIP Berlin Wir freuen uns darauf neue Entwicklungen unserer Sensortechnologie für Mikrofluidik auf der BioCHIP Konferenz in Berlin zu zeigen und mit Ihnen zu diskutieren. An unserem Ausstellungsstand zeigen wir nicht nur unsere Systeme sondern...
Investigation of endovascular air embolism as a cause of microbrain infarcts using a new model system.
Investigation of endovascular air embolism as a cause of micro brain infarcts using a new model system Scientists at Heidelberg University Hospital around Tabea Schaefer under the direction of PD Dr. Dominik Vollherbst and Prof. Dr. Martin Bendszus have developed a...
Untersuchung der endovaskulären Luftembolie als Ursache für Mikrohirninfarkte anhand eines neuen Modellsystems.
Untersuchung der endovaskulären Luftembolie als Ursache für Mikrohirninfarkte anhand eines neuen Modellsystems Wissenschaftler am Universitätsklinikum Heidelberg um Tabea Schaefer unter der Leitung von PD Dr. Dominik Vollherbst und Prof. Dr. Martin Bendszus haben ein...
Hear from our customers
Looking to see how our products can help your research? Hear what fellow researchers have to say:
“…ODIN is a big upgrade for our droplet-based microfluidic setups. Using the sensor unit, we developed an image-based droplet sorter, allowing us to perform complex droplet sorting experiments with a streamlined workflow…”
“Our research group started using an ODIN camera for the selection and isolation of interesting microorganisms from natural samples. It allowed quick and incredibly convenient image-based sorting of droplets with high accuracy and versatility, greatly aiding our experiments. Additionally, the Sensific team provided us with comprehensive demonstrations and suggestions tailored to our special application needs…”