The global climate crisis, driven by the depletion of fossil fuels and rising atmospheric CO2 levels, has intensified the ...

A combined team of chemists and nano-scientists at Cornell University has developed a wireless microelectronic device powered ...

1 report tiny, light-powered devices that produce the electric current needed to drive microlitre-scale electrochemical reactions. The devices can be used to run hundreds of reactions in parallel ...

Tiny, light-powered devices could enable wireless high-throughput electrosynthesis on the microlitre scale. The researchers ...

BITS Pilani Hyderabad researchers develop ML-assisted non-invasive device for diabetes management, offering cost-effective ...

With the continuous growth of global energy demand and the intensification of environmental issues, CO2 emissions have surged ...

Researchers at the College of Engineering at Seoul National University have developed an innovative technology for rapid ...

Steroid hormones are among the most widespread aquatic micropollutants. They are harmful to human health, and they cause ecological imbalances in aquatic environments. Researchers investigated how ...

A new electrochemical immunoassay for ß-parvalbumin detection combines magnetic nanoparticles, enhancing food safety and allergen detection in seafood products.

So they teamed up with Cornell nanoscientist Paul McEuen to create wireless light-powered microelectronic devices that can turn nearly any well plate into an array of teeny-tiny electrochemical ...

However, scaling up the process presents a critical challenge. As system size increases, the pathways for electrochemical reaction materials become longer, resulting in higher internal resistance and ...