Green Car Congress

FEBRUARY 10, 2022

Out of several candidates that could replace Li in rechargeable batteries, calcium (Ca) stands out as a promising metal. Not only is Ca 10,000 times more abundant than Li, but it can also yield—in theory—similar battery performance. Haesun Park, Chung-Ang University, co-corresponding author. Haesun Park, Christopher J.

Ni-Li 302

Ni-Li Li-ion Batteries Battery 302

Green Car Congress

MAY 15, 2015

British battery R&D company Faradion has demonstrated a proof-of-concept electric bike powered by sodium-ion batteries at the headquarters of Williams Advanced Engineering, which collaborated in the development of the bike. Sodium-ion intercalation batteries—i.e., Oxford University was also a partner. Earlier post.)

Sodium 150

Sodium Concept Li-ion Lithium Ion 150

Green Car Congress

NOVEMBER 3, 2011

A team of researchers at the US Department of Energy’s Argonne National Laboratory has synthesized amorphous titanium dioxide nanotube (TiO 2 NT) electrodes directly grown on current collectors without binders and additives to use as an anode for sodium-ion batteries. —Xiong et al.

Sodium 210

Sodium Li-ion Ni-Li Batteries 210

Green Car Congress

MARCH 1, 2012

Cycling performance of Li/SeS 2 ?C, Researchers at Argonne National Laboratory have developed selenium and selenium–sulfur (Se x S y )-based cathode materials for a new class of room-temperature lithium and sodium batteries. Unlike the widely studied Li/S system, both Se and Se x S y can be cycled to high voltages (up to 4.6

Recharge 220

Recharge Ni-Li Li-ion Batteries 220

Green Car Congress

JANUARY 18, 2017

We need new storage technologies if more renewables are to be used on the electrical grid; similarly, the electrification of transport requires much cheaper and longer-lasting batteries. The size of these batteries (in comparison to those used for portable electronics) places severe pressure on materials resources. Elemental resources.

Li-ion 150

Li-ion Ni-Li Batteries Battery 150

Green Car Congress

MAY 6, 2019

A team led by researchers from the Karlsruhe Institute of Technology (KIT) in Germany is proposing a new class of high entropy materials for energy storage applications. The Li-containing entropy-stabilized oxyfluoride (Li x (Co 0.2 V vs. Li + /Li, enabling its use as a cathode active material.

Energy Storage 223

Energy Storage Li-ion Ni-Li Energy 223