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Showing 1–5 of 5 results
Advanced filters: Author: De-Liang Bao Clear advanced filters

  • Regulating carbon hybridization states lies at the heart of engineering carbon materials with tailored properties but orchestrating the sequential transition across three states has remained elusive. Here, the authors visualize stepwise evolution in carbon hybridizations occurring at the linkages within polymers on metal surfaces.

    • Wei Xiong
    • Guang Zhang
    • Jinming Cai
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-8

  • Vibrational spectroscopy now allows for the exploration of lattice vibrational properties at the chemical-bond level, revealing the impact of chemical-bonding configurations and atomic mass on local phonon modes in graphene with a new level of sensitivity.

    • Mingquan Xu
    • De-Liang Bao
    • Wu Zhou
    Research
    Nature Materials
    Volume: 22, P: 612-618

  • Twisted 2D materials have recently emerged as a controllable quantum simulator platform. Here, the authors apply the same approach to tune the edge states of zigzag graphene nanoribbons, showing a unique degree of freedom represented by the lateral stacking offset of the 1D nanostructures.

    • Dongfei Wang
    • De-Liang Bao
    • Hong-Jun Gao
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-9

  • Here, the authors report on the thermal and mechanical properties of Ruddlesden-Popper phases (Ban+1ZrnS3n+1, n = 2 and 3) of a perovskite chalcogenide (BaZrS3) that push to extreme limits and defy the century-old relation between thermal conductivity and interatomic bond strength.

    • Md Shafkat Bin Hoque
    • Eric R. Hoglund
    • Patrick E. Hopkins
    ResearchOpen Access
    Nature Communications
    Volume: 16, P: 1-8

  • The vibrational states emerging at the interface in oxide superlattices are characterized theoretically and at atomic resolution, showing the impact of material length scales on structure and vibrational response.

    • Eric R. Hoglund
    • De-Liang Bao
    • James M. Howe
    ResearchOpen Access
    Nature
    Volume: 601, P: 556-561