Researchers created a single-step device using redox electrodialysis and electrosorption to capture and destroy diverse PFAS ...

A new study is the first to describe an electrochemical strategy to capture, concentrate and destroy mixtures of diverse ...

A University of Illinois Urbana-Champaign study is the first to describe an electrochemical strategy to capture, concentrate and ...

A University of Illinois Urbana-Champaign study is the first to describe an electrochemical strategy to capture, concentrate ...

Binghamton University will play a key role in a federal grant of up to $42.8 million to develop an implantable device that acts as a living pharmacy to treat inflammatory diseases.

Researchers develop nanomaterial textiles for wireless power, allowing real-time data transmission without the need for bulky ...

Scientists have developed a new material capable of capturing the harmful chemical benzene from the polluted air, offering a potential solution for tackling a major health and environmental risk.

The fuel cell is a tubular structure about the size of a pen. The process flows fuel (natural gas) through the center and air on the outside that pulls the electrons from the natural gas, making ...

As air flows across the surface of the ceramic ion transport material, some of the oxygen in the air is electrochemically ...

State Key Laboratory Base of Eco-Chemical Engineering, College of Chemistry and Molecular Engineering, Qingdao University of Science & Technology, Qingdao 266042, China ...

Their study provides a new insight into the role of ethylene carbonate—dubbed the "magic" electrolyte component—in lithium-ion batteries and expounds why that material and the electrochemically ...