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Showing 1–7 of 7 results
Advanced filters: Author: Mark. D. Losego Clear advanced filters

  • Materials with variable and reversible thermal conductivities are important in technologies, and yet such materials are rare. Here, Cho et al. report in situmeasurements of thermal conductivity of lithium cobalt oxide, and show how to reversibly modulate thermal conductivities over a considerable range.

    • Jiung Cho
    • Mark D. Losego
    • Paul V. Braun
    Research
    Nature Communications
    Volume: 5, P: 1-6

  • Understanding how heat is transferred across interfaces is important for the efficiency of micro- and nanoscale electronic devices. Here, it is shown that there is a direct link between the bonding character of an interface and the thermal transport across it.

    • Mark D. Losego
    • Martha E. Grady
    • Paul V. Braun
    Research
    Nature Materials
    Volume: 11, P: 502-506

  • Sputtering brittle bismuth telluride onto webs of single-walled carbon nanotubes creates a reliably flexible, high-performance thermoelectric composite.

    • Shawn A. Gregory
    • Mark D. Losego
    News & Views
    Nature Materials
    Volume: 18, P: 3-4

  • A model describing the behaviour of charge carriers in semiconducting polymers both in the hopping-like and metal-like regimes is developed, and used to quantify charge carrier localization and other transport parameters in organic semiconductors.

    • Shawn A. Gregory
    • Riley Hanus
    • Shannon K. Yee
    Research
    Nature Materials
    Volume: 20, P: 1414-1421

  • Photonic crystal structures can be used to control the spectral distribution of thermal emission. Here, Arpin et al. demonstrate three-dimensional tungsten and hafnium diboride photonic crystals to control high-temperature thermal emission for solar thermophotovoltaic energy devices.

    • Kevin A. Arpin
    • Mark D. Losego
    • Paul V. Braun
    Research
    Nature Communications
    Volume: 4, P: 1-8

  • Property coupling by heteroepitaxy is severely limited in material combinations with highly dissimilar bonding. This report presents a chemical boundary condition methodology to actively engineer two-dimensional film growth in such systems that otherwise collapse into island formation and rough morphologies.

    • Elizabeth A. Paisley
    • Mark. D. Losego
    • Jon-Paul Maria
    Research
    Nature Communications
    Volume: 2, P: 1-7

  • Understanding heat flow across interfaces remains an open question for thermal science. Nanocrystal arrays may play a key role in unlocking this mystery.

    • Mark D. Losego
    • David G. Cahill
    News & Views
    Nature Materials
    Volume: 12, P: 382-384