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Showing 1–13 of 13 results
Advanced filters: Author: Paul Voyles Clear advanced filters

  • As electronic devices become smaller, so the challenge of maintaining their electrical properties grows. Identifying the positions of introduced impurities in a semiconductor crystal is a major first step.

    • Paul S. Peercy
    News & Views
    Nature
    Volume: 416, P: 799-801

  • This study uncovers hidden atomic order in high-entropy ceramics and shows it can be engineered to dramatically boost resistance to radiation damage, opening a new pathway for design of ceramics for extreme environments.

    • Shuguang Wei
    • Muhammad Waqas Qureshi
    • Izabela Szlufarska
    ResearchOpen Access
    Nature Communications
    Volume: 17, P: 1-9

  • Until now, there have been three choices for a room temperature (RT) single element ferromagnetic material in fundamental studies and applications. Here the authors achieved body-centered tetragonal phase ruthenium thin films by epitaxial growth, which is the 4th RT ferromagnetic single element material.

    • P. Quarterman
    • Congli Sun
    • Jian-Ping Wang
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-6

  • The positions of all the atoms in a sample of a metallic glass have been measured experimentally — fulfilling a decades-old dream for glass scientists, and raising the prospect of fresh insight into the structures of disordered solids.

    • Paul Voyles
    News & Views
    Nature
    Volume: 592, P: 31-32

  • Glass forming liquids near the glass transition exhibit spatially heterogeneous dynamics, but it remains challenging to study their dynamics and structural origin on an atomic scale. Zhang et al. visualize liquid dynamics at a sub-nanometer and millisecond resolution using electron correlation microscopy.

    • Pei Zhang
    • Jason J. Maldonis
    • Paul M. Voyles
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-7

  • The structural characterization of materials with picometre precision is vital for the development of structure–property relationships. Here, the authors present results demonstrating sub-picometre precision measurements of atomic position based on a non-rigid registration technique.

    • Andrew B. Yankovich
    • Benjamin Berkels
    • Paul M. Voyles
    Research
    Nature Communications
    Volume: 5, P: 1-7

  • Single crystalline membranes enable the tuning of materials properties via strain states that are not accessible to bulk crystals or epitaxially clamped films. Here, the authors demonstrate the synthesis and strain gradient-induced magnetism in membranes of the Heusler compound GdPtSb.

    • Dongxue Du
    • Sebastian Manzo
    • Jason K. Kawasaki
    ResearchOpen Access
    Nature Communications
    Volume: 12, P: 1-7

  • Radiation-induced segregation is widely observed in metals. Here it is discovered that radiation-induced segregation also occurs in a ceramic, with carbon atoms in silicon carbide segregating to the grain boundaries under irradiation.

    • Xing Wang
    • Hongliang Zhang
    • Izabela Szlufarska
    Research
    Nature Materials
    Volume: 19, P: 992-998

  • The push for smaller microelectronics poses many challenges, such as locating dopant atoms in semiconductors with ever-increasing precision. The ideal technique must be able to detect single dopants with atomic resolution, and identify their electronic state. Neither is an easy task.

    • Martin R. Castell
    • David A. Muller
    • Paul M. Voyles
    Comments & Opinion
    Nature Materials
    Volume: 2, P: 129-131

  • Scanning transmission electron microscopy (STEM) is a powerful tool for structural and functional imaging of materials. In this Primer, Kalinin et al. focus on the integration of machine learning and STEM to improve user experience and enhance current opportunities in STEM imaging.

    • Sergei V. Kalinin
    • Colin Ophus
    • Stephen J. Pennycook
    Reviews
    Nature Reviews Methods Primers
    Volume: 2, P: 1-28