Center for Integrated Nanotechnologies

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Quanxi Jia

Quanxi Jia

Email
Phone (505) 667-2716

Capabilities

  • CINT
  • Synthesis

Expertise

Synthesis, characterization, and application of multifunctional materials and thin films, including

  • Nanostructured materials
  • Thin films and devices
  • Semiconductor materials and devices
  • High temeprature superconductivity
  • Ferroic materials and devices

Google Scholar

Education

Ph.D., Electrical & Computer Eng., State Univ. of New York at Buffalo, 1991

M.S., Electronic Eng.,,  Xian Jiaotong Univ., China, 1985

B.S., Electronic Eng.,, Xian Jiaotong Univ., China, 1982

 

Professional Appointments

 

Director, Center for Integrated Nanotechnologies (CINT): 02/2016 - present

Co-Director, Center for Integrated Nanotechnologies: 04/2015 - 02/2016

Group Leader, MPA-CINT: 04/2015 - present

Acting Co-Director, CINT: 06/2014 - 03/2015

Laboratory Fellow: 09/2003 - present

Thrust Leader, CINT: 12/2009 - 06/2014

Team Leader, Superconductivity Technology Center: 10/1997 - 12/2009

Technical Staff Member: 01/1996 - present

Director Postdoctoral Fellow, Superconductivity Technology Center: 08/1993 - 01/1996 

 

Professional Societies

  • American Physical Society (APS)
  • American Ceramic Society (ACerS)
  • Materials Research Society (MRS)
  • Institute of Electrical & Electronics Engineers (IEEE)
  • American Association for the Advancement of Science (AAAS)
 

Awards

  • Fellow of Materials Research Society (2014)
  • Fellow of American Association for the Advancement of Science (2011)
  • Postdoctoral Distinguished Mentor Awards, LANL (2010)
  • Fellow of American Ceramic Society (2010)
  • Fellow of American Physical Society (2009)
  • The Outstanding Women's Career Development Mentoring Awards, LANL (2008)
  • The Federal Laboratory Consortium for Technology Transfer Awards (2008)
  • Asian-American Engineer of the Year Award (2005)
  • Laboratory Fellow of Los Alamos National Laboratory (2003)
  • R&D 100 award - Flexible Superconducting Tape (2003)
  • Los Alamos National Laboratory Achievement Award (2000)
  • R&D 100 award -­ Underground Radio (1998)
  • Listed in Marquis Who's Who
  • Listed in Who's Who in Science and Engineering
  • Listed in American Men and Women of Science
  • Award for Excellence in Industrial Partnerships at LANL (1996)
  • National Link Foundation Fellowship Award at SUNY (1990 - 1991)
  • Distinguished Teaching Award at Jiaotong University (1986 - 1987)
 

Patents

Selected from 47 US patents awarded (see attached cv)
  1. J. L. Driscoll, S. Lee, and Q. X. Jia, "Memristor comprising film with comb-like structure of nanocolumns of metal oxide embedded in a metal oxide matrix," United States Patent No. 9,029,985, May 12, 2105.
  2. Q. X. Jia, A. K. Burrell, E. Bauer, F. Ronning, T. M. McCleskey, and G. Zou, “Germanium films by polymer-assisted deposition,” United States Patent No. 8,354,046, Jan. 15, 2013.
  3. T. M. McCleskey, A. K. Burrell, Q. X. Jia, and Y. Lin, “Polymer-assisted deposition of films,” United States Patent No. 8,124,176, Feb. 28, 2012.
  4. S. R. Foltyn, Q. X. Jia, P. N. Arendt, and H. Wang, “Buffer layer for thin film structures,” United States Patent No. 7,736,761, June 15, 2010.
  5. P. N. Arendt, S. R. Foltyn, J. R. Groves, and Q. X. Jia, “Substrate structure for growth of highly oriented and/or epitaxial layers thereon,” United States Patent No. 6,921,741, July 26, 2005.
  6. Q. X. Jia, S. R. Foltyn, P. N. Arendt, and J. R. Groves, “Buffer layers on metal alloy substrates for superconducting tapes,” United States Patent No. 6,800,591, Oct. 5, 2004.
  7. D. Q. Li and Q. X. Jia, “Polymer-assisted aqueous deposition of metal oxide films,” United Sates Patent No. 6,589,457, July 8, 2003.
  8. Q. X. Jia and S. R. Foltyn, “Architecture for high critical current superconducting thick films,” United States Patent No. 6,383,989, May 7, 2002.
  9. Q. X. Jia, “Epitaxial oxides on amorphous SiO2 on single crystal silicon,” United States Patent No. 5,912,068, June 15, 1999.
  10. W. A. Anderson, F. M. Collins, Q. X. Jia, K. L. Jiao, and H. J. Lee, “Thin film resistors comprising ruthenium oxide,” United States Patent No. 5,585,776, Dec. 17, 1996.
 

Publications

Selected from over 400 peer-reviewed journal articles (see attached cv)

  1. S. M. Yang, S. Lee, J. Jian, W. Zhang, Q. X. Jia, H. Wang, T. W. Noh, S. V. Kalinin, and J. L. MacManus-Driscoll, “Strongly enhanced oxygen ion transport through samarium-doped CeO2 nanopillars in nanocomposite films,” Nat. Commun. 6, 8588 (2015).
  2. S. Lee, W. Zhang, F. Khatkhatay, H. Wang, Q. X. Jia, and J. L. MacManus-Driscoll, “Ionic conductivity increased by two orders of magnitude in micrometer-thick vertical yttria-stabilized ZrO2 nanocomposite films,” Nano Lett. 15, 7362 (2015).
  3. Y. M. Sheu, S. A. Trugman, L. Yan, Q. X. Jia, A. J. Taylor, and R. P. Prasankumar, “Ultrafast optical manipulation of magnetoelectric coupling at a multiferroic interface,” Nat. Commun. 5, 5832 (2014)
  4. E. M. Choi, T. Fix, A. Kursumovic, C. J. Kinane, D. Arena, S. L. Sahonta, Z. Bi, J. Xiong, L. Yan, J. S. Lee, H. Wang, S. Langridge, Y. M. Kim, A. Y. Borisevich, I. MacLaren, Q. M. Ramasse, M. G. Blamire, Q. X. Jia, and J. L. MacManus-Driscoll, “Room temperature ferrimagnetism and ferroelectricity in strained, thin films of BiFe0.5Mn0.5O3,”Adv. Funct. Mater. 24, 7478 (2014).
  5. X. Lü, G. Wang, J. W. Howard, A. Chen, Y. Zhao, L. L. Daemen, and Q. X. Jia, “Li-rich anti-perovskite Li3OCl films with enhanced ionic conductivity,” Chem. Commun. 50, 11520 (2014).
  6. S. Lee, A. Sangle, P. Lu, A. Chen, W. Zhang, J. S. Lee, H. Wang, Q. X. Jia, and J. L. MacManus-Driscoll, “Novel electroforming-free nanoscaffold memristor with very high uniformity, tunability and density,” Adv. Mater. 26, 6284 (2014).
  7. S. Sing, J. H. Haraldsen, J. Xiong, E. M. Choi, P. Lu, D. Yi, X. D. Wen, J. Liu, H. Wang, Z. Bi, P. Yu, M. R. Fitzsimmons, J. L. MacManus-Driscoll, R. Ramesh, A. V. Balatsky, J. X. Zhu, and Q. X. Jia, “Induced magnetization in La0.7Sr0.3MnO3/BiFeO3 superlattices,” Phys. Rev. Lett. 113, 047204 (2014).
  8. R. Zhao, W. Li, J. H. Lee, E. M. Choi, Y. Liang, W. Zhang, R. Tang, H. Wang, Q. X. Jia, J. L. MacManus-Driscoll, and H. Yang, “Precise tuning of (YBa2Cu3O7-d)1-x:(BaZrO3)x thin film nanocomposite structures,” Adv. Funct. Mater. 24, 5240-5245 (2014).
  9. T. M. McCleskey, P. Shi, E. Bauer, M. J. Highland, J. A. Eastman, Z. X. Bi, P. H. Fuoss, P. M. Baldo, W. Ren, B. L. Scott, A. K. Burrell, and Q. X. Jia, “Nucleation and growth of epitaxial metal-oxide films based on polymer-assisted deposition,” Chem. Soc. Rev. 43, 2141 (2014). (tutorial review)
  10. G. F. Zou, J. Zhao, H. M. Luo, T. M. McCleskey, A. K. Burrell, and Q. X. Jia, “Polymer-assisted deposition: a chemical solution route for a wide range of materials,” Chem. Soc. Rev. 42, 439 (2013). (tutorial review)
  11. A. Chen, H. H. Zhou, Z. Bi, Y. Zhu, Z. Luo, A. Bayraktaroglu, J. Phillips, E. M. Choi, J. L. MacManus-Driscoll, S. J. Pennycook, J. Narayan, Q. X. Jia, X. Zhang, and H. Wang, “A new class of room temperature multiferroic thin films with bismuth-based supercell structure,” Adv. Mater. 25, 1028 (2013).
  12. O. Lee, S. A. Harrington, A. Kursumovic, E. Defay, H. Wang, Z. Bi, C. F. Tsai, L. Yan, Q. X. Jia, and J. L. MacManus-Driscoll, “Extremely high tenability and low loss in nanoscaffold ferroelectric films,” Nano Lett. 12, 4311 (2012).
  13. Y. Y. Zhang, N. Haberkorn, F. Ronning, H. Wang, N. A. Mara, M. Zhuo, C. Li, J. H. Lee, K. J. Blackmore, E. Bauer, A. K. Burrell, T. M. McCleskey, M. E. Hawley, R. K. Schulze, L. Civale, T. Tajima, and Q. X. Jia, “Structure and superconducting property of epitaxial MoN films by a chemical solution method,” J. Am. Chem. Soc. 133, 20735 (2011).
  14. S. A. Harrington, J. Zhai, S. Denev, V. Gopalan, H. Wang, Z. Bi, S. A. T. Redfern, S. H. Baek, C. W. Bark, C. B. Eom, Q. X. Jia, M. E. Vickers, and J. L. MacManus-Driscoll, “Thick lead-free ferroelectric films with high Curie temperatures through nanocomposite-induced strain,” Nat. Nanotechnology 6, 491 (2011).
  15. G. Zou, H. Luo, S. Baily, Y. Zhang, N. Haberkorn, J. Xiong, E. Bauer, T. McCleskey, A. Burrell, L. Civale, Y. T. Zhu, J. L. MacManus-Driscoll, and Q. X. Jia, “Highly aligned carbon nanotube forests coated by superconducting NbC,” Nat. Commun. 2, 248 (2011).
  16. A. Chen, Z. Bi, C. F. Tsai, J. H. Lee, Q. Su, X. Zhang, Q. X. Jia, J. L. MacManus-Driscoll, and H. Wang, “Tunable low-field magnetoresistance in (La0.7Sr0.3MnO3):(ZnO)0.5 self-assembled vertically aligned nanocomposite thin films,” Adv. Funct. Mater. 21, 2423 (2011).
  17. J. S. Lee, Y. M. Kim, J. H. Kwon, J. S. Sim, H. Shin, B. H. Sohn, and Q. X. Jia, “Multilevel data storage memory devices based on the controlled capacitive coupling of trapped electrons,” Adv. Mater. 23, 2064 (2011).
  18. R. Singh, A. K. Azad, Q. X. Jia, A. J. Taylor, and H. T. Chen, “Thermal tunability in terahertz metamaterials fabricated on strontium titanate single crystal substrates,” Optics Lett. 36, 1230 (2011).
  19. H. T. Chen, H. Yang, R. Singh, J. F. O’Hara, A. K. Azad, S. A. Trugman, Q. X. Jia, and A. J. Taylor, “Tuning the resonance in high-temperature superconducting terahertz metamaterials,” Phys. Rev. Lett. 105, 247402 (2010).
  20. H. B. Zhao, Y. Y. Zhang, P. D. Bradford, Q. Zhou, Q. X. Jia, F. G. Yuan, and Y. T. Zhu, “Carbon nanotube yarn strain sensors,” Nanotechnology 21, 305502 (2010).
  21. Y. Y. Zhang, C. J. Sheehan, J. Y. Zhai, G. F. Zou, H. M. Luo, J. Xiong, Y. T. Zhu, and Q. X. Jia, “Polymer-embedded carbon nanotube ribbons for stretchable conductors,” Adv. Mater. 22, 3027 (2010).
  22. G. Zou, H. Wang, N. Mara, H. Luo, N. Li, Z. F. Di, E. Bauer, Y. Q. Wang, T. M. McCleskey, A. K. Burrell, X. Zhang, M. Nastasi, and Q. X. Jia, “Chemical solution deposition of epitaxial carbide films,” J. Am. Chem. Soc. 132, 2516 (2010).
  23. H. Yang, Y. Q. Wang, H. Wang, and Q. X. Jia, “Oxygen concentration and its effect on the leakage current in BiFeO3 thin films,” Appl. Phys. Lett. 96, 012909 (2010).
  24. G. Zou, H. Luo, F. Ronning, B. Sun, T. M. McCleskey, A. K. Burrell, E. Bauer, and Q. X. Jia, “Facile chemical solution deposition of high-mobility epitaxial germanium films on silicon,” Angew. Chem. Int. Ed. 49, 1782 (2010).
  25. P. Beaud, S. L. Johnson, E. Vorobeva, U. Staub, C. J. Milne, Q. X. Jia, and G. Ingold, “An ultrafast structural phase transition driven by photo-induced melting of charge and orbital order,” Phys. Rev. Lett. 103, 155702 (2009).
  26. H. Peng, X. M. Sun, F. J. Cai, X. Chen, G. P. Liao, D. Y. Chen, Q. W. Li, Y. F. Lu, Y. T. Zhu, and Q. X. Jia, “Electrochromatic carbon nanotube/polydiacetylene nanocomposite fibers,” Nat. Nanotechnology 4, 738 (2009).
  27. Y. Y. Zhang, G. Zou, S. K. Doorn, H. Htoon, L. Stan, M. E. Hawley, C. J. Sheehan, Y. T. Zhu, and Q. X. Jia, “Tailoring the morphology of carbon nanotube arrays: from spinnable forests to undulating foams,” ACS Nano 3, 2157 (2009).
  28. H. M. Luo, H. Wang, Z. X. Bi, G. F. Zou, T. M. McCleskey, A. K. Burrell, E. Bauer, M. E. Hawley, Y. Lin, S. A. Baily, L. Civale, Y. Q. Wang, and Q. X. Jia, “Highly conductive layered ternary transition metal-nitride films,” Angew. Chem. Int. Ed. 48, 1490 (2009).
  29. H. Yang, H. Wang, J. Yoon, Y. Q. Wang, M. Jain, D. M. Feldmann, P. C. Dowden, J. L. MacManus-Driscoll, and Q. X. Jia, “Vertical interface effect on the physical properties of self-assembled nanocomposite epitaxial films,” Adv. Mater. 21, 3794 (2009).
  30. H. M. Luo, Y. Lin, H. Wang, J. H. Lee, N. A. Suvorova, A. H. Mueller, A. K. Burrell, T. M. McCleskey, E. Bauer, I. O. Usov, M. E. Hawley, T. G. Holesinger, and Q. X. Jia, “A chemical solution approach to epitaxial metal nitride thin films,” Adv. Mater. 21, 193 (2009).
  31. S. C. Wimbush, M. Li, M. E. Cickers, B. Maiorov, D. M. Feldmann, Q. X. Jia, and J. L. MacManus-Driscoll, “Interfacial strain-induced oxygen disorder as the cause of enhanced critical current density in superconducting thin films,” Adv. Funct. Mater. 19, 835 (2009).
  32. E. Bauer, A. H. Mueller, I. Usov, N. Suvorova, M. T. Janicke, G. I. N. Waterhouse, M. R. Waterland, Q. X. Jia, A. K. Burrell, and T. M. McCleskey, “Chemical solution route to conformal phosphor coatings on nanostructures,” Adv. Mater. 20, 4704 (2008).
  33. J. L. MacManus-Driscoll, P. Zerrer, H. Wang, H. Yang, J. Yoon, S. R. Foltyn, M. G. Blamire, and Q. X. Jia, “Spontaneous ordering, strain control and manipulation in vertical nanocomposite heteroepitaxial films,” Nat. Mater. 7, 314 (2008).
  34. H. M. Luo, H. Wang, Z. X. Bi, D. M. Feldmann, Y. Q. Wang, A. K. Burrell, T. M. McCleskey, E. Bauer, M. E. Hawley, and Q. X. Jia, “Epitaxial ternary nitride thin films prepared by a chemical solution method,” J. Am. Chem. Soc. 130, 15224 (2008).
  35. H. S. Peng, D. Y. Chen, J. Y. Huang, S. B. Chikkannanavar, J. Hanisch, M. Jain, D. E. Peterson, S. K. Doorn, Y. F. Lu, Y. T. Zhu, and Q. X. Jia, “Strong and ductile colossal carbon tubes with walls of rectangular macro-pores,” Phys. Rev. Lett. 101, 145501 (2008).
  36. H. S. Peng, M. Jain, D. E. Peterson, Y. T. Zhu, and Q. X. Jia, “Composite carbon nanotube/silica fibers with improved mechanical strengths and electrical conductivities,” Small 4, 1964 (2008).
  37. H. M. Luo, Y. Lin, S. A. Baily, H. Wang, M. E. Hawley, T. M. McCleskey, A. K. Burrell, E. Bauer, L. Civale, and Q. X. Jia, “Silica nanoparticles-oxide composite epitaxial thin films,” Angew. Chem. Int. Ed. 47, 5768 (2008).
  38. A. K Burrell, T. M. McCleskey, and Q. X. Jia, “Polymer assisted deposition,” Chem. Commun. 11, 1271 (2008). (feature article)
  39. H. S. Peng, M. Jain, Q. W. Li, D. E. Peterson, Y. T. Zhu, and Q. X. Jia, “Vertically-aligned pearl-like carbon nanotube arrays for fiber spinning,” J. Am. Chem. Soc. 130, 1130 (2008).
  40. H. Yang, H. M. Luo, H. Wang, I. O. Usov, N. A. Suvorova, M. Jain, D. M. Feldmann, P. C. Dowden, R. F. DePaula, and Q. X. Jia, “Rectifying current-voltage characteristics of BiFeO3/Nb-doped SrTiO3 heterojunction,” Appl. Phys. Lett. 92, 102113 (2008).
  41. H. M. Luo, A. H. Mueller, T. M. McCleskey, A. K. Burrell, E. Bauer, and Q. X. Jia, “Structural and photoelectrochemical properties of BiVO4 thin films,” J. Phys. Chem. C 112, 6099 (2008).
  42. H. M. Luo, H. Yang, S. A. Baily, O. Ugurlu, M. Jain, M. Hawley, T. M. McCleskey, A. K. Burrell, E. Bauer, L. Civale, T. G. Holesinger, and Q. X. Jia, “Self-assembled epitaxial nanocomposite BaTiO3-NiFe2O4 films prepared by polymer-assisted deposition,” J. Am. Chem. Soc. 129, 14132 (2007).
  43. Q. W. Li, Y. Li, X. F. Zhang, S. B. Chikkannanavar, Y. H. Zhao, A. M. Dangelewicz, L. X. Zheng, S. K. Doorn, Q. X. Jia, D. E. Peterson, P. N. Arendt, and Y. T. Zhu, “Structure-dependent electronic properties of carbon nanotube fibers,” Adv. Mater. 19, 3358 (2007).
  44. A. K Burrell, T. M. McCleskey, P. Shukla, H. Wang, E. M. Minogue, and Q. X. Jia, “Controlling oxidation-states in uranium-oxide through epitaxial stabilization,” Adv. Mater. 19, 3559 (2007).
  45. H. M. Luo, M. Jain, T. M. McCleskey, E. Bauer, A. K. Burrell, and Q. X. Jia, “Optical and structural properties of single crystal epitaxial p-type transparent oxide thin films,” Adv. Mater. 19, 3604 (2007).
  46. Y. L. Li, S. Y. Hu, D. A. Tenne, A. Soukiassian, D. G. Schlom, X. X. Xi, K. J. Choi, C. B. Eom, A. Saxena, T. Lookman, Q. X. Jia, and L. Q. Chen, “Prediction of ferroelectricity in BaTiO3/SrTiO3 superlattice with domains,” Appl. Phys. Lett. 91, 112914 (2007).
  47. L. X. Zheng, X. F. Zhang, Q. W. Li, S. B. Chikkannan, Y. Li, Y. H. Zhao, X. Z. Liao, Q. X. Jia, S. K. Doorn, D. E. Peterson, and Y. T. Zhu, “Carbon-nanotube cotton for large-scale fibers,” Adv. Mater. 19, 2567 (2007).
  48. H. Yang, M. Jain, N. A. Suvorova, H. Zhou, H. M. Luo, P. C. Dowden, R. F. DePaula, D. M. Feldmann, S. R. Foltyn, and Q. X. Jia, “Temperature dependent leakage mechanism of Pt/BiFeO3/SrRuO3 thin film capacitors,” Appl. Phys. Lett. 91, 072911 (2007).
  49. S. R. Foltyn, L. Civale, J. L. MacManus-Driscoll, Q. X. Jia, B. Maiorov, H. Wang, and M. Maley, “Materials science challenges for high-temperature superconducting wire,” Nat. Mater. 6, 631 (2007). (review article)
  50. T. G. Holesinger, Q. X. Jia, P. Dowden, S. Kreiskott, B. Maiorov, L. Civale, and B. Gibbons, “Ultra-fine multilayers of complex metal-oxide films,” Adv. Mater. 19, 1917 (2007).
  51. H. L. Wang, W. Li, Q. X. Jia, and E. Akhodov, “Tailoring conducting polymer chemistry for the chemical deposition of metal particles and clusters,” Chem. Mater. 19, 520 (2007).
  52. X. Zhang, Q. Li, Yi Tu,  Y. Li, Y. Coulter, L. Zheng, Y. Zhao, Q. X.  Jia, D. Peterson, and Y. T. Zhu, “Strong carbon nanotube fiber spun from long CNT array,” Small 3, 244 (2007).
  53. J. X. Zhang, Y. L. Li, F. Zavaliche, Q. X. Jia,  D. G. Schlom, R. Ramesh, and L. Q. Chen, “Phase-field model for epitaxial ferroelectric and magnetic nanocomposite thin films,” Appl. Phys. Lett. 90, 052909 (2007).
  54. A. Vasudevarao, A. Kumar, L. Tian, J. H. Haeni, Y. L. Li, C. J. Eklund, Q. X. Jia, R. Uecker, P. Reiche, K. Rabe, L. Q. Chen, D. G. Schlom, and V. Gopalan, “Mutiferroic domain dynamics in strained strontium titanate,” Phys. Rev. Lett. 97, 257602 (2006).
  55. W. Li, Q. X. Jia, and H. L. Wang, “Facile synthesis of metal nanoparticles using conducting polymer colloids,” Polymer 47, 23 (2006).
  56. D. A. Tenne, A. Bruchhausen, D. L. Kimura, A. Fainstein, R. Katiyar, A. Cantarero, A. Soukiassian, V. Vaithyanathan, J. H. Haeni, W. Tian, D. G. Schlom, C. E. Eom, H. P. Sun, X. Q. Pan, Y. L. Li, L. Q. Chen, Q. X. Jia, and X. X. Xi, “Nanoscale ferroelectricity in BaTiO3/SrTiO3 superlattices probed by ultraviolet Raman spectroscopy,” Science 313, 1614 (2006).
  57. M. Jain, P. Shukla, Y. Li, M. Hawley, M. F. Hundley, A. K. Burrell, T. M. McCleskey, and Q. X. Jia, “High magnetoresistance near room temperature in La0.67Ca0.33MnO3/ La0.66Sr0.33MnO3 multilayered films prepared by a solution technique,” Adv.  Mater. 18, 2695 (2006).
  58. W. Tian, J. C. Jiang, X. Q. Pan, J. H. Haeni, Y. L. Li, L. Q. Chen, D. G. Schlom, J. B. Neaton, K. M. Rabe, and Q. X. Jia, “Structural evidence for enhanced polarization in a commensurate short-period BaTiO3/SrTiO3 superlattice,” Appl. Phys. Lett. 89, 092905 (2006).
  59. B. S. Kang, H. Wang, Y. Li, J. L. MacManus-Driscoll, Q. X. Jia, I. Mihut, and J. B. Betts, “Low field magneto-transport properties of (La0.7Sr0.3MnO3)0.5:(ZnO)0.5 nanocomposite films grown via pulsed laser deposition,” Appl. Phys. Lett. 88, 192514 (2006).
  60. S. R. Foltyn, H. Wang, L. Civale, Q. X. Jia, P. N. Arendt, B. Maiorov, Y. Li, M. P. Maley, and J. L. MacManus-Driscoll, “Overcoming the barrier to 1000 A/cm-width superconducting coatings,” Appl. Phys. Lett. 87, 162505 (2005).
  61. L. Shao, Y. Lin, J. K. Lee, Q. X. Jia, Y. Q. Wang, M. Nastasi, P. E. Thompson, N. D. Theodore, P. K. Chu, T. L. Alford, J. W. Mayer, P. Chen, and S. S. Lau, “Plasma hydrogenation of strained Si/SiGe/Si heterostructure for layer transfer without ion implantation,” Appl. Phys. Lett. 87, 091902 (2005).
  62. A. T. Findikoglu, W. Choi, V. Matias, T. G. Holesinger, Q. X. Jia, and D. E. Peterson, “Well-oriented, high-carrier-mobility silicon thin films on non-single-crystalline substrates,” Adv. Mater. 17, 1527 (2005).
  63. Y. Lin, X. Chen, S. W. Liu, C. L. Chen, J. S. Lee, Y. Li, Q. X. Jia, and A. Bhalla, “Epitaxial nature and anisotropic dielectric properties of (Pb,Sr)TiO3 thin films on NdGaO3 substrates,” Appl. Phys. Lett. 86, 142902 (2005).
  64. X. Qi, M. Wei, Y. Lin, Q. X. Jia, D. Zhi, J. Dho, M. Blamire, and J. L. MacManus-Driscoll, “High-resolution x-ray diffraction and transmission electron microscopy of multiferroic BiFeO3 thin films,” Appl. Phys. Lett. 86, 071913 (2005).
  65. T. Park, Z. Nussinov, K. R. A. Hazzard, V. A. Sidorov, A. V. Balatsky, J. L. Sarrao, S. W. Cheong, M. F. Hundley, J. S. Lee, Q. X. Jia, and J. D. Thompson, “Novel dielectric anomaly in the hole-doped La2Cu1-xLixO4 and La2-xSrxNiO4 insulators: signature of an electronic glassy state,” Phys. Rev. Lett. 94, 017002 (2005).
  66. L. X. Zheng, M. J. O’Connell, S. K. Doorn, X. Z. Liao, Y. H. Zhao, E. A. Akhadov, M. A. Hoffbauer, B. J. Roop, Q. X. Jia, R. C. Dye, D. E. Peterson, S. M. Huang, J. Liu, and Y. T. Zhu, “Ultralong single-wall carbon nanotubes,” Nat. Mater. 3, 673 (2004).
  67. B. S. Kang, J. S. Lee, L. Stan, J. K. Lee, R. F. DePaula, P. N. Arendt, M. Nastasi, and Q. X. Jia, “Dielectric properties of epitaxial Ba0.6Sr0.4TiO3 films on SiO2/Si using bi-axially oriented ion-beam-assisted-deposited MgO as templates,” Appl. Phys. Lett. 85, 4702 (2004).
  68. Y. Lin, J. S. Lee, H. Wang, Y. Li, S. R. Foltyn, Q. X. Jia, G. Collis,  A. K. Burrell, and T. M. McCleskey, “Structural and dielectric properties of epitaxial Ba1-xSrxTiO3 films grown on LaAlO3 substrates by polymer-assisted deposition,” Appl. Phys. Lett. 85, 5007 (2004).
  69. S. Y. Lee, Y. Li, Jang-Sik Lee, J. K. Lee, M. Nastasi, S. A. Crooker, Q. X. Jia, H. S. Kang, and J. S. Kang, “Effects of chemical composition on the optical properties of Zn1-xCdxO thin films,” Appl. Phys. Lett. 85, 218 (2004).
  70. J. L. MacManus-Driscoll, S. R. Foltyn, Q. X. Jia, H. Wang, A. Serquis, B. Maiorov, L. Civale, Y. Lin, M. E. Hawley, M. P. Maley, and D. E. Peterson, “Systematic enhancement of in-field critical current density with rare-earth ion size variance in superconducting rare-earth barium cuprate films,” Appl. Phys. Lett. 84, 5329 (2004).
  71. L. Civale, B. Maiorov, A. Serquis, J. O. Willis, J. Y. Coulter, H. Wang, Q. X. Jia, P. N. Arendt, J. L. MacManus-Driscoll, M. P. Maley, and S. R. Foltyn, “Angular dependent vortex pinning mechanisms in YBa2Cu3O7-x coated conductors and thin films,” Appl. Phys. Lett. 84, 2121 (2004).
  72. J. L. MacManus-Driscoll, S. R. Foltyn, Q. X. Jia, H. Wang, A. Serquis, L. Civale, B. Maiorov, M. E. Hawley, M. P. Maley, and D. E. Peterson, “Strongly enhanced flux pinning in BaZrO3-doped YBa2Cu3O7-x coated conductors,” Nat. Mater. 3, 439 (2004).
  73. Y. Lin, X. Chen, S. W. Liu, C. L. Chen, J. S. Lee, Y. Li, Q. X. Jia, and A. Bhalla, “Anisotropic in-plane strains in (Pd,Sr)TiO3 thin films on the NdGaO3 substrate,” Appl. Phys. Lett. 84, 577 (2004).
  74. Q. X. Jia, T. M. McCleskey, A. K. Burrell, Y. Lin, G. Collis, H. Wang, A. D. Q. Li, and S. R. Foltyn, “Polymer-assisted deposition of metal-oxide films,” Nat. Mater. 3, 529 (2004).
  75. J. S. Lee, H. Wang, S. Y. Lee, S. R. Foltyn, and Q. X. Jia, “Lateral epitaxial growth of (Ba,Sr)TiO3 thin films,” Appl. Phys. Lett. 83, 5494 (2003).
  76. Q. X. Jia, S. R. Foltyn, H. Wang, P. N. Arendt, T. Holesinger, Y. Li, and M. Hawley, “Role of a superconducting seed layer on the structural and transport properties of EuBa2Cu3O7 films,” Appl. Phys. Lett. 83, 1388 (2003).
  77. S. R. Foltyn, P. N. Arendt, Q. X. Jia, H. Wang, J. L. MacManus-Driscoll, S. Kreiskott, R. F. DePaula, L. Stan, J. R. Groves, and P. C. Dowden, “Strongly-coupled critical current density values achieved in YBa2Cu3O7 coated conductors with crystal-like texture,” Appl. Phys. Lett. 82, 4519 (2003).
  78. D. B. Jan, J. Y. Coulter, M. E. Hawley, L. N. Bulaevskii, M. P. Maley, Q. X. Jia, B. B. Maranville, F. Hellman, and X. Q. Pan, “Flux pinning enhancement in ferromagnetic and superconducting thin film multilayer,” Appl. Phys. Lett. 82, 778 (2003).
  79. Q. X. Jia, S. R. Foltyn, P. N. Arendt, J. R. Groves, T. G. Holesinger, M. E. Hawley, and P. Lu, “Role of SrRuO3 buffer layer on the superconducting properties of YBa2Cu3O7 films grown on polycrystalline metal-alloy using a biaxially oriented MgO template,” Appl. Phys. Lett. 81, 4571 (2002).
  80. Q. X. Jia, S. R. Foltyn, P. N. Arendt, and J. F. Smith, “High-temperature superconducting thick films with enhanced supercurrent carrying capability,” Appl. Phys. Lett. 80, 1601 (2002).
  81. B. H. Park, J. Lee, E. J. Peterson, X. Zeng, W. Si, X. X. Xi, and Q. X. Jia, “Effects of very thin strain layers on dielectric properties of epitaxial Ba0.6Sr0.4TiO3 films,” Appl. Phys. Lett. 78, 533 (2001).
  82. H. Kung, J. P. Hirth, S. R. Foltyn, P. N. Arendt, Q. X. Jia, and M. P. Maley, “On the dissociation of grain boundary dislocations in YBa2Cu3Oy-d coated conductors,” Phil. Mag. Lett. 81, 85 (2001).
  83. C. J. Lu, Z. L. Wang, K. H. Kuo, C. Kwon, and Q. X. Jia, “Lattice mismatch in growth and properties of epitaxial colossal magnetoresistance La0.7Ca0.3MnO3 thin films,” J. Appl. Phys. 88, 4032 (2000).
  84. B. H. Park, Y. Fan, Y. Gim, and Q. X. Jia, “High nonlinearity of Ba0.6Sr0.4TiO3 films hetero-epitaxially grown on MgO substrates,” Appl. Phys. Lett. 77, 2587 (2000).
  85. Y. Gim, T. Hudson, Y. Fan, C. Kwon, A. T. Findikoglu, B. J. Gibbons, B. H. Park, and Q. X. Jia, “Microstructure and dielectric properties of Ba1-xSrxTiO3 films grown on LaAlO3 substrates,” Appl. Phys. Lett. 77, 1200 (2000).
  86. J. S. Ahn, J. Bak, H. S. Choi, T. W. Noh, J. E. Han, Y. Bang, J. H. Cho, and Q. X. Jia, “Structural evolution in (Ca,Sr)RuO3 near the Mott-Hubbard transition,” Phys. Rev. Lett. 82, 5321 (1999).
  87. Q. X. Jia, J. R. Groves, P. Arendt, Y. Fan, A. T. Findikoglu, S. R. Foltyn, H. Jiang, and F. A. Miranda, “Integration of nonlinear dielectric barium strontium titanate with polycrystalline yttrium iron garnet,” Appl. Phys. Lett. 74, 1564 (1999).
  88. Q. X. Jia, A. T. Findikoglu, P. N. Arendt, S. R. Foltyn, J. M. Roper, J. R. Groves, J. Y. Coulter, Y. Q. Li, and G. F. Dionne, “Superconducting YBa2Cu3O7-x thin films on polycrystalline ferrite for magnetically tunable microwave components,” Appl. Phys. Lett. 72, 1763 (1998).
  89. Q. X. Jia, A. T. Findikoglu, D. Reagor, and P. Lu, “Improvement in performance of electrically tunable devices based on nonlinear dielectric SrTiO3 using homo-epitaxial LaAlO3 interlayer,” Appl. Phys. Lett. 73, 897 (1998).
  90. A. T. Findikoglu, Q. X. Jia, X. D. Wu, G. J. Chen, T. Venkatesan, and D. W. Reagor, “Tunable and adaptive bandpass filter using nonlinear dielectric thin film of SrTiO3,” Appl. Phys. Lett. 68, 1651 (1996).
  91. Q. X. Jia, S. G. Song, J. H. Cho, X. D. Wu, S. R. Foltyn, A. T. Findikoglu, and J. L. Smith, “Epitaxial growth highly conductive RuO2 thin films on Si,” Appl. Phys. Lett. 68, 1069 (1996).
  92. M. F. Hundley, M. Hawley, R. H. Heffner, Q. X. Jia, J. J. Neumeier, J. Tesmer, J. D. Thompson, and X. D. Wu, “Transport-magnetism correlations in the ferromagnetic oxide La0.7Ca0.3MnO3,” Appl. Phys. Lett. 67, 860 (1995).
  93. Q. X. Jia, X. D. Wu, S. R. Foltyn, and P. Tiwari, “Structural and electrical properties of Ba0.5Sr0.5TiO3 thin films with conductive SrRuO3 bottom electrodes,” Appl. Phys. Lett. 66, 2197 (1995).
  94. Q. X. Jia, J. Yi, L. H. Chang, and W. A. Anderson, “Low leakage current BaTiO3 thin film capacitors using a multilayer construction,” Thin Solid Films 259, 264 (1995).
  95. Q. X. Jia, Z. Q. Shi, and W. A. Anderson, “BaTiO3 thin film capacitors deposited by RF magnetron sputtering,” Thin Solid Films 209, 230 (1992).
  96. Q. X. Jia, S. Y. Lee, W. A. Anderson, and D. T. Shaw, “Role of barrier layers for superconducting YBa2Cu3O7-x thin films on GaAs substrates,” Appl. Phys. Lett. 59, 1120 (1991).
  97. Q. X. Jia, Z. Q. Shi, K. L. Jiao, W. A. Anderson, and F. M. Collins, “Reactively sputtered RuO2 thin film resistor with near zero TCR,” Thin Solid Films 196, 29 (1991).
  98. Q. X. Jia and W. A. Anderson, “Sputter deposition of YBa2Cu3O7-x films on Si at 500 °C with conducting metallic oxide as a buffer layer,” Appl. Phys. Lett. 57, 304 (1990).
  99. X. M. Liu, Q. X. Jia, and E. K. Liu, “High efficiency MIS/IL silicon solar cells with silicon oxynitride as ultra-thin tunneling films,” Solar Energy Mater. 17, 257 (1988).
  100. Q. X. Jia and E. K. Liu, “A method for the direct measurement of the solar cell junction ideality factor,” Solar Cells 22, 15 (1987).

 

 

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