Despite their potential, solid-state batteries struggle to replace lithium-ion due to manufacturing hurdles and performance ...

Researchers developed a stretchable polymer-based solid electrolyte that could enable safer, flexible solid-state batteries ...

1. An international research group consisting of NIMS and the Finnish University of Jyväskylä has discovered through its electrode-electrolyte system research that electron and proton (i.e., hydrogen ...

A research team affiliated with UNIST has demonstrated that liquid electrolytes, when frozen, can still facilitate lithium-ion conduction sufficient for battery operation—challenging the traditional ...

Lithium-ion batteries today are nearly ubiquitous, powering everything from cell phones to laptops. Small wonder, then, that scientists are continually trying to develop safer and more ...

Researchers have developed a new technique that enables sensitive and specific detection of molecules at the electrode/electrolyte interface. This new method uses diffraction from graphene gratings to ...

Supercapacitors can store more energy than and are preferable to batteries because they are able to charge faster, mainly due to the vertical graphene nanosheets that are larger and positioned closer ...

A Finnish research team has shown that semiconductor electrodes can split water into hydrogen using sunlight under real-world ...

Canada recently signed a new trade agreement with China, reducing tariffs on up to 49,000 Chinese electric vehicles (EVs) each year. By 2030, half of these imported vehicles are anticipated to be ...