Silicon anode nanostructure could increase battery capacity and lifespan
Charged Electric Vehicle,
Image caption: In the first stage, the silicon film exists as a rigid but wobbly columnar structure.
Image caption: In the first stage, the silicon film exists as a rigid but wobbly columnar structure.
«Кремниевые аноды могут хранить в 10 раз больше заряда в заданном объеме, чем графитовые аноды.
New research has identified a nanostructure that improves the anode in lithium-ion batteries.
New research conducted by the Okinawa Institute of Science and Technology Graduate University (OIST) has identified a specific…
One of the ways scientists hope to boost the performance of today's lithium-ion batteries is by incorporating silicon into the…
In chamber 1, the nanoparticles, made from tantalum metal, are grown. Within this chamber, individual tantalum atoms clump…
Scientists reveal a new nanostructure that could revolutionize technology in batteries and beyond.
Scientists reveal a new nanostructure that could revolutionize technology in batteries and beyond.
Scientists reveal a new nanostructure that could revolutionize technology in batteries and beyond.
In chamber 1, the nanoparticles, made from tantalum metal, are grown. Within this chamber, individual tantalum atoms clump…
New research has identified a nanostructure that improves the anode in lithium-ion batteries Instead of using graphite for the…
New research has identified a nanostructure that improves the anode in lithium-ion batteries Instead of using graphite for the…