(Phys.org) —One of the biggest challenges facing rechargeable batteries with lithium (Li) electrodes is the growth of dendrites, which can short-circuit the batteries and cause complete failure.

WEST LAFAYETTE, Ind. – Researchers have learned the mechanisms behind a common type of failure in lithium-ion batteries caused by the formation and growth of “dendrites,” findings that could aid in ...

The proper formation and morphogenesis of dendrites is fundamental to the establishment of neural circuits in the brain. After exit from the cell cycle and migration to the appropriate location, ...

Pyramidal neurons have basal and apical dendrites, including an apical tuft. This preserved core structure suggests that they have conserved core functions, whereas structural variation in other areas ...

While the reason why Samsung Galaxy Note 7s have been catching fire has yet to be confirmed, the focus is on the device’s lithium-ion batteries. And those familiar with this technology have begun ...

In materials science and electrochemistry, dendrites are branching, tree-like crystal structures that form when atoms or ions deposit on a surface under non-equilibrium conditions. The term derives ...

They are considered next-generation batteries: solid-state batteries promise higher storage capacity, even greater safety, and, in theory, a longer service life. This could help electric vehicles ...

Researchers have demonstrated how dendrites -- branch-like extensions that protrude from neurons -- help neurons perform computations on information that comes in from other parts of the brain. Within ...

The brain is an incredibly complex organ. It powers and controls every bodily function, processes thoughts and memories, and learns and adapts to whatever we do and wherever we go. While there is a ...

Researchers have discovered how neurons in the brain might allow some experiences to be remembered while others are forgotten. Using a unique microscope, they peered into the brain of a living animal ...

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 ...