Pawel Keblinski

Research.com Recognitions

• 2020 - Fellow of the Materials Research Society For influential contributions to the development of computational methods leading to fundamental understanding of thermal transport in materials on nanometer length scales.

Overview

Best Publications

• Mechanisms of heat flow in suspensions of nano-sized particles (nanofluids)

  P Keblinski;S.R Phillpot;S.U.S Choi;J.A Eastman

  2962
  Citations

• Comparison of atomic-level simulation methods for computing thermal conductivity

  Patrick K. Schelling;Simon R. Phillpot;Pawel Keblinski

  1941
  Citations

• A benchmark study on the thermal conductivity of nanofluids

  Jacopo Buongiorno;David C. Venerus;Naveen Prabhat;Thomas McKrell

  1419
  Citations

• Interfacial heat flow in carbon nanotube suspensions

  Scott T. Huxtable;David G. Cahill;Sergei Shenogin;Liping Xue

  1396
  Citations

• Exact method for the simulation of Coulombic systems by spherically truncated, pairwise r−1 summation

  D. Wolf;P. Keblinski;S. R. Phillpot;J. Eggebrecht

  1272
  Citations

• Nanofluids for thermal transport

  Pawel Keblinski;Jeffrey A. Eastman;David G. Cahill

  1171
  Citations

• THERMAL TRANSPORT IN NANOFLUIDS1

  J.A. Eastman;S.R. Phillpot;S.U.S. Choi;P. Keblinski

  1133
  Citations

• Ultralow Thermal Conductivity in Disordered, Layered WSe2 Crystals

  Catalin Chiritescu;David G. Cahill;Ngoc Nguyen;David Johnson

  1045
  Citations

• Role of thermal boundary resistance on the heat flow in carbon-nanotube composites

  Sergei Shenogin;Liping Xue;Rahmi Ozisik;Pawel Keblinski

  649
  Citations

• Effect of liquid layering at the liquid–solid interface on thermal transport

  L Xue;P Keblinski;S.R Phillpot;S.R Phillpot;S.U.-S Choi

  626
  Citations

• Viscoelasticity in carbon nanotube composites.

  Jonghwan Suhr;Nikhil Koratkar;Pawel Keblinski;Pulickel Ajayan

  606
  Citations

• Phonon wave-packet dynamics at semiconductor interfaces by molecular-dynamics simulation

  P. K. Schelling;S. R. Phillpot;P. Keblinski

  416
  Citations

• Turning carbon nanotubes from exceptional heat conductors into insulators.

  Ravi S. Prasher;X. J. Hu;Y. Chalopin;Natalio Mingo

  409
  Citations

• Thermal conductivity of graphene ribbons from equilibrium molecular dynamics: Effect of ribbon width, edge roughness, and hydrogen termination

  Unknown

  353
  Citations

• Temperature dependence of radial breathing mode Raman frequency of single-walled carbon nanotubes

  Nachiket R. Raravikar;Pawel Keblinski;Apparao M. Rao;Mildred S. Dresselhaus

  352
  Citations

• Limits of localized heating by electromagnetically excited nanoparticles

  Pawel Keblinski;David G. Cahill;Arun Bodapati;Charles R. Sullivan

  346
  Citations

• How wetting and adhesion affect thermal conductance of a range of hydrophobic to hydrophilic aqueous interfaces.

  Natalia Shenogina;Rahul Godawat;Pawel Keblinski;Shekhar Garde

  342
  Citations

• Kapitza conductance and phonon scattering at grain boundaries by simulation

  P. K. Schelling;S. R. Phillpot;P. Keblinski

  321
  Citations

• On the lack of thermal percolation in carbon nanotube composites

  N. Shenogina;S. Shenogin;L. Xue;P. Keblinski

  316
  Citations

• Bonding-induced thermal conductance enhancement at inorganic heterointerfaces using nanomolecular monolayers

  Peter J. O’Brien;Sergei Shenogin;Jianxiun Liu;Philippe K. Chow

  308
  Citations

• Two regimes of thermal resistance at a liquid-solid interface

  L. Xue;P. Keblinski;S. R. Phillpot;S. U.-S. Choi

  285
  Citations

• Heat transfer from nanoparticles: A corresponding state analysis

  Samy Merabia;Sergei Shenogin;Laurent Joly;Pawel Keblinski

  243
  Citations