ExoStation – 上海晟燃生物科技有限公司

Automatic

This feature implies that the device can autonomously carry out the separation of small extracellular vesicles without the need for manual intervention, enhancing experimental efficiency and reproducibility.

Fast separation speed

The device exhibits efficient separation speed, quickly completing sample processing, thereby reducing experimental time and enhancing experimental efficiency.

Economical and compact design

The device's cost-effectiveness and compact design make it an ideal choice for laboratories of any size, easily installable in various laboratory settings, providing flexibility for researchers.

Easy Operarsion

The device incorporates an intelligent touchscreen control system, allowing users to easily and intuitively set and monitor experimental parameters, reducing operational complexity and improving user experience.

High Purity

The device's separation process ensures high sample purity, contributing to obtaining accurate and reliable experimental results, especially suitable for research areas with stringent purity requirements.

Nine-channel parallel operation

he design with nine parallel channels enables simultaneous processing of multiple samples, significantly increasing sample throughput and catering to high-throughput experimental demands.

High Yield

The device exhibits a high yield of small extracellular vesicles, ensuring efficient extraction and providing ample material for downstream applications.

Stability

The device demonstrates excellent product stability, reliably maintaining its performance over an extended period, ensuring consistent and efficient operation.

Scale Size Exclusion Chromatography With sEV500 and the ExoStation

The ExoStation and sEV 500 Ultrapure Columns can effectively isolate small extracellular vesicles from samples, and are suitable for the isolation and purification of small extracellular vesicles (sEV) from most biological samples (plasma, serum, urine, etc.) and cell cultures, featuring high purity, high recovery and high throughput. Not only can the total amount of sEV obtained from the purification of 2mL plasma samples meet the requirements of whole group testing, but also help to standardize the operation of sEV isolation and purification in multi-center clinics.

Scale Size Exclusion Chromatography With sEV500 and the EXOSATION

sEV 500 isolation is based on principles of size exclusion chromatography, whereby molecules and particles in solution are separated by their size as they pass through a column consisting of porous resin particles. In sEV500 isolation, larger particles are unable to enter pores in the resin, and instead flow through the resin relatively quickly. In contrast, particles smaller than the lower end of the isolation range enter pores in the resin, which slows their journey. Through this size-based separation, EVs and soluble protein are separated to a high degree of resolution, and a purified volume can be obtained.