Research and innovation are the foundation of the success of Forxine and its customers. A product that performs well in the laboratory will be useless if it cannot be commercialized.
Innovation means not only new products, but also process improvement. Forxine's professional technical team is using our rich expertise in all areas of research and development. Cross-field and Cross-national cooperation,including with universities and industry partners ensure that Forxine's boron technology stays ahead of the world.
Innovation is the key to be outstanding in a challenging market environment. Our success is driven by research and development. As a global fomous boron technology company, innovation is our driving force.
Every year, Forxine invests at least 10% of sales revenue in research and development. Currently, Forxine has the international advanced research and development capacity of the whole series of boron technology.We constantly propose sustainable solutions to promote innovation and make important contributions to improve life quantity, environmental protection, energy conservation, emission reduction and other resources.
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Reducing Agents
Borane green reductants are characterized by good selectivity and high efficiency. They play a key role in the synthesis of unsaturated hydrocarbon drugs and carbonyl compounds, including many classic reactions, such as Clemmensen reaction, Wolff-Kishner-HuangMinlong reaction and Oppenauer reaction -
Coupling Reagents
"Borane technology" is a creative new technology for building molecules with multiple advantages such as environmental protection, stable quality, low cost and high performance. It will become a core technology widely used in biomedicine, new materials and other fields. -
Chiral Catalysts
In 1990, Corey, who developed the theory and methodology of organic synthesis, won the Nobel Prize in chemistry for his invention of CBS asymmetric catalysis. CBS catalysis has the following advantages: 1) easy preparation; 2) relatively stable to air and water; 3) short reaction time; 4) high stereoselectivity; 5) high yield; 6) easy to recycle; 7) easy to predict the absolute configuration of products; 8) room temperature reaction: 9) can be applied to a variety of substrate reactions. Therefore, this technology plays an epoch-making role in terms of environmental protection, construction of high efficiency, energy conservation and emission reduction. -
Building Blocks
At present, chiral technology is mainly applied in the direction of chiral drugs, which is a major project concerning people's livelihood and Comprehensive Health. Natural chiral products are very limited, so it is very urgent to obtain multiple drugs through spectral chiral catalysts with high efficiency and low cost.