Thermal conductivity and thermal rectification in graphene nanoribbons: a molecular dynamics study J Hu, X Ruan, YP Chen Nano letters 9 (7), 2730-2735, 2009 | 932 | 2009 |
Four-phonon scattering significantly reduces intrinsic thermal conductivity of solids T Feng, L Lindsay, X Ruan Physical Review B 96 (16), 161201, 2017 | 514 | 2017 |
Double-layer nanoparticle-based coatings for efficient terrestrial radiative cooling H Bao, C Yan, B Wang, X Fang, CY Zhao, X Ruan Solar Energy Materials and Solar Cells 168, 78-84, 2017 | 454 | 2017 |
Nanoparticle embedded double-layer coating for daytime radiative cooling Z Huang, X Ruan International journal of heat and mass transfer 104, 890-896, 2017 | 388 | 2017 |
Ultrawhite BaSO4 Paints and Films for Remarkable Daytime Subambient Radiative Cooling X Li, J Peoples, P Yao, X Ruan ACS applied materials & interfaces 13 (18), 21733-21739, 2021 | 337 | 2021 |
Quantum mechanical prediction of four-phonon scattering rates and reduced thermal conductivity of solids T Feng, X Ruan Physical Review B 93 (4), 045202, 2016 | 305 | 2016 |
Phonon lateral confinement enables thermal rectification in asymmetric single-material nanostructures Y Wang, A Vallabhaneni, J Hu, B Qiu, YP Chen, X Ruan Nano letters 14 (2), 592-596, 2014 | 242 | 2014 |
Full daytime sub-ambient radiative cooling in commercial-like paints with high figure of merit X Li, J Peoples, Z Huang, Z Zhao, J Qiu, X Ruan Cell Reports Physical Science 1 (10), 2020 | 227 | 2020 |
Nanoscale Microscale Thermophys Y Wang, ZM Zhang Eng 17 (337), 10.1080, 2013 | 219 | 2013 |
Molecular dynamics simulations of lattice thermal conductivity and spectral phonon mean free path of PbTe: Bulk and nanostructures B Qiu, H Bao, X Ruan, G Zhang, Y Wu Heat Transfer Summer Conference 44779, 659-670, 2012 | 217 | 2012 |
Reduction of spectral phonon relaxation times from suspended to supported graphene B Qiu, X Ruan Applied Physics Letters 100 (19), 2012 | 214 | 2012 |
FourPhonon: An extension module to ShengBTE for computing four-phonon scattering rates and thermal conductivity Z Han, X Yang, W Li, T Feng, X Ruan Computer Physics Communications 270, 108179, 2022 | 210 | 2022 |
Four-phonon scattering reduces intrinsic thermal conductivity of graphene and the contributions from flexural phonons T Feng, X Ruan Physical Review B 97 (4), 045202, 2018 | 197 | 2018 |
Tuning the thermal conductivity of graphene nanoribbons by edge passivation and isotope engineering: A molecular dynamics study J Hu, S Schiffli, A Vallabhaneni, X Ruan, YP Chen Applied Physics Letters 97 (13), 2010 | 194 | 2010 |
First-principles simulation of electron mean-free-path spectra and thermoelectric properties in silicon B Qiu, Z Tian, A Vallabhaneni, B Liao, JM Mendoza, OD Restrepo, ... Europhysics Letters 109 (5), 57006, 2015 | 185 | 2015 |
Optical absorption enhancement in disordered vertical silicon nanowire arrays for photovoltaic applications H Bao, X Ruan Optics letters 35 (20), 3378-3380, 2010 | 183 | 2010 |
Molecular dynamics simulations of lattice thermal conductivity of bismuth telluride using two-body interatomic potentials B Qiu, X Ruan Physical Review B 80 (16), 165203, 2009 | 179 | 2009 |
Thermal transport in graphene nanostructures: Experiments and simulations LA Jauregui, Y Yue, AN Sidorov, J Hu, Q Yu, G Lopez, R Jalilian, ... Ecs Transactions 28 (5), 73, 2010 | 171 | 2010 |
First principles calculation of lattice thermal conductivity of metals considering phonon-phonon and phonon-electron scattering Y Wang, Z Lu, X Ruan Journal of applied Physics 119 (22), 2016 | 170 | 2016 |
Highly porous thermoelectric nanocomposites with low thermal conductivity and high figure of merit from large‐scale solution‐synthesized Bi2Te2. 5Se0. 5 hollow nanostructures B Xu, T Feng, MT Agne, L Zhou, X Ruan, GJ Snyder, Y Wu Angewandte Chemie International Edition 56 (13), 3546-3551, 2017 | 166 | 2017 |