Galatek Plate Handler_Galatek

Flow cytometry (FCM) is a powerful laser-fluorescence technique that enables high-speed, high-resolution analysis of individual cells in a fluid stream. This capability is critical for quantifying and characterizing cellular properties, uncovering population heterogeneity, and is indispensable in immunology, cell biology, and clinical diagnostics. The Automated FCM Analysis System is engineered to address the need for efficiency, featuring continuous sample loading that supports high-throughput testing requirements without interruption.

Quantitative real-time PCR (qPCR) is a foundational technique in areas ranging from clinical diagnostics and food safety to fundamental molecular biology studies. However, conventional qPCR workflows often face limitations, with typical run times of 1-2 hours and constrained sample throughput. The need for manual plate handling and data acquisition in large-scale experiments further creates analytical bottlenecks. Our Automated QPCR Analysis System overcomes these challenges by integrating a versatile four-axis collaborative robot. It enables fully automated data consolidation and supports continuous, walk-away operation, significantly enhancing workflow efficiency while minimizing the risk of cross-contamination.

Immediate Drop-on-demand (I.D.O.T.) utilizes a proprietary, non-contact dispensing technology to advance a wide range of scientific applications. It is particularly critical in areas like genomics, microfluidics, high-throughput screening, magnetic bead handling, and DNA library construction.
Automated Nanoliter Pipetting System automates the transfer of nanoliter-scale volumes, facilitating uninterrupted processing across multiple sample batches. This capability minimizes manual steps, thereby accelerating experimental workflows while maintaining exceptional accuracy. Ultimately, it delivers the speed, precision, and automation required for modern, high-output laboratory environments.

Automated High-Content Imaging System provides real-time analysis of organelles, cells, and organoids, delivering quantitative data on fluorescence intensity, morphological structure, and spatiotemporal dynamics within cell populations. It is widely applied in various fields, including drug discovery, cell biology research, antibody drug development, and biomedical studies.
The Automated High-Content Imaging System, featuring a four-axis collaborative robotic arm and a built-in incubator, enables long-term live-cell imaging by precisely controlling humidity, temperature, and CO² concentration. Designed with a compact footprint, the system fits on a standard laboratory benchtop and offers flexible throughput with easy upgrade options.