Industry: Chemical Region: Switzerland Transaction price: US$ 1 million Transaction method: equity investment
Project introduction:
A Swiss company is committed to using the power of bacteria to decompose stubborn chemical pollutants, providing a sustainable and cost-effective alternative to traditional treatment methods. The company's innovative technology separates naturally occurring bacteria that can degrade harmful substances and applies them to commercial solutions on a large scale, making pollution a thing of the past.
Solution introduction:
1. Treatment of long and short chain perfluoro and polyfluoroalkyl substances (PFAS)
The company is developing bacterial solutions for treating wastewater contaminated by PFAS and repairing PFAS contaminated sites. The company's bacteria have been proved to biodegrade long-chain and short-chain PFAS. From the PFAS degrading bacteria library, the company can assemble appropriate bacterial solutions according to specific needs.
2. Customized microbial discovery and treatment scheme
According to the specific needs of customers for chemical waste treatment, the company tailored microbial discovery and treatment programs, optimized these communities and verified their scalability. With the help of experienced industrial partners, the company can go further and provide large-scale bacterial solutions for target waste treatment.
Application field:
1. PFAS
Perfluorinated and polyfluoroalkyl substances (PFAS) are one of the great pollution challenges in this century, and are often called "chemical substances". The company has discovered and is further developing potential bacterial communities to degrade the main types of PFAS and their by-products.
2. Pharmaceutical industry
Found bacteria that can degrade specific active pharmaceutical ingredients (API) and its by-products. Help API manufacturers treat their wastewater in a cost-effective and sustainable way.
3. Agrochemicals
Assist agrochemical manufacturers to deal with hazardous wastewater generated in the production of pesticides, fungicides and herbicides.
4. microplastics
Microplastics accumulates in natural water, and some bacteria have adapted to degrade them. Companies can use the untapped potential of deep-sea biodiversity to degrade microplastics.
Cooperation mode:
Seek China's necessary partners for the sustainable treatment of chemical wastes.