Journal Papers

 

75. Jingjie Wu* and Xiao-Dong Zhou, “Unraveling the Origin of Electrode Performance Degradation and Implementing Stable Electrodes for the Electrochemical Conversion of CO2 to Liquid Fuels”, Nano Energy (accepted).

 

74. Pranav Sharma* and Xiao-Dong Zhou, “Chemistry of CO¬2 in Aqueous Medium for the Electrochemical Production of Fuels,” Wiley Interdisciplinary Reviews: Energy and Environment. (Accepted)

 

73. Jingjie Wu* and Xiao-Dong Zhou, “Catalytic Conversion of CO2 to Value Added Fuels: Current Status, Challenges, and Future Directions,” (Invited perspective review for a special issue of “Electrocatalysis”) Chinese Journal of Catalysis, 37, 999-1015 (2016).

 

72. Emir Dogdibegovic,* Christopher Wright, and Xiao-Dong Zhou, “Stability and Activity of (Pr1-xNdx)2NiO4 as Cathodes for Solid Oxide Fuel Cells: I. Quantification of Phase Evolution in Pr2NiO4” Journal of the American Ceramic Society (Accepted)

 

71. Emir Dogdibegovic,* Qingsheng Cai, William J. James, William B Yelon, Harlan U. Anderson, Jinbo Yang, and Xiao-Dong Zhou, “Coupling between magnetic exchange and charge activation in Cu doped LaFeO3” Journal of the American Ceramic Society, 99, 2035-2039 (2016).

 

70. Jingjie Wu, Ram Manohar Yadav, Mingjie Liu, Pranav Sharma,* Chandra Sekhar Tiwary, Lulu Ma, Xiaolong Zou, Xiao-Dong Zhou, Boris Yakobson, Jun Lou and Pulickel M. Ajayan, “Incorporation of Nitrogen Defects for Efficient Reduction of CO2 via Two-Electron Pathway on Three-Dimensional Graphene Foam”, Nano Letters, 16, 466-470 (2016).

 

69. Pranav Sharma,* Jingjie Wu, Ram Manohar Yadav, Mingjie Liu, Chandra Sekhar Tiwary, Lulu Ma, Xiaolong Zou, Boris Yakobson, Jun Lou, Pulickel M. Ajayan, and Xiao-Dong Zhou “Nitrogen Doped Carbon Nanotube Arrays for High Efficiency Electrochemical Reduction of CO2: On the understanding of defects, defect density, and selectivity”, Angewandte Chemie International Edition (Hot Paper), 54, 13701-13705 (2015).

 

68. Jingjie Wu, Ram Manohar Yadav, Mingjie Liu, Pranav Sharma,* Chandra Sekhar Tiwary, Lulu Ma, Xiaolong Zou, Xiao-Dong Zhou, Boris Yakobson, Jun Lou and Pulickel M. Ajayan, “Nitrogen-doped Carbon Nanotube Arrays as Highly Efficient and Selective Electrocatalysts for CO2 Reduction”, ACS Nano, 9 (5), 5364–5371 (2015).

 

67. F. F. Song, Y. S. Fu, Y. Gao, J. D. Li, J. L. Qiao, X.-D. Zhou, Y. Y. Liu, “Novel Alkaline Anion-exchange Membranes Based on Chitosan/Ethenylmethylimidazoliumchloride Polymer with Ethenylpyrrolidone Composites for Low Temperature Polymer Electrolyte Fuel Cells,” Electrochimica Acta, 177, 137-144 (2015).

 

66 Jinli Qiao, Meng Yang Fan, Yishu Fu, C. Y. Ma, Yuyu Liu, Xiao-Dong Zhou, “Highly-active copper oxide/copper electrocatalysts induced from hierarchical copper oxide nanospheres for carbon dioxide reduction reaction”, Electrochimica Acta doi:10.1016/j.electacta.2014.09.147

 

65 Fu-Sheng Ke, Lauryn Jamison,+ Xin-Xing Peng,+ Kuber Mishra,* Shu-Guo Ma, Ling Huang, Shi-Gang Sun, and Xiao-Dong Zhou, “Tailoring Nanostructures in Micrometer Germanium Particles to Improve their Performance as an Anode for Lithium Ion Batteries,” Chemical Communications, 50, 3713-3715 (2014).

 

64 Meng Yang Fan, Z. Y. Bai, Qing Zhang, C. Y. Ma, Xiao-Dong Zhou, Jinli Qiao, “Aqueous CO2 reduction on morphology controlled CuxO nanocatalysts at low overpotential”, RSC Advances, 4, 44583-44591 (2014)

 

63 Fu-Sheng Ke, Yong Ding, Gui-Liang Xu, Shi-Gang Sun, Zhong Lin Wang, and Xiao-Dong Zhou, “Superior Electrocatalytic Activity on Gold Nanocrystals Enclosed by High-Index Facets for Oxygen Reduction,” Nano Energy, 7, 179-188 (2014).

 

62 Jingjie Wu,* Bradley H. Harris,+ Pranav P. Sharma,* and Xiao-Dong Zhou, “Electrochemical Reduction of Carbon Dioxide: IV Microstructural Design for Sn Gas Diffusion Electrode for the Electrochemical Conversion of CO2 into Formate,” Journal of Power Sources, 258, 189-194 (2014).

 

61 Jingbo Yan, Hao Chen, Emir Dogdibegovic,* Jeffry W. Stevenson, Mojie Cheng, and Xiao-Dong Zhou, “High-efficiency intermediate temperature solid oxide electrolyzer cells for the conversion of carbon dioxide to fuels,” Journal of Power Sources, 252, 79-84 (2014).

 

60 Fu-Sheng Ke, Lauryn Jamison,+ Ling Huang, Bo Zhang, Jun-Tao Li, Xiao-Dong Zhou and Shi-Gang Sun, “Negative Electrode Comprised of Fe3O4 Nanoparticles and Cu Nanowires for Lithium Ion Batteries,” Solid State Ionics, 262, 18-21 (2014).

 

59 Jingjie Wu,* Frank G. Risalvato,+ and X.-D. Zhou, “Electrochemical Reduction of Carbon Dioxide: III – The Role of Oxide Layer Thickness on the Performance of Sn Electrode in a Full Electrochemical Cell, Journal of Materials Chemistry A, (2014).

 

58 Fu-Sheng Ke, Ling Huang, Lauryn Jamison,+ Lian-Jie Xue, Guo-Zhen Wei, Jun-Tao Li, Xiao-Dong Zhou and Shi-Gang Sun, “Nanoscale Tin-based Intermetallic Electrodes Encapsulated in Microporous Copper Substrate as the Negative Electrode with a High Rate Capacity and a Long Cycleability for Lithium-ion Batteries,” Nano Energy, 2, 595-603 (2013).

 

57 Jingjie Wu,* Frank G. Risalvato,+ and X.-D. Zhou, “Electrochemical Reduction of Carbon Dioxide: II – Design, Assembly, and Performance of Low Temperature Electrolysis Cells, Journal of the Electrochemical Society, 160, F953-957 (2013).

 

56 Jingjie Wu,* Frank G. Risalvato,+ Perry J. Pellechia, Fu-Sheng Ke, and X.-D. Zhou, “Electrochemical Reduction of Carbon Dioxide: I - Effects of the electrolyte on the selectivity and activity with Sn electrode,” Journal of the Electrochemical Society, 159, F353-F359 (2012).

 

55 Fu-Sheng Ke, Ling Huang, Bryan Solomon,* G. Z. Wei, Lian Jie Xue, Bo Zhang, J. T. Li, X.-D. Zhou, and Shi-Gang Sun, “Three-dimensional nanoarchitecture of Sn-Sb-Co alloy as an anode of lithium-ion batteries with excellent lithium storage performance”, Journal of Materials Chemistry, 22, 17511-17517 (2012).

 

54 Fu-Sheng Ke, Bryan C. Solomon,* S. Ma, and X.-D. Zhou, “Metal-carbon nanocomposites as the oxygen electrode for rechargeable lithium-air batteries,” Electrochimica Acta, 85, 444-449 (2012).

 

53 Jingjie Wu,* Fengjie Xia, Mu Pan, and X.-D. Zhou, “Oxygen reduction reactions on highly stable Pt/TiSi2 electrocatalysts,” Journal of the Electrochemical Society, 159, B654-B660 (2012).

 

52 X.-D. Zhou, J. W. Templeton, Z. Nie, H. Chen, J. W. Stevenson, and L. R. Pederson, “Stability of Electrochemical Performance of the Cathode for Solid Oxide Fuel Cells, V. Highly stable and active Pr2NiO4 cathodes” Electrochimica Acta, 71, 44-49 (2012).

51 Yu Su, Heather M. Brown, Guosheng Li, Xiao-Dong Zhou, James E. Amonette, John L. Fulton, Z. Conrad Zhang, Appl. Catal. A – General, 391, 436-442 (2011).

 

50 Z. Lu, X.-D. Zhou, J. Templeton, and J. W. Stevenson, “Stability of Electrochemical Performance of the Cathode for Solid Oxide Fuel Cells, IV. On the Ohmic Resistance of Anode-supported Solid Oxide Fuel Cells with LSM or LSCF Cathodes,” Journal of the Electrochemical Society, 157, B964-969 (2010).

 

49 X.-D. Zhou, J. W. Templeton, Z. Zhu, G. D. Maupin, T. Zhang, R. K. Brow, and J. W. Stevenson, “Stability of Electrochemical Performance of the Cathode for Solid Oxide Fuel Cells, III. Role of Volatile Boron Species on LSM/YSZ cathode,” Journal of the Electrochemical Society, 157, B1019-1023 (2010).

 

48 X.-D. Zhou, S. P. Simner, J. W. Templeton, and J. W. Stevenson, “Stability of Electrochemical Performance of the Cathode for Solid Oxide Fuel Cells, II. Role of Ni Diffusion on LSM Degradation,” Journal of the Electrochemical Society, 157, B643-649 (2010).

 

47 X.-D. Zhou, J. Templeton and J. W. Stevenson, “Stability of Electrochemical Performance of the Cathode for Solid Oxide Fuel Cells, I. Cross Validation of the Measurement of Polarizations by ac Impedance Spectroscopy and dc I-V Sweep,” Journal of the Electrochemical Society, 157, B220-227 (2010).

 

46 Z. Lu, X.-D. Zhou, J. Templeton, and J. W. Stevenson, “Enhanced Performance of an Anode-supported YSZ Thin Electrolyte Fuel Cell with a Laser-deposited Sm0.2Ce0.8O1.9 Interlayer,” Electrochemical Communications, 12, 179-182 (2010).

 

45 B. P. McCarthy, L. R. Pederson, R. E. Willford, and X.-D. Zhou, “Low-temperature densification of lanthanum strontium manganite (La1-xSrxMnO3+δ), x – 0.0 – 0.20,” Journal of the American Ceramic Society, 92, 1672-1678 (2009).

 

44 Y. Su, H. M. Brown, G. Li, X.-D. Zhou, J. E. Amonette, J. L. Fulton, and Z. C. Zhang, “Paired Metal Chrolorides Activate Cellulose Conversion in Ionic Liquid Solvent,” Applied Catalysis: A General, 361, 117-122 (2009).

 

43 X.-D. Zhou, L. R. Pederson, E. Thomsen, D. Senor, Z. Nie, G. Coffey, B. McCarthy, “Nonstoichoimetry and Transport Properties of Ca3Co4-xO9,” Electrochemical and Solid State Letters, 12, F1-F3 (2009).

 

42 W. Lin, Isaac Stayton, Y-W. Huang, X.-D. Zhou and Y. Ma, “Cytotoxicity and cell membrane depolarization induced by aluminum oxide nanoparticles in human lung epithelial cells A549”, Toxicological and Environmental Chemistry, 90, 983-996 (2008).

 

41 J. Liu, G. Cao, Z. G. Yang, D. Wang, D. Dupois, X.-D. Zhou, J. Zhang, G. Garaff, and L. R. Pederson, “Oriented Nanostructures for Energy Conversion and Storage,” ChemSusChem, 1, 661-683 (2008).

 

40 X.-D. Zhou, S. C. Zhang, and W. Huebner, “Spray Pyrolysis and Dielectric Properties of Pb(Mg1/3Nb2/3)O3,” Journal of the American Ceramic Society – Communication, 91, 2766-2768 (2008).

 

39 B. P. McCarthy, L. R. Pederson, Y. S. Chou, X.-D. Zhou, W. A. Surdoval, and L. C. Wilson, “Low-temperature Sintering of Lanthanum Strontium Manganite-based Contact Pastes for SOFCs,” Journal of Power Sources 180, 294-300 (2008).

 

38 S. Geng, J. Zhu, M. P. Brady, H. U. Anderson, X.-D. Zhou and Z. G. Yang, “A Low-Cr Metallic Interconnect for Intermediate-temperature Solid Oxide Fuel Cells," Journal of Power Sources 172 (2), 775-781 (2007).

 

37 L. Q. Wang, X.-D. Zhou, G. J. Exarhos, L. R. Pederson, C. Wang, C. F. Windisch, and C. Yao, "Proton Dynamics in ZnO Nanorods Quantified by in situ Solid-state H1 Nuclear Magnetic Resonance Spectroscopy," Applied Physics Letters 91, 173107 (2007).

 

36 B. McCarthy, L. R. Pederson, H. U. Anderson, X.-D. Zhou, G. Coffey, P. Singh, and E. Thomsen, “Enhanced Shrinkage of Lanthanum Strontium Manganite (La0.90Sr0.10MnO3+δ) Resulting from Thermal and Oxygen Partial Pressure Cycling,” Journal of the American Ceramic Society 90, 3255-3262 (2007).

 

35 I. Belogolovsky, X.-D. Zhou, H. Kurokawa, P. Y. Hou, H. U. Anderson, and S. Visco, “Effects of Surface Deposited Nanocrystalline Chromite Thin Films on the Performance of a Ferritic Interconnect,” Journal of the Electrochemical Society 154, B976-B980 (2007).

 

34 G. J. Exarhos and X.-D. Zhou, “Discovery-based Design of Transparent Conducting Oxide Films,” Thin Solid Films 515, 7025-7052 (2007).

33 L.-Q. Wang, C. Yao, X.-D. Zhou, C. F. Windisch, L. R. Pederson, and G. J. Exarhos, “Low-Temperature Synthesis and Characterization of Free-Standing ZnO Nanorods,” Applied Physics Letters 90, 173115 (2007).

 

32 W. Lin, Y-W. Huang, X.-D. Zhou and Y. Ma, “In Vitro Toxicity of Silica Nanoparticles in Human Lung Cancer Cells,” Toxicology and Applied Pharmacology 217, 252-259 (2006).

 

31 W. Lin, Y-W. Huang, X.-D. Zhou, and Y. Ma, “Toxicity of Cerium Oxide Nanoparticles in Human Lung Cancer Cells,” International Journal of Toxicology 25, 451-457 (2006).

 

30 X.-D. Zhou, E. Thomsen, Q. Cai, J. Yang, B. Scarfino, W. James, W. Yelon, H. U. Anderson, and L. R. Pederson, “Electrical, Thermoelectric, and Structural Properties of La(Fe,M)O3 (M = Mn, Ni and Cu),” Journal of the Electrochemical Society 153, J133-J138 (2006).

 

29 L. R. Pederson, P. Singh and X.-D. Zhou, “Application of Vacuum Deposition Methods to Solid Oxide Fuel Cells,” Vacuum 80, 1066-1083 (2006).

 

28 J. B. Yang, H. Xu, S. X. You, X.-D. Zhou, C. S. Wang, W. B. Yelon and W. J. James, “Large Scale Growth and Magnetic Properties of Fe and Fe3O4 Nanowires,” Journal of Applied Physics 99, 08Q507 (2006).

 

27 X.-D. Zhou, L. R. Pederson, Q. Cai, J. Yang, B. J. Scarfino, M. Kim, W. B. Yelon, W. J. James, H. U. Anderson, and C. Wang, “Structural and Magnetic Properties of LaMn1–xFexO3 (0<x<1.0),” Journal of Applied Physics 99, 08M918 (2006).

 

26 J. Yang, X.-D. Zhou, Q. Cai, W. J. James, and W. B. Yelon, “Crystal and Electronic Structures of LiNH2,” Applied Physics Letters 88, 041914 (2006).

 

25 X.-D. Zhou, W. Huebner, and H. U. Anderson, “Size Effect on the Electronic Properties of Doped and Undoped CeO2,” Diffusion and Defect Data-Solid State Data, Pt. A: Defect and Diffusion Forum 242-244 (Defect and Diffusion in Ceramics) 277-289 (2005). (Invited).

 

24 J. B. Yang, S. Malik, X. D. Zhou, M. S. Kim, W. B. Yelon, W. J. James, H. U. Anderson, “Magnetic and Transport Properties of Nanocomposite Fe/Fe3-δO4 and Fe3-δO4 Films Prepared by Plasma-enhanced Chemical Vapour Deposition,” Journal of Physics – Applied Physics 38, 1215-1220 (2005).

 

23 M. Kim, J. Yang, Q. Cai, X.-D. Zhou, W. James, W. Yelon, P. Parris, D. Buddhikot, and S. Malik, “The Effect of Cu-doping on the Magnetic and Transport Properties of La0.7Sr0.3MnO3,” Journal of Applied Physics 97, 10H714-716 (2005).

 

22 J. Yang, M. Kim, X. D. Zhou, W. Yelon, and W. James, “Electronic Structure and Charge Ordering of CaFeO3 Studied Using LSDA+U Method,” Journal of Applied Physics 97, 10A312-314 (2005).

 

21 X.-D. Zhou, J. B. Yang, Q. Cai, M. Kim, W. B. Yelon, W. J. James and H. U. Anderson, “Coupled Electrical and Magnetic Properties in (La,Sr)FeO3-δ by in Situ Studies,” Journal of Applied Physics 97, 10C314-316 (2005).

 

20 J. Cheng, A. Navrotsky, X.-D. Zhou and H. U. Anderson, “Thermochemistry of La1-xSrxFeO3-d Solid Solutions (0.0≤x≤1.0, 0.0≤d≤0.5),” Chemistry of Materials 17, 2197-2207 (2005).

 

19 M. Kim, J. Yang, Q. Cai, X.-D. Zhou, W. J. James, W. B. Yelon, P. E. Parris, D. Buddhikot and S. K. Malik, “Structural, Magnetic and Transport Properties of Ti-Substituted La0.7Sr0.3MnO3” Physical Review B 71, 014433 1-7 (2005).

 

18 J. Cheng, A. Navrotsky, X.-D. Zhou, and H. U. Anderson, “Enthalpies of Formation of LaMO3 Perovskites (M = Cr, Fe, Co and Ni),” Journal of Materials Research 20, 191-200 (2005).

 

17 X.-D Zhou, Q. Cai, Z. Chu, J. Yang, W. B. Yelon, W. J. James and H. U. Anderson, “Utilization of Neutron Diffraction and Mössbauer Spectroscopy in the Studies of the Cathode for SOFCs,” Solid State Ionics 175, 83-86 (2004).

 

16 X.-D. Zhou, B. J. Scarfino and H. U. Anderson, “Electrical Conductivity and Stability of CGO-YSZ Solid Solutions,” Solid State Ionics 175, 19-22 (2004).

 

15 J. Yang, X.-D. Zhou, W. B. Yelon and W. J. James, “Growth and Magnetic Properties of MnO2 Nanowire Spheres,” Applied Physics Letters 85, 3160-3162 (2004).

 

14 R. Smith, X.-D. Zhou, W. Huebner, and H. U. Anderson, “Novel Yttrium-Stabilized Zirconia Polymeric Precursor for the Fabrication of Thin Films,” Journal of Materials Research, 19, 2708-2713 (2004).

 

13 W. B. Yelon, Q. Cai, W. J. James, H. U. Anderson, J. B. Yang, X. D. Zhou, and H.A. Blackstead, “Neutron Diffraction Studies of Magnetic and Superconducting Compounds,” Physica Status Solidi 201, 1428-1435 (2004).

 

12 J. B. Yang, X. D. Zhou, W. B. Yelon, W. J. James, Q. Cai, K. V. Gopalakrishnan, S. K. Malik, X. C. Sun, and D. E. Nikles, “Magnetic and Structural Studies of the Verwey Transition in Fe3O4 Nanoparticles,” Journal of Applied Physics 95, 7540-7542 (2004).

 

11 J. B. Yang, X.-D. Zhou, Q. Cai, W. B. Yelon, W. J. James, and H. U. Anderson, “Charge Ordering and Disproportionation of La1/3Sr2/3FeO3,” Journal of Physics – Condensed Matters 15, 5093-5102 (2003).

 

10 T. Suzuki, P. Jasenski, V. Petrovski, X.-D. Zhou, and H. U. Anderson, “Electrical and Optical Properties of Pr0.8Sr0.2MnO3 Thin Films,” Journal of Applied Physics 93, 6223-6228 (2003).

 

9 X.-D. Zhou, “Electron Microscopy Studies on Platinum-ceramics Nanocomposites Synthesized by Spray Process,” Journal of Materials Science Letters 22, 327-330 (2003).

 

8 X.-D. Zhou, W. Huebner, and H. U. Anderson, “Processing of Nanometer-scale CeO2 Particles,” Chemistry of Materials 15, 378-382 (2003).

 

7 J. B. Yang, W. B. Yelon, W. J. James, Z. Chu, M. Kornecki, Y. X. Xie, X. D. Zhou, H. U. Anderson, A. G. Joshi and S. K. Malik, “Crystal Structure, Magnetic Properties and Mössbauer Studies on the La0.6Sr0.4FeO3 Prepared by Quenching in Different Atmospheres,” Physical Review B 66, 184415 (2002).

 

6 X.-D. Zhou, W. Huebner, H. U. Anderson, and I. Kosacki, “Microstructure and Grain Boundary Effect on Electrical Properties of Gd Doped CeO2,” Journal of the American Ceramic Society 85, 1757-1762 (2002).

 

5 X.-D. Zhou, H. U. Anderson, and W. Huebner, “Room Temperature Homogenous Nucleation Synthesis and Thermal Stability of Nanometer CeO2 Single Crystals,” Applied Physics Letters 80, 3814-3816 (2002).

 

4 J. B. Yang, W. B. Yelon, W. J. James, X.-D. Zhou, Y. X. Xie, H. U. Anderson, and Z. Chu, “Magnetic and Mössbauer Studies on the Oxygen Deficient Perovskite La0.6Sr0.4FeO3,” Journal of Applied Physics 91, 7718-7720 (2002).

 

3 X.-D. Zhou and H. C. Gu, “Synthesis of PMMA-ceramics Nanocomposites by Spray Process,” Journal Materials Science Letters 21, 577-580 (2002). (cover issue)

 

2 X.-D. Zhou, and W. Huebner, “Size-induced Lattice Relaxation in Nanometer CeO2 Single crystals,” Applied Physics Letters 79, 3512-3514 (2001).

 

1 X.-D. Zhou, W. Huebner, S. C. Zhang, P. D. Ownby, and H. Gu, “Effect of Solvent on the Particle Morphology of Spray Dried PMMA” Journal Materials Science 36, 3759-3768 (2001). (cover issue).