Two-dimensional phonon transport in supported graphene JH Seol, I Jo, AL Moore, L Lindsay, ZH Aitken, MT Pettes, X Li, Z Yao, ... Science 328 (5975), 213-216, 2010 | 2135 | 2010 |

ShengBTE: A solver of the Boltzmann transport equation for phonons W Li, J Carrete, NA Katcho, N Mingo Computer Physics Communications 185 (6), 1747-1758, 2014 | 1990 | 2014 |

The high-throughput highway to computational materials design S Curtarolo, GLW Hart, MB Nardelli, N Mingo, S Sanvito, O Levy Nature materials 12 (3), 191-201, 2013 | 1844 | 2013 |

AFLOWLIB. ORG: A distributed materials properties repository from high-throughput ab initio calculations S Curtarolo, W Setyawan, S Wang, J Xue, K Yang, RH Taylor, LJ Nelson, ... Computational Materials Science 58, 227-235, 2012 | 984 | 2012 |

Intrinsic lattice thermal conductivity of semiconductors from first principles DA Broido, M Malorny, G Birner, N Mingo, DA Stewart Applied Physics Letters 91 (23), 2007 | 951 | 2007 |

Flexural phonons and thermal transport in graphene L Lindsay, DA Broido, N Mingo Physical Review B 82 (11), 115427, 2010 | 832 | 2010 |

Thermal conductivity of bulk and nanowire MgSiSn alloys from first principles W Li, L Lindsay, DA Broido, DA Stewart, N Mingo Physical Review B 86 (17), 174307, 2012 | 566 | 2012 |

Calculation of Si nanowire thermal conductivity using complete phonon dispersion relations N Mingo Physical Review B 68 (11), 113308, 2003 | 556 | 2003 |

Finding unprecedentedly low-thermal-conductivity half-Heusler semiconductors via high-throughput materials modeling J Carrete, W Li, N Mingo, S Wang, S Curtarolo Physical Review X 4 (1), 011019, 2014 | 523 | 2014 |

Length dependence of carbon nanotube thermal conductivity and the “problem of long waves” N Mingo, DA Broido Nano letters 5 (7), 1221-1225, 2005 | 488 | 2005 |

“Nanoparticle-in-Alloy” approach to efficient thermoelectrics: silicides in SiGe N Mingo, D Hauser, NP Kobayashi, M Plissonnier, A Shakouri Nano letters 9 (2), 711-715, 2009 | 487 | 2009 |

Carbon nanotube ballistic thermal conductance and its limits N Mingo, DA Broido Physical review letters 95 (9), 096105, 2005 | 469 | 2005 |

Phonon transport in nanowires coated with an amorphous material: An atomistic Green’s function approach N Mingo, L Yang Physical Review B 68 (24), 245406, 2003 | 463 | 2003 |

Precise control of thermal conductivity at the nanoscale through individual phonon-scattering barriers G Pernot, M Stoffel, I Savic, F Pezzoli, P Chen, G Savelli, A Jacquot, ... Nature materials 9 (6), 491-495, 2010 | 430 | 2010 |

Predicting the thermal conductivity of Si and Ge nanowires N Mingo, L Yang, D Li, A Majumdar Nano Letters 3 (12), 1713-1716, 2003 | 382 | 2003 |

Phonon thermal transport in strained and unstrained graphene from first principles L Lindsay, W Li, J Carrete, N Mingo, DA Broido, TL Reinecke Physical Review B 89 (15), 155426, 2014 | 370 | 2014 |

Turning carbon nanotubes from exceptional heat conductors into insulators RS Prasher, XJ Hu, Y Chalopin, N Mingo, K Lofgreen, S Volz, F Cleri, ... Physical Review Letters 102 (10), 105901, 2009 | 370 | 2009 |

Thermal conductivity of diamond nanowires from first principles W Li, N Mingo, L Lindsay, DA Broido, DA Stewart, NA Katcho Physical Review B 85 (19), 195436, 2012 | 368 | 2012 |

Flexural phonons and thermal transport in multilayer graphene and graphite L Lindsay, DA Broido, N Mingo Physical Review B 83 (23), 235428, 2011 | 341 | 2011 |

The atomistic Green's function method: An efficient simulation approach for nanoscale phonon transport W Zhang, TS Fisher, N Mingo Numerical Heat Transfer, Part B: Fundamentals 51 (4), 333-349, 2007 | 329 | 2007 |