Lithium metal batteries promise dramatically higher energy density than today’s lithium-ion systems, yet their widespread use remains limited by unstable lithium deposition, dendrite growth, and rapid ...

Solid-state batteries offer many advantages over their counterparts that use liquid electrolytes. They are inherently safe, thanks to the fact that the electrolyte is not flammable, and they can store ...

Solid-state Li-ion batteries are considered the next big thing for electric vehicles, but they form mysterious, branch-like metallic filaments, called dendrites, that can quickly compromise them. MIT ...

Dr. Jung-Je Woo from the Gwangju Clean Energy Research Center at the Korea Institute of Energy Research (KIER), along with Professor Jaephil Cho's research team from Ulsan National Institute of ...

Battery dendrites are not caused by electrical origins, but instead have mechanical sources. The dendrites propagate due to fracture of the electrolyte and subsequent crack filling-in. Stresses on the ...

Scientists in India fabricated a redox flow battery based on zinc and iron that showed strong storage characteristics and no signs of degradation over 30 charge-discharge cycles. The battery also ...

In a breakthrough, researchers at the Indian Institute of Science (IISc) and their collaborators have discovered how next-generation solid-state batteries fail and devised a novel strategy to make ...

As the race for viable alternatives to lithium-ion technology accelerates, sodium batteries are emerging as one of the front-runners. Earlier this year, battery manufacturing heavyweight CATL unveiled ...

You can read the research paper "Developing tough, fatigue-resistant and conductive hydrogels via in situ growth of metal dendrites" in Materials Horizons, the home for transformative research at the ...

While previous studies have investigated the function of the protein Bcl6 in dendritic cells—in some cases with varying results—a new study published in Nature Communications has sought to harmonize ...