A dual-gated graphene transistor designed to operate directly in liquid environments has achieved up to 20 times the signal gain of conventional designs while cutting sensor drift by more than 15 ...

Capturing carbon dioxide (CO 2) from industrial emissions is crucial in the fight against climate change. But current methods, like chemical absorption, are expensive and energy-intensive. Scientists ...

Methane is one of the most dangerous greenhouse gases, trapping heat 84 times more effectively than carbon dioxide. It seeps into the atmosphere from landfills, sewage plants, and livestock, ...

One promising method for efficiently separating CO2 from these gases is filtration using graphene membranes containing nanosized pores. Graphene is particularly attractive as a filtration material ...

In a study published in Nature Chemical Engineering, researchers at EPFL developed a scalable method for producing porous graphene membranes that efficiently separate carbon dioxide. A graphene ...

British climate technology firm Levidian has launched its second-generation LOOP technology, which will unlock industrial levels of production of high-quality graphene for the first time. Image Credit ...

Using internal research funding, chemical engineers at Southwest Research Institute developed a multi-step process to produce graphene, a valuable carbon allotrope, from CO 2. The graphene, which is ...

Stacks of graphene, carefully twisted, gain a superpower: They become superconductors. Now scientists have new evidence that this “magic-angle” graphene is a member of a truly strange class of ...

Haydale has worked with Carbon Capture LLC (“CCL”), a newly established company based in Florida, to undertake a feasibility study to build and deliver an initial prototype device. Leveraging ...

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