Thermal Properties of Materials for Extreme Environments Lab - Publications


(updated April 26, 2021)

  1. "An integrated experimental and computational investigation of defect and microstructural effects on thermal transport in thorium dioxide", C. A. Dennett, W. R. Deskins, Marat Khafizov, Z. Hua, A. Khanolkar, K. Bawane, L. Fu, J. M. Mann, C. A. Marianetti, L. He, D. H. Hurley, A. El-Azab, Acta Materialia XXX, 116934 (2021)
  2. "TEM Characterization of Dislocation Loops in Proton Irradiated Single Crystal ThO2", K. Bawane, X. Liu, T. Yao, Marat Khafizov, A. French, J. M. Mann, L. Shao, J. Gan, D. H. Hurley, L. He, Journal of Nuclear Materials XXX, 152998 (2021)
  3. “Phase and defect evolution in U-N-O system under irradiation”, L. He, M. Khafizov, C. Jiang, B. Tyburska-Püschel, B. Jaques, P. Xu, M. Meyer, K. Sridharan, D. P. Butt, J. Gan, Acta Materialia 208, 116778 (2021)
  4. “Shear waves generation by mode conversion in picosecond ultrasonics: Impact of grain orientation and material properties“, Yuzhou Wang, Marat Khafizov, J. of Americ. Ceram. Soc. 104, 2788 (2021)
  5. Assessment of an Empirical Interatomic Potential for Actinide Oxides to Predict Thermal Conductivity in UO2 and ThO2,” M. Jin, M. Khafizov, C. Jiang, S. Zhou, C. A. Marianetti, M. S. Bryan, M. E. Manley, and D. Hurley, accepted to J. Physics: Condensed Matter (2021)
  6. Indirect Characterization of Point Defects in Proton Irradiated Ceria,” V. S. Chauhan, J. Pakarinen, T. Yao, L. He, D. Hurley and M. Khafizov, Materialia 15, 101019 (2021)
  7. Thermal conductivity of ThO2: Effect of point defect disorder”, W. R. Deskins, A. Hamed, T. Kumagai, C. A. Dennett, J. Peng, M. Khafizov, D. Hurley, A. El-Azab, J. Appl. Phys. 129, 075102 (2021)
  8. Imaging grain microstructure in a model ceramic energy material with optically generated coherent acoustic phonons”, Y. Wang, D. H. Hurley, Z. Hua, T. Pezeril, S. Raetz, V. E. Gusev, V. Tournat and M. Khafizov, Nat. Commun. 11, 1597 (2020)
  9. The influence of lattice defects and recombination on thermal transport in single crystal thorium dioxide”, C. A. Dennett, Z. Hua, A. Khanolkar, T. Yao, P. K. Morgan, T. A. Prusnick, N. Poudel, A. French, K. Gofryk, L. He, L. Shao, M. Khafizov, D. B. Turner, J. M. Mann, and D. H. Hurley, APL Materials 8, 111103 (2020)
  10. Impact of nuclear reactor radiation on the performance of AlN/sapphire surface acoustic wave devices”, Y. Wang, G. Sha, C. Harlow, M. Yazbeck, M. Khafizov, Nucl. Instrum. Meth. B 481, 35 (2020)
  11. Combining mesoscale thermal transport and x-ray diffraction measurements to characterize early-stage evolution of irradiation-induced defects in ceramics”, M. Khafizov, M. F. Riyad, Y. Wang, J. Pakarinen, L. He, T. Yao, A. El-Azab, D. H. Hurley, Acta Materialia 193, 61 (2020)
  12. Thermal transport and optical spectroscopy in 710-MeV Bi ion irradiated LiF crystals”, A. Koshkinbayeva, A. Abdullaev, Z. Nurekeyev, V. A. Skuratov, Y. Wang, M. Khafizov, Z. Utegulov, Nucl. Instrum. Meth. B 475, 14 (2020)
  13. In-situ measurement of irradiation behavior in LiNbO3”,G. Sha, C. Harlow, A. Chernatynskiy, J. Daw, M. Khafizov, Nucl. Instrum. Meth. B 472, 46 (2020)
  14. Simultaneous characterization of cross- and in-plane thermal transport in insulator patterned by directionally aligned nano-channels”, V. S. Chauhan, A. Abdullaev, Zh. Utegulov, J. O’Connell, V. Skuratov, and M. Khafizov, AIP Advances 10, 015304 (2020)
  15. Thermal transport across nanoscale damage profile in sapphire irradiated by swift heavy ions: picosecond time domain thermoreflectance” A. Abdullaev, B. Muminov, V. S. Chauhan, J. O’Connell, V. A. Skuratov, M. Khafizov and Z. N. Utegulov, J. Appl. Phys. 125, 035108 (2020)
  16. Determining local thermal transport in a composite uranium-nitride/silicide nuclear fuel using square-pulse transient thermoreflectance technique”, S. Middlemas, Z. Hua, V. Chauhan, W. T. Yorgason, R. Schley, A. Khanolkar, M. Khafizov, D. Hurley, J. Nucl. Mater. 528, 151842 (2020)
  17. Impact of irradiation induced dislocation loops on thermal conductivity in ceramics”, M. Khafizov, J. Pakarinen, L. He, and D. H.  Hurley, J. Amer. Ceram. Soc. 102, 7253 (2019)
  18. Nondestructive characterization of polycrystalline 3D microstructure with time-domain Brillouin scattering”, Y. Wang, D. H. Hurley, Z. Hua, G. Sha, S. Raetz, V. E. Gusev, M. Khafizov, Scripta Materialia 166, 34 (2019)
  19. Implementation of a multilayer model for measurement of thermal conductivity in ion beam irradiated samples using a modulated thermoreflectance approach”, F. Riyad, V. Chauhan, and M. Khafizov, J. Nucl. Mater. 509, 134 (2018)
  20. Calculated thermodynamic properties of GdCl3 in LiCl-KCl eutectic molten salt”, W. Zhou, Y. Wang, J. Zhang, M. Khafizov, J. Nucl. Mater. 508, 40 (2018)
  21. "Characterization of ultralow thermal conductivity in anisotropic pyrolytic carbon coating for thermal management applications", Y. Wang, D. H. Hurley, E. P. Luther, M. F. Beaux II, D. R. Vodnik, R. J. Peterson, B. L. Bennett, I. O. Usov, P. Yuan, X. Wang, and M. Khafizov, Carbon 129, 476 (2018)
  22. Thermal conductivity degradation and microstructural damage characterization in low dose ion beam irradiated 3C-SiC", V. Chauhan, M. F. Riyad, X. Du, C. Wei, B. Tyburska-Püschel, J.-C. Zhao, and M. Khafizov Metall. Trans. E. 4, 61 (2017)
  23. Investigation of thermal transport in composites and ion beam irradiated materials for nuclear energy applications”, M. Khafizov, V. Chauhan, Y. Wang, F. Riyad, N. Hang, and D. H. Hurley J. Mater. Res. 32, 204 (2017)
  24.  “Subsurface imaging of grain microstructure using picosecond ultrasonics”, M. Khafizov, J. Pakarinen, L. He, H.B. Henderson, M.V. Manuel, A.T. Nelson, B.J. Jaques, D.P. Butt, D.H. Hurley, Acta Materialia 112, 209 (2016)
  25.  “Local measurement of thermal conductivity and diffusivity”, D. H. Hurley, R. S. Schley, M. Khafizov, B. L. Wendt, Rev. Sci. Instrum. 86, 123901 (2015)
  26. "Microstructure changes and thermal conductivity reduction in UO2 following 3.9 MeV He2+ ion irradiation", J. Pakarinen, M. Khafizov, L. He, C. Wetteland, J. Gan, A. T. Nelson, D. H. Hurley, A. El-Azab, T. R. Allen, J. Nucl. Mater. 454, 283 (2014)
  27. Measurement of thermal conductivity in proton irradiated silicon”, M. Khafizov, C. Yablinsky, T Allen, D. Hurley, Nucl. Inst. Meth. B 325, 11 (2014)
  28. Measurement of thermal conductivity in nanocrystalline ceria”, M. Khafizov, I. Park, A. Chernatynskiy, J. Lin, J. J. Moore, D. Swank, T. Lillo, S. R. Phillpot, A. El-Azab, D. Hurley, J. Amer. Ceram. Soc. 97, 562 (2014)
  29. "Kapitza resistance of Si/SiO2 interface", B. Deng, A. Chernatynskiy, M. Khafizov, D.H. Hurley, S.R. Phillpot, J. Appl. Phys. 115, 084910 (2014)
  30. Effect of surface strain on oxygen adsorption on Zr (0 0 0 1) surface”, X. Wang, M. Khafizov, I. Szlufarska, J. Nucl. Mater. 445, 1 (2014)
  31. Transformations and Cracks in Zirconia Films Leading to Breakaway Oxidation of Zircaloy”, H. El Kadiri, Z. N. Utegulov, M. Khafizov, M. Asle Zaeem, M. Mamivand, A.L. Oppedal, K. Enakoutsa, M. Cherkaoui, R. G. Graham, A. Arockiasamy, Acta Materialia 61, 3923 (2013)
  32. “Grain Growth and Mechanical Properties of Cerium Oxide Films Deposited on Si(100) Substrates by Pulsed Magnetron Sputtering (PMS)”, I.-W. Park. J. Lin, J. J. Moore, M. Khafizov, D. Hurley, M. V. Manuel and T. Allen,  Surface Coatings and Technology 217, 34 (2013)
  33. Studying silicon carbide for nuclear fuel cladding”, S. Bragg-Sitton, K. Barrett, I. van Rooyen, D. Hurley, M. Khafizov, Nucl. Eng. Inter. 58, 37 (2013)
  34.  “Parametric study of the frequency-domain thermoreflectance technique”, C. Xing, C. Jensen, Z. Hua, H. Ban, D. H. Hurley, M. Khafizov, and J. R. Kennedy, J. Appl. Phys. 112, 103105 (2012)
  35. "Spatially localized measurement of thermal conductivity using a hybrid photothermal technique", Z. Hua, H. Ban, M. Khafizov, R. Schley, R. Kennedy, and D. H. Hurley, J. Appl. Phys. 111, 103505 (2012);
  36. "Measurement of thermal transport using time-resolved thermal wave microscopy", M. Khafizov and D. H.Hurley, J. Appl. Physics 110, 083525 (2011)
  37. "Effects of internal stresses and intermediate phases on the coarsening of coherent precipitates: A phase-field study", M. Asle Zaeem, H. El Kadiri, M.F. Horstemeyer, M. Khafizov, Z. Utegulov, Current Applied Physics, 12, 570 (2011)
  38. "Measurement of the Kapitza resistance across a bicrystal interface", D. H.Hurley, M. Khafizov, S. L. Shinde, J. of Appl. Physics 109, 083504 (2011)
  39. “Multiple Exciton Generation in Single-walled Carbon Nanotubes”, S. Wang, M. Khafizov, X. Tu, M. Zheng, T. D. Krauss, Nano Lett. 20, 2381 (2010)
  40. “Ultrafast Photoresponse of Superconductor/Ferromagnet Nano-Layered Hybrids”, G. P. Pepe, D. Pan, V. Pagliarulo, L. Parlato,  N. Marrocco, C. De Lisio, G. Peluso, A. Barone, U. Scotti di Uccio, A. Casaburi, F. Tafuri, M. Khafizov,  T. Taneda, R. Sobolewski, IEEE Trans. Appl. Superconductivity 19, 376  (2009)
  41. “Nano-layered ferromagnet/superconductor heterostructures: nonequilibrium quasiparticle dynamics and photodetector applications”, D. Pan, G. P. Pepe, V. Pagliarulo, C. De Lisio, L. Parlato, M. Khafizov, I. Komissarov, and Roman Sobolewski, Phys. Rev. B. 78, 174503 (2008)
  42. “Mechanism of light detection by superconducting current-biased MgB2 microbridges”, M. Khafizov, X. Li, Y. Cui, X. X. Xi, and R. Sobolewski, IEEE Trans. Appl. Superconductivity 17, 2867  (2007)
  43. ”Ultrafast Carrier Dynamics and Photoresponse of Hg-Ba-Ca-Cu-O Superconducting Microbridges”,X. Li, M. Khafizov, R. Sobolewski,  S. Chromik, V. Strbik, M. Valerianova, P. Odier,  IEEE Trans. Appl. Superconductivity 17, 3648 (2007)
  44. “Photomixers fabricated on nitrogen-ion-implanted GaAs”, M. Mikulics, M. Marso, I. Cámara Mayorga, R. Güsten, S. Stancek and P.Kovac, Xia Li, M. Khafizov, R. Sobolewski, E. A. Michael, R. Schieder, M. Wolter, D. Buca, A. Förster, P. Kordo , and H. Lüth, Appl. Phys. Lett. 87, 041106 (2005)
  45. “Picosecond dynamics of the superconducting state in MgB2” Y. Xu, M. Khafizov, L. Satrapinsky, P. Kús, A. Plecenik, J. Karpinski, J. Jun, S. M. Kazakov and Roman Sobolewski, Physica C: Superconductivity, 408-410, 90 (2004)
  46. “Femtosecond optical characterization of MgB2 superconducting thin films”, Xu Y, Khafizov M, Plecenik A, Kus P, Satrapinsky L, Sobolewski R, IEEE Trans. Appl. Superconductivity, 13 (2), 3316-3319  (2003)
  47. “Time-Resolved Photoexcitation of the Superconducting Two-Gap State in MgB2 Thin Films” Y. Xu, M. Khafizov, L. Satrapinsky, P. Kús, A. Plecenik, and Roman Sobolewski, Physical Review Letters, 91, 197004 (2003)