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Showing 1–9 of 9 results
Advanced filters: Author: Yuelang Chen Clear advanced filters

  • Diagnosing breast cancer through MRI is limited by high false-positive rates and inter- reader variability, leading to unnecessary biopsies. In here, the authors find that the BI-RADS 4 Lesions Analysis System (BL4AS) model improves diagnostic accuracy and reduces unnecessary biopsies as well as inter-reader variability

    • Yanting Liang
    • Zhitao Wei
    • Zhenwei Shi
    ResearchOpen Access
    Nature Communications
    Volume: 17, P: 1-14

  • There is growing interest in designing electrolytes to enable Li-metal batteries. Here the authors show that asymmetric solvents improve lithium redox kinetics and achieve long cycle life in anode-free cells under electric vertical take-off and landing conditions, demonstrating potential for future high-power applications.

    • Il Rok Choi
    • Yuelang Chen
    • Zhenan Bao
    Research
    Nature Energy
    Volume: 10, P: 365-379

  • Li-metal batteries often utilize liquid electrolytes that yield a solid–electrolyte interphase on electrodes; however, the role of anions in interphase formation remains unclear. Now it has been shown that anion-decomposition products provide varying contributions to interphase formation and that high-performance electrolytes balance effective interfacial passivation with minimized degradation.

    • Weilai Yu
    • Kuan-Yu Lin
    • Zhenan Bao
    Research
    Nature Chemistry
    Volume: 17, P: 246-255

  • The reversibility of lithium metal batteries is strongly influenced by the chemistry of the solid electrode interphase. Here the authors report a salt-philic and solvent-phobic interfacial design that leads to the formation of a robust interphase, considerably improving the cycle life of batteries.

    • Zhuojun Huang
    • Jian-Cheng Lai
    • Zhenan Bao
    Research
    Nature Energy
    Volume: 8, P: 577-585

  • In the Li-S battery, a promising next-generation battery chemistry, electrolytes are vital because of solvated polysulfide species. Here, the authors investigate solvation-property relationships via the measurement of solvation free energy of the electrolytes, guiding advanced electrolyte design for Li-S batteries.

    • Sang Cheol Kim
    • Xin Gao
    • Yi Cui
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-9

  • Cycling capability, especially at high rates, is limited for lithium metal batteries. Here the authors report electrolyte solvent design through fine-tuning of molecular structures to address the cyclability issue and unravel the electrolyte structure–property relationship for battery applications.

    • Zhiao Yu
    • Paul E. Rudnicki
    • Zhenan Bao
    Research
    Nature Energy
    Volume: 7, P: 94-106

  • Electrolyte engineering has proven an effective approach to enhance the performance of lithium metal batteries. Here the authors propose a strategy by using multiple solvents in weakly solvating electrolytes—dubbed as high-entropy electrolytes—to improve the ionic conductivity while maintaining electrochemical stability, leading to high-performance batteries.

    • Sang Cheol Kim
    • Jingyang Wang
    • Yi Cui
    Research
    Nature Energy
    Volume: 8, P: 814-826

  • The stability of both colloidal quantum dots and perovskites can be improved by combining them into a hybrid material in which matched lattice parameters suppress the formation of undesired phases.

    • Mengxia Liu
    • Yuelang Chen
    • Edward H. Sargent
    Research
    Nature
    Volume: 570, P: 96-101