US researchers have figured out an environmentally friendly way to mix fluorine into carbon molecules using enzymes and light.

The discovery illuminates a path for safer and more ecologically sound materials, particularly pharmaceuticals and agricultural chemicals.

“This work could pave the way for new, greener technologies in chemical production,” says senior researcher Professor Huimin Zhao, from the University of Illinois at Urbana-Champaign.

The discovery is published in Science.

Fluorine atoms can be very powerful additions to bioactive materials. They can make medicines easier to absorb, more stable in biological systems, and better at interacting with other proteins. About 20% of pharmaceuticals on the market contain fluorine.

But these organic (carbon-containing) molecules all typically need a bond between a fluorine atom and a carbon atom to work.

This bond is rare in nature, and difficult to make in a lab. At the moment, most fluorine-containing substances are made using super-toxic hydrogen fluoride, which can be fatal with just a small splash to the skin.

This has spurred chemists to hunt for other ways to fluorinate molecules.

In this research, the scientists used a protein that responds to light, called a photoenzyme.

Using this enzyme, they were able to add fluorine to a class of molecules called olefins. These carbon-containing molecules are widely used as a feedstock in the chemical industry, because they’re easy to turn into a range of other molecules.

The reaction is also “stereoselective”: it can differentiate between molecules that are chemically identical, but optically different. This is a difficult property to achieve in a lab, but crucial to the pharmaceutical and agricultural market because biological organisms can react differently to optically different molecules.

“Our research opens up fascinating possibilities for the future of pharmaceutical and agrochemical development,” says Dr Maolin Li, a postdoctoral researcher at the University of Illinois at Urbana-Champaign.

“By integrating fluorine into organic molecules through a photoenzymatic process, we are not only enhancing the beneficial properties of these compounds but also doing so in a manner that’s more environmentally responsible.

“It’s thrilling to think about the potential applications of our work in creating more effective and sustainable products for everyday use.”

Original article online at: https://cosmosmagazine.com/science/chemistry/fluorine-addition-pharmaceuticals/