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Showing 1–6 of 6 results
Advanced filters: Author: Noah Schnitzer Clear advanced filters

  • Stabilizing charge density wave states in low-dimensional systems is challenging. Here, the authors stabilize an ordered incommensurate charge density wave at elevated temperatures via endotaxial synthesis of TaS2 polytype heterostructures, where charge density wave layers are encapsulated within metallic layers.

    • Suk Hyun Sung
    • Nishkarsh Agarwal
    • Robert Hovden
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-8

  • Resistive switching of 1T-TaS2 is promising for next-generation electronics. Here, using in operando electron microscopy, the authors determine that Joule heating drives the switching process, which will aid the engineering of future devices.

    • James L. Hart
    • Saif Siddique
    • Judy J. Cha
    ResearchOpen Access
    Nature Communications
    Volume: 14, P: 1-7

  • Hierarchical structural materials combine organic and inorganic components to withstand mechanical impact but the nanomechanics that govern the superior properties are not well investigated. Here, the authors observe nanoscale recovery of heavily deformed nacre that restores its mechanical strength using high-resolution electron microscopy.

    • Jiseok Gim
    • Noah Schnitzer
    • Robert Hovden
    ResearchOpen Access
    Nature Communications
    Volume: 10, P: 1-8

  • Correlated quantum states in free-standing two-dimensional materials are susceptible to defects and thermal disorder. Here, the authors demonstrate two-dimensional ordered charge density wave states above room temperature in clean interleaved polytype heterostructures of a van der Waals material.

    • Suk Hyun Sung
    • Noah Schnitzer
    • Robert Hovden
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-7

  • Ruthenium oxide has attracted recent interest as a non-superconducting material where superconductivity can be induced by epitaxial strain. Here, the authors explore strained (100)-oriented RuO2 films on TiO2(100) substrate and reveal strain-induced superconductivity similarly to strained RuO2(110) films, providing insights into the thickness-dependence and electronic structure mechanisms of superconductivity.

    • Neha Wadehra
    • Benjamin Z. Gregory
    • Darrell G. Schlom
    ResearchOpen Access
    Communications Materials
    Volume: 6, P: 1-9