Kiralis Technologies
Enantiomer Separation
Company Overview
Snapshot
Founded in September 2018 by Eyal Capua, Kiralis Technologies operated with 1–10 employees. The company raised $3 million across one funding round from Grove Ventures. A key milestone for the company was the development of its spin-controlled water electrolysis technology for efficient hydrogen production, which was highlighted in September 2018.
Business overview
Kiralis Technologies developed a commercial application for separating chiral molecules, aiming to achieve high-purity, repeatable products with minor modifications for various racemic solutions. The technology targets markets such as pharmaceuticals, pesticides, herbicides, flavors, and fragrances. This process is based on the chiral-induced spin selectivity (CISS) phenomenon, discovered by Professor Naaman and Professor Paltiel, which utilizes a magnetic field to separate enantiomers in a racemic mixture. The company operates within the Health Tech & Life Sciences sector, specifically focusing on Pharma & Medical Biotechnology and Drugs Discovery & Development.
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- What is Kiralis Technologies' primary focus?
- Kiralis Technologies focuses on developing a commercial application for separating chiral molecules to produce high-purity, repeatable products for various racemic solutions in markets such as pharmaceuticals, pesticides, and fragrances.
- Who founded Kiralis Technologies?
- Kiralis Technologies was co-founded by Eyal Capua.
- What is the core technology behind Kiralis Technologies' separation process?
- The core technology is based on the chiral-induced spin selectivity (CISS) phenomenon, which enables the separation of enantiomers in a racemic mixture through the application of a magnetic field.
- When was Kiralis Technologies founded?
- Kiralis Technologies was founded in September 2018.
- What was a significant technology development by Kiralis Technologies?
- In September 2018, Kiralis Technologies developed spin-controlled water electrolysis for the efficient production of hydrogen, showcasing its capabilities in chemistry and materials.