- Overview
- Ideal Process
- Key Capabilities
Overview
Green chemistry, also known as sustainable chemistry, is a rapidly evolving field that aims to design chemical products and processes to minimize or eliminate the use or generation of hazardous substances. Due to environmental pollution and resource shortage, the concept of green chemistry has attracted more and more attention.
Incorporating green chemistry principles into the chemical-pharmaceutical industry contributes to the development of safer and more sustainable products and processes, while also addressing the environmental and health issues associated with traditional chemical production. Our company adheres to the concept of green chemistry and has formed a green chemistry technology platform represented by continuous flow, biocatalysis, solid state chemistry and photochemistry during years of process development and commercial manufacturing.
Ideal Process
The ideal process has several key characteristics to ensure efficiency, sustainability, safety and economic viability. These characteristics include:
Key Capabilities
Continuous Flow Technology
As an innovative technology, continuous flow technology has recently gained momentum in the pharmaceutical industry. From a sustainability perspective, continuous flow technology is fully compatible with the principles of green chemistry, including increased efficiency, process safety, and waste minimization.
Biocatalysis
Biocatalysis not only has the advantages of high efficiency and greenness, but also can realize highly specific reactions. These inherent characteristics provide a broad prospect for its application in the pharmaceutical industry.
Solid State Chemistry Research
In the process of drug development, the solid form of drug active ingredients is one of the key research contents. The solid state chemistry research technology can help pharmaceutical companies to screen out which crystal form is most suitable for drug development and commercialization.
Photochemistry
Photochemistry, the study of chemical reactions that are initiated by the absorption of light, plays a crucial role in the pharmaceutical industry. By combining photochemistry with continuous flow technology, we have established a continuous flow photocatalysis technology platform for large-scale commercial production of pharmaceutical intermediates.