Google Scholar Citation

 

2017

69. D. Jiang, Z. Zhao, S. Mu, V. Phaneuf, J. Tong^*, “Simple and efficient fabrication of mayenite electrides from a solute-derived precursor,” Inorganic Chemistry, 2017, 56, 11702-11709.

 

68. A. Basile, F. Dalena, J. Tong, T.N. Veziroğlu, Hydrogen production, separation and purification for energy, 2017, SBN:978-1-78561-100-1. The Institution Engineering and Technology, Michael Faraday House, Six Hills Way, Stevenage, Herts SG1 2AY, UK.

 

67. V. Cigolotti, J. Tong, A. Basile, G. Squadrito, International Journal of Hydrogen Energy Special Issue, Volume 42, Issue 3, 2017, the 6th European Fuel Cell Technology & Applications Piero Lunghi Conference & Exhibition (EFC15), 16-18 December 2015, Naples, Italy.

 

66.  J. Tong^*, “Hydrogen production using micro-membrane reactors,” Hydrogen production, separation and purification for energy, edited by A. Basile, F. Dalena, J. Tong, T.N. Veziroğlu, the Institution Engineering and Technology, 2017, SBN:978-1-78561-100-1.

 

65. C. Duan, D. Hook, Y. Chen, J. Tong^*, R. O’Hayre^*, “Zr and Y co-doped perovskite as a stable, high-performance cathode for solid oxide fuel cells operating below 500°C,” Energy & Environmental Science, 10, 176-182 (2017).

 

2016

64. S. Nikodemski, J. Tong^*, C. Duan, R. O’Hayre^*, “Ionic transport modification in proton conducting BaCe_0.6Zr_0.3Y_0.1O_3–δ with transition metal oxide dopants,” Solid State Ionics, 294, 37-42 (2016).

 

63. J.M. Christ, C. Ngo, T. Batson, C.A. Cadigan, J. Tong, R.M. Richards, R. O’Hayre, S. Pylypenko^*, “Synthesis of high surface area Ca_xLa_(1-x)Al_(1-x)Mn_xO_(3-δ) perovskite oxides for oxygen reduction electrocatalysts in alkaline media,” Catalysis Science & Technology, 6(21), 7744-7751 (2016).

 

62. D.R. Diercks, J. Tong, H. Zhu, R. Kee, G. Baure, J.C. Nino, R. O’Hayre, B.P. Gorman^*, “Three-dimensional quantification of composition and electrostatic potential at individual grain boundaries in doped ceria,” Journal of Materials Chemistry A, 4(14), 5167-5175 (2016).

 

2015

61. C. Duan, J. Tong^*, M. Shang, S. Nikodemski, M. Sanders, S. Ricote, A. Almansoori, R. O’Hayre^*, “Readily processed protonic ceramic fuel cells with high performance at low temperatures,” Science, 349, 1321-1326 (2015).

 

60. A. Basile, A. Iulianelli, J. Tong, “Membrane reactors for the efficient conversion of methanol and ethanol,” Membrane reactors for energy applications and basic chemical production, edited by Angelo Basile, Luisa Di Paola, Faisal Hai and Vincenzo Piemonte, Woodhead Publishing, 2015, ISBN 978-1-78242-223-5.

 

59. A. Basile, A. Iulianelli, J. Tong, “Single stage hydrogen production and separation from fossil fuels using micro and macro-membrane reactors,” Compendium of Hydrogen Energy Volume 1: Hydrogen production and purification, edited by Velu Subramani, Angelo Basile, T. Nejat Veziroglu, Woodhead Publishing, 2015, ISBN 978-1-78242-361-4.

 

58. H. Lu, L. Zhu, W. Wang, W. Yang, J. Tong^*, “Pd and Pd-Ni alloy composite membrane fabricated by electroless plating method on capillary α-Al₂O₃ substrate,” International Journal of Hydrogen Energy, 40(8), 3548-3556 (2015).

 

2014

57. A.H. McDaniel, A. Ambrosini, E. N. Coker, J. E. Miller, W. C. Chueh, R. O’Hayre, J. Tong, “Nonstoichiometric perovskite oxides for solar thermochemical H₂ and CO production,” Energy Procedia, 49, 2009-2018 (2014).

 

56. D. Clark, J. Tong^*, A. Morrissey, I. Reimanis, R. O’Hayre^*, “Dramatic conductivity enhancement in a novel protonic ceramic nanocomposite,” Physical Chemistry Chemical Physics, 16(11), 5076-5080 (2014).

 

55. A. Morrissey, J. Tong, B.P. Gorman, I.E. Reimanis^*, “Characterization of nanoscale nickel-doped yttria-stabilized zirconia prepared from all acetate precursors,” Journal of American Ceramic Society, 97(4), 1041-1047 (2014).

 

2013

54. A. Basile, J. Tong, P. Millet, “Inorganic membrane reactors for hydrogen production: an overview with particular emphasis on dense metallic membrane materials,” Chapter 2, p42-148, Handbook of membrane reactors, edited by Angelo Basile, Woodhead Publishing, 2013, ISBN 978-0-85709-8.

 

53. K. Briceño, J. Tong, A. Basile, K. Haraya, “Carbon-based membranes for membrane reactors,” Chapter 10, p370-400, Handbook of membrane reactors, edited by Angelo Basile, Woodhead Publishing, 2013, ISBN 978-0-85709-8.

 

52. A.H. McDaniel^*, E.C. Miller, D. Arifin, A. Ambrosini, E.N. Coker, R. O’Hayre, W.C. Chueh, J. Tong^*, “Sr- and Mn-doped LaAlO_3-δ for solar thermochemical H₂ and CO production,” Energy & Environmental Science, 6, 2424-2428 (2013).

 

51. S. Nikodemski, J. Tong^*, R. O’Hayre^*, “Solid-state reactive sintering mechanism for proton-conducing ceramics,” Solid State Ionics, 253, 201-210 (2013).

 

50. M. Shang, J. Tong^*, R. O’Hayre^*, “A promising cathode for intermediate-temperature protonic ceramic fuel cells: BaCo_0.4Fe_0.4Zr_0.2 O_3-δ,” RSC Advances, 3, 15769-15775 (2013).

 

49. M. Shang, J. Tong^*, R. O’Hayre^*, “A novel wet-chemistry method for the synthesis of multicomponent nanoparticles: A case study of BaCe_0.7Zr_0.1Y_0.1Yb_0.1O_3-δ,” Materials Letters, 92, 382-385 (2013).

 

2012

48. J. Tong^*, A. Subramanian, Harvey Guthrey, D. Clark, B.P. Gorman, Ryan O’Hayre^*, “Electrical conductivities of ionic composite based on proton-conducting ceramic of yttrium-doped barium zirconate and hydrogen-permeable metal of palladium,” Solid State Ionics, 211, 26-33 (2012).

 

47. J.T. White, I.E. Reimanis^*, J. Tong, J.R. O’Brien, A. Morrissey, “Internal reduction of Ni²⁺ in ZrO₂ stabilized with 10 mol % Y₂O₃ examined with SQUID magnetometry,” Journal of American Ceramic Society, 95(12), 4008-4014 (2012).

 

2011

46. A. Subramanian, J. Tong, N. Sammes^*, R. O’Hayre, “Sintering studies on 20mol% yttrium doped barium cerate,” Journal of American Ceramic Society, 94(6), 1800-1804 (2011).

 

45. J. Tong, R. O’Hayre, “Mixed ionic and electronic conducting ceramic membranes for oxygen permeation,” chapter 5, p169-200, Membranes for Membrane Reactors, edited by A. Basile and F. Gallucci, John Wiley and Sons, Inc., 2011, ISBN 9780470746523.

 

2010

44. J. Tong^*, D. Clark, L. Bernau, A. Subramanian, R. O’Hayre^*, “Optimization of proton-conducting yttrium-doped barium cerate ceramics synthesized by a cost-effective solid-state reactive sintering method,” Solid State Ionics, 181, 1486-1498 (2010).

 

43. J. Tong^*, D. Clark, L. Bernau, M. Sanders, R. O’Hayre^*, “Solid-state reactive sintering mechanism for large-grained yttrium-doped barium zirconate proton conducting ceramics,” Journal of Materials Chemistry, 20, 6333-6341 (2010).

 

42. J. Tong^*, D. Clark, M. Hoban, R. O’Hayre^*, “Cost-effective Solid-state reactive sintering method for high conductivity proton conducting yttrium-doped barium zirconium ceramics,” Solid State Ionics, 181, 496-503 (2010).

 

2008

41. J. Tong^*, L. Su, K. Haraya, H. Suda, “Thin Pd membrane on α-Al₂O₃ hollow fiber substrate without any interlayer by electroless plating combined with embedding Pd catalyst in polymer template,” Journal of Membrane Science, 310, 93-101 (2008).

 

40. Y. Matsumura^*, J. Tong, “Methane steam reforming in hydrogen-permeable membrane reactor for pure hydrogen production,” Topics in Catalysis, 51, 123-132 (2008).

 

2006

39. J. Tong^*, L. Su, K. Haraya, H. Suda, “Thin and defect-free Pd-based composite membrane without any interlayer and substrate penetration by an organic and inorganic combined process,” Chemical Communications, 1142-1144 (2006).

 

38. J. Tong, Y. Matsumura^*, “Pure hydrogen production by membrane steam reforming with hydrogen-permeable membrane reactor,” Catalysis Today, 111, 147-152 (2006).

 

37. J. Tong^*, L. Su, Y. Kashima, R. Shirai, H. Suda, Y. Matsumura, “Simultaneously depositing Pd-Ag thin membrane on asymmetric porous stainless steel tube and application to produce hydrogen from steam reforming of methane,” Industrial & Engineering Chemistry Research, 45, 648-655 (2006).

 

36. J. Tong^*, C. Su, K. Kuraoka, H. Suda, Y. Matsumura, “Preparation of thin Pd membrane on CeO₂-modified porous metal by combined method of electroless plating and chemical vapor deposition,” Journal of Membrane Science, 269, 101-108 (2006).

 

35. J. Tong^*, W. Yang, H. Suda, K. Haraya, “Initiation of oxygen permeation and POM reaction in different conducting ceramic membrane reactors,” Catalysis Today, 118(1-2) 144-150 (2006).

 

34. H. Lu, J. Tong, Z. Deng, W. Yang^*, “Crystal structure, oxygen permeability and stability of Ba_0.5Sr_0.5Co_0.8Fe_0.2O_3-δ (M=Fe, Cr, Mn, Zr) oxygen-permeable membrane,” Materials Research Bulletin, 41(4), 683-689 (2006).

 

2005

33. J. Tong^*, Y. Kashima, R. Shirai, Y. Matsumura, “Thin defect-free Pd membrane deposited on asymmetric porous stainless steel substrate,” Industrial & Engineering Chemistry Research, 44, 8025-8032 (2005).

 

32. J. Tong^*, Y. Matsumura, H. Suda, K. Haraya, “Thin and dense Pd/CeO₂/MPSS composite membrane for hydrogen separation and steam reforming of methane,” Separation and Purification Technology, 46, 1-10 (2005).

 

31. J. Tong^*, R. Shirai, Y. Kashima, Y. Matsumura, “Preparation of pinhole-free Pd-Ag membrane on a porous metal support for pure hydrogen separation,” Journal of Membrane Science, 260, 84-89 (2005).

 

30. J. Tong^*, H. Suda, K. Haraya, Y. Matsumura, “A novel method for the preparation of thin dense Pd membrane on macroporous stainless steel tube filter,” Journal of Membrane Science, 260, 10-18 (2005).

 

29. J. Tong, Y. Matsumura^*, “Effect of catalytic activity on methane steam reforming in a hydrogen permeable membrane reactor,” Applied Catalysis A: General, 286, 226-231 (2005).

 

28. J. Tong^*, Y. Matsumura, H. Suda, K. Haraya, “Experimental study of steam reforming of methane in a thin (6µm) Pd-Based membrane reactor,” Industrial & Engineering Chemistry Research, 44, 1454-1465 (2005).

 

27. R. Cai, J. Tong, B. Ji, W. Yang, S. Douvartzides, P. Tsiakaras, “Bi₄Cu_0.2V_1.8O_11-δ based membrane electrochemical reactors for propane oxidation at moderate temperatures,” Ionics, 11(3-4), 184-188 (2005).

 

26. H. Lu, J. Tong, Y. Cong, W. Yang^*, “Partial oxidation in Ba_0.5Sr_0.5Co_0.8-Fe_0.2O_3-δ membrane reactor at high pressures,” Catalysis Today, 104, 154-159 (2005).

 

25. H. Lu, J. Tong, W. Chu, W. Yang^*, L. Lin, “Partial oxidation of methane to syngas over BaNi_0.3Al_11.7O_19-δ catalyst at high pressure,” Chinese Journal of Catalysis, 26(8), 683-687 (2005).

 

24. H. Lu, Z. Deng, J. Tong, W. Yang^*, “Oxygen permeability and structural stability of Zr-doped oxygen-permeable Ba_0.5Sr_0.5Co_0.8Fe_0.2O_3-δ membrane,” Materials Letters, 59, 2285-2288 (2005).

 

2004

23. D. Wang, J. Tong, H. Xu, Y. Matsumura^*, “Preparation of palladium membrane over porous stainless steel tube modified with zirconium oxide,” Catalysis Today, 93-95, 689-693 (2004).

 

22. J. Tong^*, Y. Matsumura, “Thin Pd membrane prepared on macroporous stainless steel tube filter by an in-situ multi-dimensional plating mechanism,” Chemical Communication, 2460-2461 (2004).

 

21. J. Tong, H. Xu, D. Wang, Y. Matsumura^*, “Preparation of thin palladium membrane on porous stainless steel support modified with cerium hydroxide,” Journal of the Japan Petroleum Institute, 47, 64-65 (2004).

 

2003

20. J. Tong, W. Yang^*, R. Cai, B. Zhu, G. Xiong, L. Lin, “Investigation on the structure stability and oxygen permeability of titanium-doped perovskite-type oxides of BaTi_0.2Co_xFe_0.8-xO_3-d (x=0.2-0.6),” Separation and Purification Technology, 32, 289-299 (2003).

 

19. J. Tong, W. Yang^*, S. Sheng, G. Xiong, L. Lin, “Methods for selection perovskite-type oxides used as mixed conducting membranes for oxygen separation,” Membrane Science and Technology, 23(1), 33-42 (2003).

 

2002

18. J. Tong, W. Yang^*, R. Cai, B. Zhu, L. Lin, “Titanium-based perovskite-type mixed conducting ceramic membranes for oxygen permeation,” Materials Letters, 56, 958-962 (2002).

 

17. J. Tong, W. Yang^*, B. Zhu, R. Cai, “Investigation of ideal zirconium-doped perovskite-type ceramic membrane materials for oxygen separation,” Journal of Membrane Science, 203, 175-189 (2002).

 

16. J. Tong, W. Yang^*, R. Cai, B. Zhu, L. Lin, “Novel and ideal zirconium-based dense membrane reactors for partial oxidation of methane to syngas,” Catalysis Letters, 78, 129-137 (2002).

 

15. H. Li, J. Tong, H. Zhu, B. Zhu, P. Yang, W. Yang^*, “Preparation of AgBiVMoO/-Al₂O₃ catalysts for the partial oxidation of propane to acrylic acid by the mixed sol method,” Journal of Natural Gas Chemistry, 11, 127-130 (2002).

 

14. H. Zhu, H. Li, J. Tong, S. Sheng, W. Yang^*, L. Lin, “Oxidative dehydrogenation of propane over vanadia catalysts supported on TiO₂-ZrO₂ composite oxide,” Chinese Journal of Catalysis, 23(5), 391-392 (2002).

 

2001

13. J. Tong, W. Yang^*, Z. Shao, G. Xiong, L. Lin, “Investigation of novel zirconium based perovskite-type mixed conducting membranes for oxygen separation,” Chinese Science Bulletin, 46(6), 473-476 (2001).

 

12. J. Tong, W. Yang^*, R. Cai, B. Zhu, “A novel zirconium-based perovskite-type membrane material for oxygen permeation,” Chinese Chemical Letters, 12(9), 835-838 (2001).

 

11. J. Tong, W. Yang^*, “Preparation of mixed oxygen ionic and electronic conducting membrane and its application in the partial oxidation of methane to synthesis gas,” Chinese Journal of Materials Research, 15(1), 9-16 (2001).

 

10. Z. Shao, G. Xiong^*, J. Tong, H. Dong, W. Yang^*, “Ba effect in doped Sr(Co_0.8Fe_0.2)O_3-δ on the phase structure and oxygen permeation properties of the dense ceramic membranes,” Separation and Purification Technology, 25(1-3), 419-329 (2001).

 

9. H. Dong, Z. Shao, G. Xiong^*, J. Tong, S. Sheng, W. Yang, “Investigation on POM reaction in a new perovskite membrane reactor,” Catalysis Today, 67, 3-13 (2001).

 

8. X. Fang, H. Zhu, J. Tong, W. Yang^*, “Propane oxidative dehydrogenation in novel dense membrane reactor,” Chinese Journal of Catalysis, 22(6), 592-594 (2001).

 

7. W. Chu, J. Tong, W. Yang, L. Lin, “Partial oxidation of methane over the perovskite oxides,” Chinese Chemical Letters, 12(11), 975-978 (2001).

 

2000

6. J. Tong, W. Yang^*, Y. Ren, Z. Shao, G. Xiong, “Investigation on the Ba, Fe Doped La-Co-O series mixed conducting membranes for permeation of oxygen,” Chinese Journal of Catalysis, 21(5), 504-509 (2000).

 

5. J. Tong, W. Yang^*, Y. Ren, Z. Shao, G. Xiong, L. Lin, “Investigation on (Ba, Ca)(Co,Fe)O_3-δ series mixed conducting membrane materials for oxygen permeation,” Chinese Journal of Catalysis, 21(6), 565-568 (2000).

 

4. Z. Shao, W. Yang^*, Y. Cong, H. Dong, J. Tong, G. Xiong^*, “Investigation on the permeation behavior and stability of a Ba_0.5Sr_0.5Co_0.8Fe_0.2O_3-δ oxygen membrane,” Journal of Membrane Science, 172, 177-188 (2000).

 

3. Z. Shao, G. Xiong^*, H. Dong, J. Tong, Y. Cong, W. Yang^*, “Effect of Fe content on properties of Ba_0.5Sr_0.5Co_xFe_1-xO_3-δ mixed conducting membranes,” Chinese Journal of Catalysis, 21(5), 500-504 (2000).

 

2. H. Dong, Z. Shao, G. Xiong^*, J. Tong, S. Liu, W. Yang^*, “Methane conversion in membrane reactors,” Chinese Journal of Catalysis, 21(5), 467-470 (2000).

 

1998

1. J. Cao, J. Tong, Y. Lin, B. Lv^*, “Processing of ascharite-magnetite syngenetic mineral by sulfuric acid (Ⅲ) – phase diagrams of H₃BO₃-MgSO₄-Mg(NO₃)₂-H₂O system at 25℃ and 100℃ and their application,” Hua Gong Xue Bao, 49, 97-102 (1998).

 

 

PATENTS

 

13. J. Tong, C. Duan, M. Shang, R. O’Hayre, “A novel triple-conducting cathode material for low temperature protonic ceramic fuel cells,” USA, Application No. 62/101285, 2016.

 

12. J. Tong, M. Shang, R. O’Hayre, “A cost-effective solid state reactive sintering method for protonic ceramic fuel cells,” USA, 20160036064, 2016.

 

11. A. Ambrosini, A.H. McDaniel, E. Nicholas Coker, W. Chueh, J. Tong, “A method and system for solar thermochemical H₂ and CO production,” USA, Application number: 61/808,956, 2013.

 

10. J. Tong, H. Suda, K. Haraya, “Method for preparing thin composite membrane without pinholes and substrate penetration for hydrogen separation,” Japan, 2007-69207, 2007.

 

9. T. Kami, Y. Matsumura, Y. Kashima, R. Shirai, J. Tong, “Hydrogen separation membrane, production of same and method for separation of hydrogen using same,” Japan, 2005-262082, 2005.

 

8. Y. Matsumura, R. Shirai, Y. Kashima, J. Tong, “Palladium-silver alloy electroplating bath for easy formation of palladium-silver alloy layer without fluctuation of bath composition,” Japan, 2005-256129, 2005.

 

7.  Kuraoka, Y. Matsumura, C. Su, D. Wang, J. Tong, “Hydrogen separation membrane; the preparation method and method of hydrogen separation,” Japan, 2004-122006, 2004.

 

6. W. Yang, J. Tong, B. Zhu, H. Li, J. Liu, “Membrane reactor for preparing acrolein by oxidation of propylene and its application,” China, 1477091, Feb. 25, 2004.

 

5. Li, H. Zhu, J. Tong, B. Zhu, W. Yang, “Composite oxide catalyst and its preparation process and application,” China, 1473654, Feb. 11, 2004.

 

4. W. Yang, J. Tong, S. Sheng, R. Cai, “Oxygen permeable mixed conductive membrane reactor and its application,” China, 1416946, May 14, 2003.

 

3. W. Yang, J. Tong, R. Cai, B. Zhu, “A method for preparing Ti-base composite oxide powders for oxygen-permeable membranes and membrane tubes,” China, 1342730, April 3, 2002.

 

2. W. Yang, J. Tong, R. Cai, B. Zhu, “Oxygen permeable membrane materials,” China, 136096, July 31, 2002.

 

1. W. Yang, J.  Tong, B. Zhu, R. Cai, “Manufacturing of ultrathin self-supported mixed-conductor oxygen-permeable membranes,” China, 1360967, July 31, 2002.