At Sky Lifesciences Solutions, we provide advanced flow chemistry products and continuous processing solutions for the pharmaceutical, chemical, and life sciences industries, enabling a smooth transition from batch to efficient and scalable continuous manufacturing. Our portfolio includes high-performance flow reactors from Corning, featuring Glass and Silicon Carbide (SiC)-based plate reactors for superior heat and mass transfer, as well as advanced membrane-based separators from Zaiput Flow Technologies for efficient liquid-liquid/ Gas-liquid separation. We also offer high-precision pumps, back pressure regulators (BPRs), and premium tubings and fittings to ensure accurate, stable, and reliable flow operations. By combining cutting-edge technology with strong process expertise, we help our customers improve safety, enhance product quality, reduce costs, and scale seamlessly from laboratory to production, making us a trusted partner in continuous flow chemistry.
We have been using Zaiput’s phase separator for the past two years. Overall, we have had a great experience with it. This phase separator is extremely easy to use and reliable. It can rapidly separate most organic and aqueous solutions. We also like to apply it to the separation of emulsions. More recently, we successfully used it for gas-liquid separation. It’s a good tool that any flow chemistry lab should have on hand.
Must-have flow chemistry tools! We have been working with Zaiput’s products for a few years; both the separators and back pressure regulators are robust and reliable, even under intensive use. The combination of cost-effectiveness, reliability and modularity is very unique on the market. The in-line separators offer modular in-line capability for continuous extraction and work-up for complex multistep processes. They offer unique solutions for handling toxic or hazardous chemicals with no exposure.
Zaiput's technology fundamentally changes the risk/benefit analysis of including or excluding an extraction step in a manufacture process. It does this by offering the opportunity to sidestep traditional extraction issues (emulsions, extended layer separations, and reproducibility) while harnessing extraction's inherent ability to control critical quality attributes.
