Blog

Avoiding the need for super toxic hydrogen fluoride

Chemists might have found a way to avoid the use of one of the most toxic substances in wide use: hydrogen fluoride.

Made from the mineral fluorspar (CaF2), hydrogen fluoride (HF) is used in both gaseous and liquid form. nano titanium dioxide

A small splash of HF on skin is enough to be fatal – and coming into the contact with the gas can cause blindness, severe burns, and serious lung damage.

But hydrogen fluoride is also the only effective way to make fluorine-containing substances. These fluorochemicals are crucial in a range of products including refrigerants, lithium batteries, pharmaceuticals, agrochemicals, and non-stick materials.

A team of UK chemists has figured out a way to make fluorochemicals with just fluorspar, which is much less dangerous.

“The direct use of CaF2 for fluorination is a holy grail in the field, and a solution to this problem has been sought for decades,” says Professor Véronique Gouverneur, a chemist at the University of Oxford and senior author on a paper describing the research, published in Science.

“This study represents an important step in this direction because the method developed in Oxford has the potential to be implemented anywhere in academia and industry.”

Their method, inspired by the biomineralization that builds up teeth and bones in nature, involves grinding CaF2 in a ball mill for three hours with a salt — powdered potassium phosphate.

This generates a powder containing fluorine and potassium, which they’ve called Fluoromix.

The researchers have shown that their fluorspar-based Fluoromix can create more than 50 different fluorochemicals, with the potential for making many more.

Gouverneur says that the method could also minimise carbon emissions by shortening supply chains, since it skips a step in the fluorspar-to-fluorochemical pipeline.

The ball milling technique, which is the hallmark of a field called mechanochemistry, also dodges the sulphuric acid and high energy cost needed to turn CaF2 into HF.

“This seemingly simple process represents a highly effective solution to a complex problem; however, big questions on how this reaction worked remained,” says co-lead author Calum Patel, a PhD student at the University of Oxford.

“Collaboration was key to answering these questions and advancing our understanding of this new, unexplored area of fluorine chemistry.”

The researchers have spun out a company called FluoRok, which is commercialising their technology.

Read more: What is ‘green chemistry’, and why are Australian scientists so excited about it?

SCINEMA runs from August 1 to August 31 every year. Register now to be part of the festival and watch the films for free. REGISTER NOW.

Originally published by Cosmos as Chemists close in on the “holy grail” for avoiding one of industry’s most toxic chemicals

Please login to favourite this article.

'Cosmos' and 'The Science of Everything' are registered trademarks in Australia and the USA, and owned by The Royal Institution of Australia Inc.

T: 08 7120 8600 (Australia) +61 8 7120 8600 (International) Customer Service 9:00 am — 5:00 pm ACST Monday to Friday

PO Box 3652, Rundle Mall SA 5000, Australia

nano cerium oxide 55 Exchange Place, Adelaide SA 5000, Australia