Analytik Announces Strategic Partnership with EXODUS Biosystems to Deliver Groundbreaking Exosome Isolation Technology
Analytik is pleased to announce a new partnership with EXODUS Bio, introducing their revolutionary EXODUS H-600 automatic exosome isolation platform to the UK and Ireland.
The EXODUS H-600 is the world’s first fully automated exosome separation and purification device, employing negative-pressure oscillation and ultrasonic oscillation technologies to create an advanced membrane vibration separation system.
This innovation represents a major leap forward in exosome research, offering label-free, high-purity isolation from a wide range of biofluids. With ~99% purity and ~90% yield, this compact, automated system is designed to streamline workflows and accelerate discovery across clinical, plant, and environmental research applications.
Mel Disher, Particle Characterisation Specialist at Analytik, said: “We’re excited to introduce EXODUS as a powerful complement to our existing nanoparticle tracking analysis technology. This partnership is a reflection of our ongoing commitment to sourcing innovative technologies that enable scientists to push the boundaries of what’s possible.”
The EXODUS H-600 is now available through Analytik, with full technical support and consultation services provided by our expert team.
To explore how EXODUS can elevate your exosome research, visit: EXODUS H-600 Automatic Exosome Isolation System Page
About Exodus Bio
Headquartered in the US, EXODUS Bio is a pioneering biotechnology company specialising in advanced exosome isolation technologies. With a strong focus on innovation, EXODUS has developed cutting-edge solutions that combine ultrasonic nano-filtration, negative-pressure oscillation, and double-coupled ultrasonic harmonic oscillation to deliver high-purity, high-yield exosome separation. Their technologies are designed to support a wide range of applications, from biomedical research to large-scale manufacturing, and are trusted by institutions worldwide for their performance and reliability.
