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个人简介

吴进明,男,教授。1999年3月博士毕业后留校任教至今。2002年12月晋升副教授,2010年12月晋升教授。期间于2000年7月至2002年7月赴日本冈山大学从事博士后研究,2005年3月至9月在香港大学以Research Associate身份进行生物材料方面合作研究,2006年7月至2007年6月获德国洪堡奖学金,在马普学会胶体与界面研究所(波茨坦)从事有序介孔薄膜研究。迄今在国内外专业期刊发表论文150余篇,其中被SCI收录的论文120余篇,论文SCI引用2500余次

研究领域

光催化 环境与能源材料 溶液燃烧合成

近期论文

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2019 1. Gu, Y. J.; Wen, W.*; Wu, J. M.* (2019): Simple air calcination affords commercial carbon cloth with high areal specific capacitance for symmetrical supercapacitors, Journal of Materials Chemistry A, 2018, DOI: 10.1039/C8TA07561A 2. Zhao, Q. E.; Wen, W.; Xia, Y.; Wu, J. M.* (2019): Titania nanowires growing from P25 nuclei: Facile synthesis and the improved photocatalytic activity, Journal of Physics and Chemistry of Solids 124, 192-198. 3. Xing, H.; Wen, W.; Wu, J. M.* (2019): (001)-exposed TiO2 microcrystals decorated with few-layer nanobelts for enhanced photocatalytic activity, Materials Research Bulletin 109, 98-102. 2018 1. Wen, W.*; Chen, Y. N.; Wang, S. G.; Cao, M. H. *; Yao, J. C.; Wu, J. M.* (2018): A 3D electrode of core@shell branched nanowire TiN@Ni0.27Co2.73O4 arrays for enhanced oxygen evolution reaction, Applied Materials Today 12, 276-282. (Cover article) 2. Xing, H.; Wen, W.; Wu, J. M.* (2018): Sheet-on-belt branched TiO2(B)/rGO powders with enhanced photocatalytic activity, Beilstein Journal of Nanotechnology 9, 1550-1557. 3. Jiang, R.; Wen, W.; Wu, J. M.* (2018): Titania nanowires coated PEI/P25 membranes for photocatalytic and ultrafiltration applications, New Journal of Chemistry 42, 3020-3027. 4. Zhao, Q. E.; Wen, W.; Xia, Y.; Wu, J. M.* (2018): Photocatalytic activity of TiO2 nanorods, nanowires and nanoflowers filled with TiO2 nanoparticles, Thin Solid Films 648, 103-107. 5. Xiang, X. B.; Yu, Y.; Wen, W.; Wu, J. M.* (2018): Construction of hierarchical Ag@TiO2@ZnO nanowires with high photocatalytic activity, New Journal of Chemistry 42, 265-271. 6. Gu, Y. J.; Wen, W.; Xu, Y.; Wu, J. M.* (2018): Pyrrole-regulated precipitation of titania nanorods on polymer fabrics for photocatalytic degradation of trace toluene in air, Applied Surface Sciences 434, 1055-1063. 7. Wen, W.*; Yao, J. C.; Luo, Y.; Lai, L. L.; Wu, J. M.* (2018): Synthesis of an intensive blue pigment with low cobalt content, Ceramics International 44, 4381-84. 8. Xu, Y.; Wen, W.; Wu, J. M.* (2018): Titania Nanowires Functionalized Polyester Fabrics with Enhanced Photocatalytic and Antibacterial Performances, Journal of Hazardous Materials 343, 285-297. 2017 1. Jiang, R.; Wen, W.; Luo, Y.; Wu, J. M.* (2017): Low temperature synthesis of few-layer titanate nanobelts on Ti mesh and the hot-water induced transformations to highly photocatalytic active titania nanorods, Journal of Environmental Chemical Engineering, 5, 4676-4683. 2. Lai, L. L.; Wen, W.; Wu, J. M.* (2017): Room-Temperature Hydrolysis of Potassium Titanyl Oxalate and Water-Assisted Crystallization for TiO2 with High Photocatalytic Activity, ChemistrySelect, 2, 5025-5031. 3. Yu, Y.; Wen, W.; Qian, X.Y.; Liu, J.B.; Wu, J. M.* (2017): UV and visible light photocatalytic activity of Au/TiO2 nanoforests with Anatase/Rutile phase junctions and controlled Au locations, Scientific Reports 7, 41253. 4. Wen, W.; Wu, J. M.*; Jiang, Y.Z.; Lai, L.L.; Song, J. (2017): Pseudocapacitance-enhanced Li-ion microbatteries derived by a TiN@TiO2 nanowire anode, Chem 2, 404-416. 5. Xu, Y.; Wen, W.; Tang, M.Z.; Wu, J. M.* (2017): Photocatalytically active TiO2 microtubes assembled with radially aligned nanowires, Materials Chemistry Frontiers 1, 1453-1458. 6. Wen, W.*; Yao, J. C.; Gu, Y. J.; Sun, T. L.; Tian, H.; Zhou, Q. L.; Wu, J. M.* (2017): Balsam-pear-like rutile/anatase core/shell titania nanorod arrays for photoelectrochemical water splitting, Nanotechnology 28, 465602. 7. Wen, W.*; Yao, J. C.; Jiang, C. C.; Wu, J. M.* (2017): Solution-Combustion Synthesis of Nanomaterials for Lithium Storage, International Journal of Self-Propagating High-Temperature Synthesis, 26, 187-198. 2016 1. Lai, L.L.; Wen, W.; Fu, B.; Qian, X. Y.; Liu, J. B.; Wu, J. M.* (2016): Surface roughening and top opening of single crystalline TiO2 nanowires for enhanced photocatalytic activity, Materials & Design 108, 581-89. 2. Wen, W.*; Wu, J. M.*; Jinag, Y. Z.; Bai, J. Q.; Lai, L. L. (2016): Titanium dioxide nanotrees for high-capacity lithium-ion microbatteries, Journal of Materials Chemistry A 4, 10593-10600. 3. Bai, J. Q.; Wen, W.; Wu, J. M.* (2016): Facile synthesis of Ni-doped TiO2 ultrathin nanobelt arrays with enhanced photocatalytic performance, CrystEngComm 18, 1847-1853. 4. Lai, L. L.; Wen, W.; Wu, J. M.* (2016): Hierarchical nanosheet-assembled yolk-shell TiO2 microspheres with improved photocatalytic activity, CrystEngComm 18, 5195-5201. 2015 and before 1. Lai, L.L., Wu, J. M.* (2015): A facile solution approach to W, N co-doped TiO2 nanobelt thin films with high photocatalyticactivity, Journal of Materials Chemistry A 3, 15863-68. 2. Lai, L. L., Huang, L. L., Wu, J. M.* (2015): Hollow TiO2 microspheres assembled with rutile mesocrystals: Low-temperature one-pot synthesis and the photocatalytic performance, Ceramics International 41, 12317-22. 3. Wen, W., Wu, J. M.*, Jiang, Y. Z., Yu, S. L., Bai, J. Q., Cao, M. H., Cui, J. (2015): Anatase TiO2 ultrathin nanobelts derived from room-temperature-synthesized titanates for fast and safe lithium storage, Scientific Reports 5, 11804. 4. Wu, J. M.*, Yin, J. X. (2015): A facile solution-based approach to a photocatalytic active branched one-dimensional TiO2 array, RSC Advances 5, 3465-69. 5. Wen, W., Wu, J. M.* (2014): Nanomaterials via solution combustion synthesis: a step nearer to controllability, RSC Advances 4, 58090-100. 6. Wen, W., Wu, J. M.*, Cao, M. H. (2014): Facile synthesis of a mesoporous Co3O4 network for Li-storage via thermal decomposition of an amorphous metal complex, Nanoscale 6, 12476-81. 7. Lai, L. L., Wu, J. M.*, Huang, L. L. (2014): K2TiO(C2O4)2-mediated synthesis of rutile TiO2 mesocrystals and their ability to assist photodegradation of sulfosalicylic acid in water, RSC Advances 4, 49280-86. 8. Lai, L. L., Wu, J. M.* (2014): A facile synthesis of hierarchical TiO2 for dye adsorption and photocatalysis, RSC Advances 4, 36212-17. 9. Tang, M. Z., Wu, J. M.* (2014): Sandwich-like titania thin films with one/three dimensional nanostructures for photocatalytic applications, RSC Advances 4, 2260-65. 10. Li, B., Wu, J. M.*, Guo, T. T., Tang, M. Z., Wen, W. (2014): A facile solution route to deposit TiO2 nanowire arrays on arbitrary substrates, Nanoscale 6, 3046-50. 11. Cai, J.; Li, Y.; Wu, J. M.; Ling, G. P. (2014): Preparation of Self-Healing alpha-Al2O3 Films by Low Temperature Thermal Oxidation, Oxidation of Metals 81, 253-65. 12. Wen, W., Wu, J. M.*, Cao, M. H. (2013): Rapid one-step synthesis and electrochemical performance of NiO/Ni with tunable macroporous architectures, Nano Energy 2, 1383-90. 13. Sun, J., Wu, J. M.* (2013): A Comparative Study on Photocatalytic Activity of Titania Nanowires Subjected to High-Temperature Calcination and Low-Temperature HCl Treatment, Science of Advanced Materials 5, 549-56. 14. Sun, J., Wu, J. M.*, Wen W. (2013): Low-Temperature Transformation of Titania Thin Films from Amorphous Nanowires to Crystallized Nanoflowers for Heterogeneous Photocatalysis, Journal of the American Ceramic Society 96, 2109-16. 15. Wen, W., Wu, J. M.*, Wang, Y. D. (2013): Flash synthesis of macro-/mesoporous ZnO for gas sensors via self-sustained decomposition of a Zn-based complex, RSC Advances 3, 12052-55. 16. Tao, R. H., Wu, J. M.*, Xiao, J. Z., Zhao, Y. P., Dong, W. W., Fang, X. D. (2013): Conformal growth of ZnO on TiO2 nanowire array for enhanced photocatalytic activity, Applied Surface Science 279, 324-28. 17. Wen, W., Wu, J. M.*, Wang, Y. D. (2013): Gas-sensing property of a nitrogen-doped zinc oxide fabricated by combustion synthesis, Sensor and Actuators B: Chemical 184, 78-84. 18. Wen, W., Wu, J. M.*, Cao, M. H. (2013): NiO/Ni Powders with effective architectures for anode materials in Li-ion batteries, Journal of Materials Chemistry A 1, 3881-85. 19. Wen, W., Wu, J. M.*, Lai, L. L., Ling, G. P., Cao, M. H. (2012): Hydrothermal synthesis of needle-like hyperbranched Ni(SO4)0.3(OH)1.4 bundles and their morphology-retentive decompositions to NiO for lithium storage, CrystEngComm 14, 6565-72. 20. Wu, J. M.*, Zhang, Y. Q., Xue, H. X., Bai, G. H., Lai, L. L., Tang, M. Z. (2012): Titania polyhedra via sodium fluorotitanate intermediates, Science of Advanced Materials 4, 719-26. 21. Wen, W., Wu, J. M.*, Wang, Y. D. (2012): Large-size porous ZnO flakes with superior gas-sensing performance, Applied Physics Letters 100, Art No. 262111. 22. Wu, J. M., Djerdj, I., Graberg, T. and Smarsly, B. * (2012), Mesoporous MgTa2O6 thin films with enhanced photocatalytic activity: on the interplay between crystallinity and mesostructure, Beilstein Journal of Nanotechnology 3, 123-33. 23. Wen, W., Wu, J. M.* (2012): A novel solution combustion synthesis of cobalt oxide nanoparticles as negative-electrode materials for lithium ion batteries, Journal of Alloys and Compounds 513, 592-96. 24. Zhang, S. C., Xue, H. X., Wu, J. M.* (2011): Photocatalytic active titania thin films through oxidation of metallic Ti in aqueous H2O2 Solutions containing various block copolymers, Rare Metal Materials and Engineering 40, 1703-07. 25. Wen, W., Wu, J. M.* (2011): Eruption Combustion Synthesis of NiO/Ni Nanocomposites with Enhanced Properties for Dye-Absorption and Lithium Storage, ACS Applied Materials & Interfaces 3, 4112-19. 26. Wu, J. M.*, Song, X. M., Yan, M.* (2011): Alkaline hydrothermal synthesis of homogeneous titania microspheres with urchin-like nanoarchitectures for dye effluent treatments, Journal of Hazardous Materials 194, 338-44. 27. Wu, J. M.*, Tang, M. L. (2011): One-pot synthesis of N-F-Cr-doped anatase TiO2 microspheres with nearly all-(001) surface for enhanced solar absorption, Nanoscale 3, 3915-3922. 28. Wu, J. M.*, Tang, M. L. (2011): Hydrothermal growth of nanometer- to micrometer-size anatase single crystals with exposed (001) facets and their ability to assist photodegradation of rhodamine B in water, Journal of Hazardous Materials 190, 566-73. 29. Wu, J. M.*, Song, X. M., Ma, L. Y., Wei, X. D. (2011): Hydrothermal growth of multi-facet anatase spheres, Journal of Crystal Growth 319, 57-63. 30. Wu, J. M.*, Wen W. (2010): Catalyzed degradation of Azo dyes under ambient conditions, Environmental Science & Technology 44, 9123-27. 31. Song, X. M., Wu, J. M.*, Meng, L., Yan, M. (2010): Enhanced Light Response of Titania Nanotube Arrays Sensitized with Pyrite FeS2, Journal of the American Ceramic Society 93, 2068-73. 32. Tao, R. H., Wu, J. M.*, Xue, H. X., Dong, W. W., Deng, Z. H., Fang, X. D. (2010): Pulsed laser deposition of titania on rutile nanorod arrays, Thin Solid Films 518, 4191-96. 33. Tao, R. H., Wu, J. M.*, Xue, H. X., Song, X. M., Pan, X., Fang, X. Q., Fang, X. D., Dai, S. Y. (2010): A novel approach to titania nanowire arrays as photoanodes of back-illuminated dye-sensitized solar cells, Journal of Power Sources 195, 2989-95. 34. Song, X. M., Wu, J. M.*, Yan, M. (2009): Distinct Visible-light response of composite films with CdS electrodeposited on TiO2 nanorod and nanotube arrays, Electrochemistry Communications 11, 2203-06. 35. Tang, M. Z., Wu, J. M.* (2009): Photoelectrocatalytic efficiency of low-temperature precipitated monolayer rutile TiO2 nanoflower film, Science of Advanced Materials 1, 144-52. 36. Wu, J. M.*, Xue, H. X. (2009): Photocatalytic active titania nanowire arrays on Ti substrates, Journal of the American Ceramic Society 92, 2139-43. 37. Song, X. M., Wu, J. M.*, Zhang, G. J., Yan, M. (2009): A dual-layer titania film with enhanced photocatalytic activity, Journal of Physical Chemistry C 113, 10681-88. 38. Song, X. M., Wu, J. M.*, Yan, M. (2009): Photocatalytic degradation of selected dyes by titania thin films with various nanostructures, Thin Solid Films 517, 4341-47. 39. Song, X. M., Wu, J. M.*, Tang, M. Z., Qi, B., Yan, M. (2008): Enhanced photoelectrochemical response of a composite titania thin film with single-crystalline rutile nanorods embedded in anatase aggregates, Journal of Physical Chemistry C 112, 19484-92. 40. Wu, J. M.*, Qi, B. (2008): Low-temperature growth of rutile nanorod thin films and their photon-induced property, Journal of the American Ceramic Society 91, 3961-70. 41. Song, X. M., Wu, J. M.*, Yan, M. (2008): Photocatalytic and photoelectrocatalytic degradation of aqueous rhodamine B by low-temperature deposited anatase thin films, Materials Chemistry and Physics 112, 510-515. 42. Wu, J. M., Antonietti, M., Gross, S., Bauer, M., Smarsly, B. (2008): Ordered mesoporous thin films of rutile TiO2 nanocrystals mixed with amorphous Ta2O5. ChemPhysChem 9, 748-57. 43. Ying, H. G., Yan, M., Ma, T. Y., Wu, J. M., Yu, L. Q. (2007): Effects of NH4F on the deposition rate and buffering capability of electroless Ni-P plating solution, Surface & Coatings Technology 202, 217-21. 44. Hu, J., Yan, M., Luo, W., Wu, J. M. (2007): Effects of microstructure on the temperature dependence of relative initial permeability of NiCuZn ferrites, Physica B: Condensed Matter 400, 119-23. 45. Yu, L. Q., Yan, M., Wu, J. M., Luo, W., Cui, X. G., Ying, H. G. (2007): On the cooling rate of strip cast ingots for sintered NdFeB magnets, Physica B: Condensed Matter 393, 1-5. 46. Wu, J. M.* (2007): Photodegradation of rhodamine B in water assisted by titania nanorod thin films subjected to various thermal treatments. Environmental Science & Technology 41, 1723-28. 47. Wu, J. M.*, Qi, B. (2007): Low-temperature growth of a nitrogen-doped titania nanoflower film and its ability to assist photodegradation of rhodamine B in water. Journal of Physical Chemistry C 111, 666-673. 48. Wu, J. M.*, Qi, B. (2007): Low-temperature growth of monolayer rutile TiO2 nanorod films. Journal of the American Ceramic Society 90, 657-60. 49. Wu, J. M.*, Huang B. (2007): Enhanced ability of nanostructured titania film to assist photodegradation of rhodamine B in water through natural ageing. Journal of the American Ceramic Society 90, 283-286. 50. Liu, S. G., Wu, J. M.*, Zhang, S. C., Rong, S. J., Li, Z. Z. (2007): High temperature erosion properties of arc-spraying coatings using various cored lines. Wear 262, 555-61. 51. Wu, J. M., Liu, J. F., Satoshi, H., Tsuru, K. and Osaka, A. (2007): Low-temperature deposition of rutile film on biomaterials substrates and its ability to induce apatite deposition in vitro. Journal of Materials Science: Materials in Medicine 18, 1529-36. 52. Wu, J. M.*, Huang B., Wang, M. and Osaka A. (2006): Titania nanoflowers with high photocatalytic activity. Journal of the American Ceramic Society 89, 2660-63. 53. Wu, J. M.*, Zhang, S. C., Li, Y. W., Wang, M., and Osaka A. (2006): Influence of film thickness on in vitro bioactivity of thin anatase films produced through direct deposition from an aqueous titanium tetrafluoride solution. Surface & Coatings Technology 201, 3181-88. 54. Wu, J. M.*, Wang, M., Satoshi, H., Tsuru, K. and Osaka A. (2006): Crystallization of amorphous titania gel by hot water aging and induction of in vitro apatite formation by crystallized Titania. Surface & Coatings Technology 201, 755-761. 55. Zhao, J. M., Liu, J. F., Wu, J. M., Tsuru, K., Hayakawa, S. and Osaka, A. (2006): Apatite formation on rutile and anatase layers derived by hydrolysis of titanylsulfate in a simulated body fluid, Journal of Ceramic Society of Japan 114, 253-258. 56. Wu, J. M.*, Huang B., Zeng Y. H. (2006): Low-temperature deposition of anatase thin films on titanium substrates and their abilities to photodegrade Rhodamine B in water. Thin Solid Films 497, 292-298. 57. Wu, J. M.*, Zhang, T. W., Zeng, Y. W., Satoshi, H., Tsuru, K. and Osaka, A. (2005): Large-scale preparation of ordered titania nanorods with enhanced photocatalytic activity. Langmuir 21, 6995-7002. 58. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2004): Low-temperature preparation of anatase and rutile layers on titanium substrates and their ability to induce in vitro apatite deposition. Journal of the American Ceramic Society 87, 1635-1642. 59. Wu, J. M.* (2004): Low-temperature preparation of titania nanorods through direct oxidation of titanium with hydrogen peroxide. Journal of Crystal Growth 269, 347-355. 60. Wu, J. M.* and Zhang, T. W. (2004): Photodegradation of Rhodamine B in water assisted by titania films prepared through a novel procedure. Journal of Photochemistry and Photobiology. A: Chemistry 162, 171-177. 61. Wu, J. M., Xiao, F., Satoshi, H., Tsuru, K. Takemoto, S. and Osaka, A. (2003): Bioactivity of metallic biomaterials with anatase layers deposited in acidic titanium tetrafluoride solution. Journal of Materials Science: Materials in Medicine 14, 1027-1032. 62. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2003): Early apatite deposition on titanium treated with hydrogen peroxide, Journal of Australia Ceramic Society 39, 36-42. 63. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): Nanocrystalline titania made from interactions of titanium with hydrogen peroxide solutions containing tantalum chloride. Crystal Growth & Design 2, 147-149. 64. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): Soft solution approach to prepare crystalline titania films. Scripta Materialia 46, 705-709. 65. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): Porous titania films prepared from interactions of titanium with hydrogen peroxide solution. Scripta Materialia 46, 101-106. 66. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): In vitro bioactivity of anatase film obtained by direct deposition from aqueous titanium tetrafluoride solutions. Thin Solid Films 414, 275-280. 67. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): Crystallization of anatase from amorphous titania in hot water and in vitro biomineralization. Journal of Ceramic Society of Japan 110, 78-80. 68. Wu, J. M.* (2001): Nano-sized amorphous alumina particles obtained by ball milling ZnO and Al powder mixture. Materials Letters 48, 324-330. 69. Wu, J. M.*, Zheng, S. L., Zeng, Y. W. and Li, Z. Z. (2001): Dry sliding wear of MA/PM Al-10Ti. Transactions of Nonferrous Metals Society of China 11, 270-274. 70. Wu, J. M.*, Zheng, S. L. and Li, Z. Z. (2000): Thermal stability and its effects on mechanical properties of rapidly solidified Al-Ti alloys. Materials Science and Engineering A 289, 246-254. 71. Wu, J. M.* and Li, Z. Z. (2000): Nanostructured composite obtained by mechanically driven reduction reaction of CuO and Al powder mixture. Journal of Alloys and Compounds 299, 9-16. 72. Wu, J. M.* and Li, Z. Z. (2000): Contributions of the particulate reinforcement to dry sliding wear resistance of rapidly solidified Al-Ti alloys. Wear 244, 147-153. 73. Wu, J. M.*, Zheng, S. L., Yuan, J., Li, Z. Z., Zeng, Y. W. and Ji, Z. G. (2000): Mechanical properties of rapidly solidified Al-Ti alloys after thermal exposure. Transactions of Nonferrous Metals Society of China 10, 435-440. 74. Wu, J. M.*, Zheng, S. L., Li, Z. Z. and Wu, N. Q. (1999): Reduction reaction of Al-CuO powder mixture driven by mechanical alloying. Transactions of Nonferrous Metals Society of China 9, 717-722. 75. Wu, J. M.*, Zheng, S. L., Li, Z. Z. and Zeng, Y. W. (1999): Effects of cold deformation on the low speed sliding wear of the RS/PM Al-10Ti alloy against carbon steel. Wear 232, 25-30. 76. Wu, J. M.*, Wu, N. Q., Wang, G. X. and Li, Z. Z. (1997): In-situ observation of single-point wear of the PM alloy Al-10Ti. Transactions of Nonferrous Metals Society of China 7, 69-74. 77. Hu, S. B., Li, Z. Z., Mei, Z. and Wu, J. M. (2000): High temperature sliding wear behaviors of ion plating TiN composite coating with ion nitriding as interlayer on hot work die steel. Transactions of Nonferrous Metals Society of China 10, 777-782. 78. Zheng, S. L., Wu, J. M.*, Zeng, Y. W. and Li, Z. Z. (1999): Ageing behavior of Cu-15Ni-8Sn alloy prepared by mechanical alloying. Transactions of Nonferrous Metals Society of China 9, 707-711. 79. Wu, N. Q., Li, Z. Z., Wu, J. M. and Wang, G.-X. (1998): Mechanosynthesis mechanism of TiC powder. Materials Science & Technology 14, 287-291. 80. Wu, N. Q., Wu, J. M., Lin, S., Zhou, J. Q. and Li, Z. Z. (1998): Dry sliding wear of PM Al-10Ti alloy. Transactions of Nonferrous Metals Society of China 8, 421-429. 81. Wu, N. Q., Su, L. Z., Yuan, M. Y., Wu, J. M. and Li, Z. Z. (1998): Nano-sized amorphous Cu-Zr alloy particles prepared by mechanochemical reaction, Materials Science and Engineering A 257, 357-360. 82. Wu, N. Q., Su, L. Z., Yuan, M. Y., Liu, Y. Y., Wu, J. M. and Z. Z. Li (1998): Preparation and microstructure of nano-sized Cu particles by mechanochemical reaction, Transactions of Nonferrous Metals Society of China 8, 610-612. 83. Wu, N. Q., Wu, J. M., Li, Z. Z. and Wang, G.-X. (1997): Formation of nanocrystalline f. c. c phase by mechanically driven crystallization. Materials Transactions JIM 38, 255-259. 84. Wu, N. Q., Wu, J. M., Wang, G. X. and Li, Z. Z. (1997): Amorphization in the Al-C system by mechanical alloying. Journal of Alloys and Compounds 260, 121-126. 85. Wu, N. Q., Wang, G. X., Wu, J. M. and Li, Z. Z. (1997): Formation of nanocrystalline TiC by ball milling of elemental titanium and carbon. International Journal of Refractory Metals & Hard Materials 15, 289-293. 86. Wu, N. Q., Wu, J. M., Li, W., Wang, G. X. and Li, Z. Z. (1997): Preparation of Ti/Al based nanophase composite powder by mechanical alloying. Transactions of Nonferrous Metals Society of China 7, 1-4. 87. Wu, N. Q., Wang, G. X., Li, Z. Z., Wu, J. M. and Chen, J. W. (1997): Microstructure and sliding wear behavior of PM alloy Al-10Ti after thermal exposure. Wear 203-204, 155-161. 88. Wu, N. Q., Wang, G. X., Li, W., Wu, J. M. and Li, Z. Z. (1997): Mechanically driven synthesis of nanophase TiC/Ti-Al composite powder, Materials Letters 32, 259-262. 国际会议 1. Wu, J. M., Min WANG, Akiyoshi Osaka. (2007): Bioactive Composite Coating on Titanium Implants for Hard Tissue Repair, The 5th Asian-Australasian Conference on Composite Materials (ACCM-5), Hong Kong, China, November 27-30, Key Engineering Materials 334-335, 1249-52. 2. Wu, J. M.*, Min WANG, Satoshi Hayakawa, Kanji Tsuru and Akiyoshi Osaka. (2006): In vitro bioactivity of hydrogen peroxide modified titanium: effects of surface morphology and film thickness, 18th International Symposium on Ceramics in Medicine, Kyoto, Jpn, December, 2005, Key Engineering Materials 309-311, 407-410. 3. Wu, J. M.*, Min WANG, Satoshi Hayakawa, Kanji Tsuru and Akiyoshi Osaka. (2006): Direct deposition of a rutile layer on polymer substrates to induce bioactivity in vitro, 18th International Symposium on Ceramics in Medicine, Kyoto, Jpn, December, 2005, Key Engineering Materials 309-311, 419-422. 4. Wu, J. M., Wang, M., and Osaka, A. (2005): Biomimetic deposition of apatite on titania films prepared through various approaches, The 3rd International Symposium on Apatite and Correlative Biomaterials, Wuhan, China, October 25-28, 2005, p92. 5. Wu, J. M., Wang, M., and Osaka, A. (2005): Biomimetic apatite formation on titania films produced via a low-temperature Route, 2005 International Symposium on Quality of Bone and Scaffold Biomaterials, Hong Kong, China, October 17-18, 2005, p164. 6. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2003): Low temperature deposition of bioactive crystalline titania films: Effects of tantalum. 15th International Symposium on Ceramics in Medicine, Sydney, Australia, December 4-8, 2002, Key Engineering Materials 240-242, 533-536. 7. Wu, J. M., Satoshi, H., Tsuru, K. and Osaka, A. (2002): Preparation of anatase and rutile layers on titanium substrates in aqueous solution and their tissue-bonding ability, The 104th Annual Meeting and Exposition on the American Ceramics Society, St. Louis, Missouri, Apr 22-May 1, 2002. 8. Wu, J. M., Satoshi, H., Tsuru, K., Osaka, A. and Wang, X. X. (2001): In vitro evaluation on bone-bonding of chemically modified titanium, 14th International Symposium on Ceramics in Medicine, Hawaii, USA, December, 2001, Key Engineering Materials 218-220,141-144. 9. Wu, J. M. (2001): In vitro apatite deposition on chemically modified titanium. 14th fall meeting of the ceramics society of Japan celebrating 21st century. Memorial Symposium on Ceramics by Young Asian Fellows, sponsored by Basic Science Division, Ceramic Society of Japan, Tokyo, Sep 26-28, 2001, p177.

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