A Path to Breaking Up Forever Chemicals

A Path to Breaking Up Forever Chemicals - WIRED

Good Chemistry uses high performance computing in the cloud to accelerate research on removing hazards from the environment.

Scientists break down forever chemicals in drinking water

Researchers have discovered a way to eliminate 'forever chemicals', or PFAS, which usually take hundreds or thousands of years to break down.

'Forever chemicals' destroyed by simple new method

Using low temperatures and inexpensive, common reagents, the research team developed a process that causes two major classes of PFAS compounds ...

New method to break down 'forever chemicals' shows promise ...

The new process “defluorinates” the compounds with a mixture of water and the dipolar aprotic solvent dimethyl sulfoxide (DMSO), leaving carbon ...

New method to break down forever chemicals uses nanoparticles ...

Breaking down molecules with ultrasound and nanoparticles · Better than previous methods · Combating PFAS together.

How to Destroy 'Forever Chemicals' | Scientific American

Health-damaging PFASs are nearly impossible to break down—but a new hot-water technique can destroy them.

How to take 'forever' out of forever chemicals - Nature

But it didn't play out that way. In just a few minutes, the chemicals were no more. “When plasma degraded PFAS so rapidly, within minutes, he ...

Competition to destroy 'forever chemicals' heats up - C&EN

When combined with technologies that concentrate PFAS on the front end, destruction technologies could provide a cost-effective way to eliminate ...

New 'forever chemical' cleanup strategy discovered | ScienceDaily

... breaks up strong fluorine-to-carbon bonds in the PFAS compounds and other concentrated organic compounds in heavily polluted water. The ...

AWS - Wired | A Path to Breaking Up Forever Chemicals - Facebook

What can be done to get “forever chemicals” out of our environment? Good Chemistry, in partnership with AWS, is trying to find out by ...

Scientists find new way to break down PFAS 'forever chemicals'

Researchers at Northwestern University published a study showing that PFAS can be destroyed using two relatively harmless chemicals.

Scientists Think They've Found a Shockingly Simple Way to ...

A team of scientists has discovered a simple, low-energy way to break apart one of the largest groups of 'forever chemicals', ...

'Forever chemicals' destroyed by simple method | NSF

Using low temperatures and inexpensive, common reagents, the research team developed a process that causes two major classes of PFAS compounds ...

100% of toxic "forever chemicals" break down overnight ... - New Atlas

Scientists in Japan have developed a new method for breaking down toxic “forever chemicals ... way from using it to counter forever chemicals from ...

The race to destroy PFAS, the forever chemicals

PFAS compounds have been linked to a number of health conditions. They are aren't broken down in our bodies or in the environment, ...

Forever Chemicals No More? PFAS Are Destroyed With New ...

A team of scientists has found a cheap, effective way to destroy so-called forever chemicals, a group of compounds that pose a global threat to human health.

What's the deal with PFAS, aka 'forever chemicals'? - Scope

What's more, PFAS can be hard to get rid of -- often called "forever chemicals," they stick around in the environment for decades and some may ...

Farewell to 'forever' – Destroying PFAS by grinding it up with a new ...

Per- and polyfluoroalkyl substances (PFAS) are potentially harmful substances known as “forever chemicals” because they are so difficult to ...

Simple method destroys dangerous 'forever chemicals,' making ...

Chemists at UCLA and Northwestern University have developed a simple way to break down almost a dozen types of these nearly indestructible “forever chemicals”

Scientists may have found a way to destroy 'forever chemicals' in water

... forever chemicals,' with a new technology that removes them from drinking water before they end up in the environment — and our bodies.