New research identifies a simple strategy for combatting a major stumbling block in the development of next-generation ...

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 ...

Figure 1: Attenuation of BAPs from soma to basal dendrites. Figure 2: Measurement of unitary EPSPs and their attenuation in basal dendrites. The asymmetry between the forward and backward attenuation, ...

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 ...

CAMBRIDGE, MA -- Neurons in the human brain receive electrical signals from thousands of other cells, and long neural extensions called dendrites play a critical role in incorporating all of that ...

Dendrites—branching structures that look like tree limbs—are fun to draw and good on neurons, but they’re generally best avoided in lithium-ion batteries. As ions are exchanged between the anode and ...

Dendrites – thin conductive filaments that form inside lithium batteries – reduce the life of these cells and are often responsible for them catching fire. Scientists working at the Pacific Northwest ...

Recent technical advances have made possible the visualization and genetic manipulation of individual dendritic trees. These studies have led to the identification and characterization of molecules ...

The information-processing capabilities of the brain are often reported to reside in the trillions of connections that wire its neurons together. But over the past few decades, mounting research has ...

While lithium-ion batteries have become a global standard, the need for batteries with a higher energy densities is prompting more research into other promising battery architectures―one of which is ...

New research by Brown University engineers identifies a simple strategy for combating a major stumbling block in the development of next-generation solid-state lithium batteries.

Neuroscientists have discovered that human dendrites have very different electrical properties from those of other species. These differences may contribute to the enhanced computing power of the ...