Tesla’s patent application describes a new approach where battery pack parallel subgroups are made integral to the cells themselves. In the old case, single battery cells come out of the battery cell ...

At some point, the 3.6 V of a single lithium ion battery just won’t do, and you’ll absolutely want to stack LiIon cells in series. When you need high power, you’ve either got to increase voltage or ...

Top row (delivery and imaging). Cells and cargo are introduced into a microfluidic chip whose base integrates a porous SU‑8 membrane with vertical through‑holes and a PDMS chamber. As individual cells ...

(Nanowerk Spotlight) Scientists manipulating living cells face a fundamental challenge: working with thousands of samples at the nanoliter scale – volumes measured in billionths of a liter. At this ...

Many applications need lithium-ion (Li-ion) battery packs with high cell counts. Large-scale arrays based on Li-ion batteries can provide the high voltage, current, and capacity required by many ...

Details of the "3D Silicon" silicon-anode Li-ion battery. What's behind Brakeflow, another advance that enables multiple parallel cell-to-busbar connection. Other companies involved in silicon-anode ...

Differences in kinetics of retinal output signals originate at least in part from differences in synaptic output from distinct bipolar cell types.

Diversity of Radial Glia cells in the neonatal ferret cerebral cortex, labeled with green fluorescent protein and seen within the transparent brain. The development of the cerebral cortex largely ...