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EV Charging Infrastructure and Technology Expo Wednesday, 30 September, 2020 to Friday, 2 October, 2020
Batteries Event 2020 Wednesday, 7 October, 2020 to Friday, 9 October, 2020
Battery Safety Summit Tuesday, 13 October, 2020 to Friday, 16 October, 2020
The Battery Technology Show 2020, Tuesday, 20 October, 2020 to Wednesday, 21 October, 2020
POSTPONED: The smarter E South America 2020 Monday, 16 November, 2020 to Wednesday, 18 November, 2020
1st International Electric Vehicle & Stationary Battery Conference Monday, 23 November, 2020 to Tuesday, 24 November, 2020
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DIGITAL EVENT: The smarter E India Sunday, 13 December, 2020
ENERGY STORAGE EUROPE Tuesday, 16 March, 2021 to Thursday, 18 March, 2021
14th China International Battery Fair (CIBF) Friday, 19 March, 2021 to Sunday, 21 March, 2021
Battcon: stationary battery conference Wednesday, 5 May, 2021 to Friday, 7 May, 2021
The Battery Show Europe Tuesday, 18 May, 2021 to Thursday, 20 May, 2021
Australian Energy Storage Conference and Exhibition (AES) Wednesday, 2 June, 2021 to Thursday, 3 June, 2021
49th Power Sources Conference Monday, 7 June, 2021 to Thursday, 10 June, 2021
RESCHEDULED: 11th LABAT: International Conference on Lead-Acid Batteries Tuesday, 8 June, 2021 to Thursday, 10 June, 2021
ees Europe Wednesday, 9 June, 2021 to Friday, 11 June, 2021
EMCE - E-mobility and Circular Economy 2021 Tuesday, 29 June, 2021 to Thursday, 1 July, 2021
4th Oslo Battery Days Conference Monday, 23 August, 2021 to Tuesday, 24 August, 2021
The Battery Show North America Tuesday, 14 September, 2021 to Thursday, 16 September, 2021

U.S. Department of Energy’s (DOE)

Argonne boosts silicon anode performance in lithium-ion batteries with new electrolyte mixture

Researchers at the U.S. Department of Energy’s (DOE) Argonne National Laboratory have developed an electrolyte mixture and additive they claim boosts the energy density of next generation lithium-ion batteries by up to 50%.

To develop its electrolyte additive the scientists added small amount of a second salt containing doubly or triply charged metal cations magnesium (Mg²+), calcium (Ca²+), zinc (Zn²+), or aluminium (Al³+).

Image by Argonne National Laboratory: shows charging results in doubly or triply charged metal cations, such as Mg²+ (orange spheres), along with singly charged lithium ions (green spheres) being co-inserted from the electrolyte into the silicon (blue spheres) anode material. This process stabilises the anode, enabling long term cycling of lithium-ion batteries.

U.S. Department of Energy’s (DOE)

Argonne National Laboratory