News

  • In August 2023, our team made progress in the research of interfacial water microstructure, published in Nature Protocols.(link)

  • In August 2023, our team made important progress in the research of nickel-rich ternary lithium cathode materials, published in Advanced Materials.(link)

  • In August 2023, our team made progress in the stability of the sodium metal negative interface, published in Chem.(link)

  • In May 2023, Professor Pan Feng won the 7th China Electrochemical Contribution Award.(link)

  • In May 2023, Professor Pan Feng was awarded the title of Outstanding Graduate Advisor of Peking University.(link)

  • In August 2022,our team made systematic progress in the research of silicon-based negative conductive binders for lithium ion batteries, published in Accounts of Chemical Research.(link)

  • In June 2022, our team published the research work in Nature revealing the origin of structural degradation of lithium-rich layered cathode materials for lithium batteries.(link)

  • In May 2022, our team made important progress in systematic research on high-voltage lithium cobaltate cathode materials for lithium-ion batteries.(link)

  • In March 2022, our team made progress in the research of hydrogen-based organic ferroelectric materials, published in Nature Communications.(link)

  • In March 2022, our research group established a screening method for low-dimensional materials based on graph theory and discovered a series of one-dimensional materials, published in National Scientific Review.(link)

  • In December 2021, our team combined in-situ enhanced Raman experiment and quantum chemical calculation to reveal the interface water substructure, published in Nature.(link)

  • In November 2021, our group published a tutorial review article on the application of ion weighing technology in batteries in Chemical Society Review.(link)

  • In June 2021, our team used algebraic graph theory and machine learning to quantitatively predict molecular properties. Published in Nature Communications.(link)

  • In June 2021, our team has made progress in the research of defect regulation of spinel lithium manganate cathode materials, published in Nature Communications.(link)

  • In April 2021, our team has made progress in studying the structural laws of materials based on topological mathematics and machine learning.(link)

  • In April 2021, our team has made progress in the research of constructing the knowledge map of materials, published in Advanced Energy Material.(link)

  • In March 2021, our team has made progress in the study of anionic redox mechanism of lithium manganese-rich cathode materials.(link)

  • In December 2021, Our team jointly revealed the mechanism of high voltage lithium cobalate by 3D electron diffraction with Junliang Sun's group in Nature Nanotechnology.(link)

  • In February 2021, our team has made significant progress in cobalt-free layered cathode materials for lithium batteries, published in Nature Energy.(link)

  • In January 2021, our team has made systematic progress in the study of polaron phenomena related mechanism of lithium ion battery cathode materials.(link)

  • In December 2020, our team summarized and prospected the research and development of low-cost battery cathode material MnO2.(link)

  • In December 2020, our team revealed the mechanism of rapid synthesis of the layered materials for lithium batteries by "target" microwaves.(link)

  • In December 2020, our team found that regulating proton transport can improve the energy density of aqueous zinc ion battery.(link)

  • In November 2020, our team and the Institute of Chemistry, Chinese Academy of Sciences discovered a new "metalloxocubes".(link)

  • In September 2020, our group has made progress on manganese-based spinel cathode materials for lithium batteries, highlighted by Adv. Energy Mater.(link)

  • In October 2020, Our group published a tutorial review article on the study of battery interface structure chemistry in Chemical Society Reviews.(link)

  • In June 2020,our group published an important paper on the Neural Network Force Fields for Metal Growth Based on Energy Decompositions in The Journal of Physical Chemistry Letters.(link)

  • In June 2020,our group published an important paper on the Wavelength-Dependent Solar N2 Fixation into Ammonia andNitrate in Pure Water in Science Partner Journal.(link)

  • In June 2020,our group published an important paper on The role of anions on the Helmholtz Plane for the solid-liquid interface in aqueous rechargeable lithium batteries in Nano Energy.(link)

  • In May 2020,our group published an important paper on the Highly Dispersed Cobalt Clusters in Nitrogen‐Doped Porous Carbon Enable Multiple Effects for High‐Performance Li–S Battery in AEM.(link)