G. Romano, J. Carrete, A. M Kolpak, David Broido, High-Throughput Calculations of Thermal Conductivity in Nanoporous Materials: The Case of Half-Heusler Compounds, arXiv:1809.04751, 2019

G. Romano and A. M. Kolpak. Diffusive Phonons in Nongray Nanostructures. J. Heat Transfer 141(1), 012401, 2018

W. S. Park, J. Sohn, G. Romano, T. Kodama, A. Sood, J.S. Katz, B. S. Kim, H. So, E. C. Ahn, M. Asheghi, A. M. Kolpak and K. E. Goodson. Impact of thermally dead volume on phonon conduction along silicon nanoladders. Nanoscale.10 (23):11117-22, 2018

G. Romano and J. C. Grossman. Phonon bottleneck identification in disordered nanoporous materials. Physical Review B 96.11 115425, 2017

W. Park, G. Romano, E. C. Ahn, T. K., J. Park, M. T. Barako, J. Sohn, S. J. Kim, J. Cho, A. M. Marconnet, M. Asheghi, A. M. Kolpak and K. E. Goodson. Phonon Conduction in Silicon Nanobeam Labyrinths, Scientific Reports 7, Article number: 6233, 2017

G. Romano and A. M. Kolpap, Directional Phonon Suppression Function as a Tool for the Identification of Ultralow Thermal Conductivity Materials. 44379, 2017

G. Romano and A. M. Kolpak. Thermal anisotropy enhanced by phonon size effects in nanoporous materials. Applied Physics Letters 110 (9), 093104

G. Romano, K. Esfarjani, D.A. Strubbe, D. Broido and A.M. Kolpak. Temperature-dependent thermal conductivity in silicon nanostructured materials studied by the Boltzmann transport equation. Physical Review B 93 (3), 035408, 2016

G. Romano and J. C. Grossman. Heat conduction in nanostructured materials predicted by phonon bulk mean free path distribution. Journal of Heat Transfer 137, 071302. 2015

G. Romano and J. C. Grossman, Toward phonon-boundary engineering in nanoporous materials. Applied Physics Letters 105 (3), 033116, 2014

G. Romano, A. Di Carlo and J. C. Grossman. Mesoscale modeling of phononic thermal conductivity of porous Si: interplay between porosity, morphology and surface roughness 11 (1), 8-13, 2012