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Unique X-Ray Instrument Reveals New Things About Lithium-Rich Battery Materials

Unique X-Ray Instrument Reveals New Things About Lithium-Rich Battery Materials Written by AZoMApr 12 2021 An international research group working at the Lawrence Berkeley National Laboratory (Berkeley Lab) of the U.S. Department of Energy (DOE) has gained a better understanding of lithium-rich battery materials with the help of a special X-ray instrument. Wanli Yang, a senior scientist at Berkeley Lab’s Advanced Light Source, working on a resonant inelastic X-ray scattering (RIXS) system. Yang adapted the RIXS technique for a recent Joule study on lithium-rich battery materials. Image Credit: Wanli Yang/Berkeley National Laboratory. Such materials have been the subject of intense studies for their ability to expand the operation of electronic devices and the range of electric vehicles.

Stanford universityUnited statesWanli yangBerkeley national laboratoryUniversity shenzhen graduate schoolUs department of energyNortheastern universityOffice of scienceNational key rd program of chinaNational accelerator laboratoryBerkeley laboratoryNational natural science foundation of chinaBerkeley lab advanced light sourceMunicipal science technology commissionChinese academy of sciencesLawrence berkeley national laboratory lab

X-ray study recasts role of battery material from cathode to catalyst

E-Mail IMAGE: Wanli Yang, a senior scientist in Berkeley Lab s Advanced Light Source, working on a resonant inelastic X-ray scattering (RIXS) system. Yang adapted the RIXS technique for a recent Joule study. view more Credit: Berkeley Lab An international team working at the U.S. Department of Energy s Lawrence Berkeley National Laboratory (Berkeley Lab) used a unique X-ray instrument to learn new things about lithium-rich battery materials that have been the subject of much study for their potential to extend the range of electric vehicles and the operation of electronic devices. The researchers focused their investigations on a material called lithium manganese oxide (Li2MnO3), the extreme example of so-called lithium-rich materials, containing the largest amount of lithium possible within this family of materials. A recently developed tenet of the battery community is that battery electrodes composed of lithium-rich materials could offer high-voltage, high-capac

United statesStanford universityWanli yangGlenn roberts jrUniversity of californiaUniversity shenzhen graduate schoolUs department of energyNortheastern universityOffice of scienceNational accelerator laboratoryNational key rd program of chinaNational natural science foundation of chinaBerkeley lab advanced light sourceLawrence berkeley national laboratoryMunicipal science technology commissionChinese academy of sciences