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论文发表:

  1. Q. Wu, L. J. Yang, X. Z. Wang, Z. Hu, Mesostructured carbon-based nanocages: an advanced platform for energy chemistry. Sci. China Chem. 65(2020)665-681.(Review)
  2. L. J. Yang, J. L. Shui, L. Du, Y. Y. Shao, J. Liu, L. M. Dai, and Z. Hu, Carbon-based metal-free orr electrocatalysts for fuel cells: Past, present, and future. Adv. Mater. 32 (2020) 1804799. (Review)
  3. B. X. Wang, X. Wang, X. Y. Cheng, J. Zhang, M. L. Yan, G. C. Li, L. J. Yang, Q. Wu, X. Z. Wang, Z. Hu, Non-Macrocyclic Iron(II) Soluble Redox Mediators Leading to High-Rate Li-O2 Battery. CCS Chemistry (2020).
  4. Mao, L. J. Yang, X. Z. Wang, Q. Wu and Z. Hu, Identifying Iron−Nitrogen/Carbon Active Structures for Oxygen Reduction Reaction under the Effect of Electrode Potential. J. Phys. Chem. Lett. 11(2020)2896−2901.
  5. Y. Q. Chen, Y. J. Yao, Y. J. Xia, K. Mao, G. A. Tang, Q. Wu, L. J. Yang, X. Z. Wang, X. H. Sun, Z. Hu, Advanced Ni-Nx-C single-site catalysts for CO2 electroreduction to CO based on hierarchical carbon nanocages and S-doping. Nano Research 13(2020)2777-2783.
  6. J. Zhao, C. X. Ge, Z. Y. Zhao, Q. Wu, M. Liu, M. L. Yan, L. J. Yang, X. Z. Wang and Z. Hu, Sub-nanometer-scale fine regulation of interlayer distance in Ni-Co layered double hydroxides leading to high-rate supercapacitors. Nano Energy 76(2020)105026.
  7. M. Liu, H. Fan, O. Zhuo, J. C. Chen, Q. Wu, L. J. Yang, L. M. Peng, X. Z. Wang, R. C. Che, and Z. Hu, A General Strategy to Construct Yolk-Shelled Metal Oxides inside Carbon Nanocages for High-Stable Lithium-Ion Battery Anodes. Nano Energy 68(2020)104368.
  8. M. L. Yan, K. Mao, P. X. Cui, C. Chen, J. Zhao, X. Z. Wang, L. J. Yang, H. Yang, Q. Wu and Z. Hu, In situ construction of porous hierarchical (Ni3-xFex)FeN/Ni heterojunctions toward efficient electrocatalytic oxygen evolution. Nano Research 13(2020) 328–334.
  9. Z. Q. Zhang, Y. G. Chen, L. Q. Zhou, C. Chen, Z. Han, B. S. Zhang, Q. Wu, L. J. Yang, L. Y. Du, Y. F. Bu, P. Wang, X. Z. Wang, H. Yang, and Z. Hu, The simplest construction of single-site catalysts by the synergism of micropore trapping and nitrogen anchoring. Nat. Commun. 10 (2019) 1657
  10. Wu, L. J. Yang, X. Z. Wang, Z. Hu* Carbon-based nanocages: a new platform for advanced energy storage and conversion Adv. Mater. 31, 1904177 (2019). (Review)
  11. L. Y. Du, Q. Wu, L. J. Yang, X. Wang, R. C. Che, Z. Y. Lyu, W. Chen, X. Z. Wang, and Z. Hu, Efficient synergism of electrocatalysis and physical confinement leading to durable hi gh-power lithium-sulfur batteries. Nano Energy 57 (2019) 34
  12. O. Zhuo, L. J. Yang,* F. J. Gao, B. L. Xu, Q. Wu, Y. N. Fan, Y. Zhang, Y. F. Jiang, R. S. Huang, X. Z. Wang,* Z. Hu*, Stabilizing the active phase of iron-based Fischer-Tropsch catalysts for lower olefins: mechanism and strategy, Chem. Sci. 10(2019)6083
  13. M. Liu, H. Fan, O. Zhuo, X. Du, L. Q. Yang, P. Wang, L. J. Yang, Q. Wu, X. Z. Wang, Z. Hu, Vertically-grown few-layer MoS2 nanosheets on hierarchical carbon nanocages for pseudocapacitive lithium storage with ultrahigh-rate capability and long-term recyclability. Chem. Eur. J. 25(2019)3843-3848
  14. H. Fan, Y. Wang, F. J. Gao, L. Q. Yang, M. Liu, X. Du, P. Wang, L. J. Yang, Q. Wu, X. Z. Wang, Z. Hu, Hierarchical sulfur and nitrogen co-doped carbon nanocages as efficient bifunctional oxygen electrocatalysts for rechargeable Zn-air battery. J. Energy Chem. 34(2019)64-71
  15. Z. Q. Zhang, Q. Wu, K. Mao, Y. G. Chen, L. Y. Du, Y. F. Bu, O. Zhuo, L. J. Yang, X. Z. Wang, and Z. Hu, Efficient ternary synergism of platinum/tin oxide/nitrogen-doped carbon leading to high-performance ethanol oxidation. ACS Catal. 8 (2018) 8477
  16. L. Yang, and Z. Hu, Carbon-based, metal-free catalysts for electrocatalysis of ORR. In Carbon-based metal-free catalysts: Design and applications, Liming Dai (Ed). Volume II Chapter (2018) p. 335
  17. H. Fan, K. Mao, M. Liu, O. Zhuo, J. Zhao, T. Sun, Y. F. Jiang, X. Du, X. L. Zhang, Q. S. Wu, R. C. Che, L. J. Yang, Q. Wu, X. Z. Wang, and Z. Hu, Tailoring the nano heterointerface of hematite/magnetite on hierarchical nitrogen-doped carbon nanocages for superb oxygen reduction. J. Mater. Chem. A 6 (2018) 21313
  18. Q. Q. Cheng, K. Mao, L. S. Ma, L. J. Yang, L. L. Zou, Z. Q. Zou, Z. Hu, and H. Yang, Encapsulation of iron nitride by Fe-N-C shell enabling highly efficient electroreduction of CO2 to CO. ACS Energy Lett. 3 (2018) 1205
  19. Q. Q. Cheng, S. B. Han, K. Mao, C. Chen, L. J. Yang, Z. Q. Zou, M. Gu, Z. Hu, and H. Yang, Co nanoparticle embedded in atomically-dispersed Co-N-C nanofibers for oxygen reduction with high activity and remarkable durability. Nano Energy 52 (2018) 485
  20. R. Q. Li, P. F. Hu, M. Miao, Y. L. Li, X. F. Jiang, Q. Wu, Z. Meng, Z. Hu, Y. Bando, and X. B. Wang, CoO-modified Co4N as a heterostructured electrocatalyst for highly efficient overall water splitting in neutral media. J. Mater. Chem. A 6 (2018) 24767
  21. Q. Wu, L. J. Yang, X. Z. Wang, and Z. Hu, From carbon-based nanotubes to nanocages for advanced energy conversion and storage. Acc. Chem. Res. 50 (2017) 435
  22. Y. F. Bu, T. Sun, Y. J. Cai, L. Y. Du, O. Zhuo, L. J. Yang, Q. Wu, X. Z. Wang, and Z. Hu, Compressing carbon nanocages by capillarity for optimizing porous structures toward ultrahigh-volumetric-performance supercapacitors. Adv. Mater. 29 (2017) 1700470
  23. J. Zhao, Y. F. Jiang, H. Fan, M. Liu, O. Zhuo, X. Z. Wang, Q. Wu, L. J. Yang, Y. W. Ma, and Z. Hu, Porous 3D few-layer graphene-like carbon for ultrahigh-power supercapacitors with well-defined structure-performance relationship. Adv. Mater. 29 (2017) 1604569
  24. Z. Y. Lyu, Y. Zhou, W. R. Dai, X. H. Cui, M. Lai, L. Wang, F. W. Huo, W. Huang, Z. Hu, and W. Chen, Recent advances in understanding of the mechanism and control of Li2O2 formation in aprotic Li-O2 batteries. Chem. Soc. Rev. 46 (2017) 6046
  25. Y. Zhang, J. Cai, L. Yang, Q. Wu, X. Wang, and Z. Hu, Predicting the growth of Si3N4 nanowires by phase-equilibrium-dominated vapor-liquid-solid mechanism. Phy. Rev. Mater. 1 (2017) 046001
  26. T. Sun, Y. F. Jiang, Q. Wu, L. Y. Du, Z. Q. Zhang, L. J. Yang, X. Z. Wang, and Z. Hu, Is iron nitride or carbide highly active for oxygen reduction reaction in acidic medium? Catal. Sci. Technol. 7 (2017) 51
  27. H. Fan, L. J. Yang, Y. Wang, X. L. Zhang, Q. S. Wu, R. C. Che, M. Liu, Q. Wu, X. Z. Wang, and Z. Hu, Boosting oxygen reduction activity of spinel CoFe2O4 by strong interaction with hierarchical nitrogen-doped carbon nanocages. Sci. Bull. 62 (2017) 1365
  28. Q. Q. Cheng, L. J. Yang, L. L. Zou, Z. Q. Zou, C. Chen, Z. Hu, and H. Yang, Single cobalt atom and N codoped carbon nanofibers as highly durable electrocatalyst for oxygen reduction reaction. ACS Catal. 7 (2017) 6864
  29. Y. L. Zhang, R. Xu, W. M. Chen, O. Zhuo, Q. Wu, J. Cai, X. Z. Wang, and Z. Hu, Solution-solid-solid growth of metastable wurtzite gamma-MnS nanowires with controlled length. J. Mater. Chem. C 5 (2017) 6493
  30. H. Pang, X. R. Li, Q. X. Zhao, H. G. Xue, W. Y. Lai, Z. Hu, and W. Huang, One-pot synthesis of heterogeneous Co3O4-nanocube/Co(OH)2-nanosheet hybrids for high-performance flexible asymmetric all-solid-state supercapacitors. Nano Energy 35 (2017) 138
  31. L. B. Ma, H. Yuan, W. J. Zhang, G. Y. Zhu, Y. R. Wang, Y. Hu, P. Y. Zhao, R. P. Chen, T. Chen, J. Liu, Z. Hu, and Z. Jin, Porous-shell vanadium nitride nanobubbles with ultrahigh areal sulfur loading for high-capacity and long-life lithium sulfur-batteries. Nano Lett. 17 (2017) 7839
  32. H. W. Lai, Q. Wu, J. Zhao, L. M. Shang, H. Li, R. C. Che, Z. Y. Lyu, J. F. Xiong, L. J. Yang, X. Z. Wang, and Z. Hu, Mesostructured NiO/Ni composites for high-performance electrochemical energy storage. Energy Environ. Sci. 9 (2016) 2053
  33. T. Sun, Q. Wu, Y. F. Jiang, Z. Q. Zhang, L. Y. Du, L. J. Yang, X. Z. Wang, and Z. Hu, Sulfur and nitrogen codoped carbon tubes as bifunctional metal-free electrocatalysts for oxygen reduction and hydrogen evolution in acidic media. Chem. Eur. J. 22 (2016) 10326
  34. L. M. Shen, T. Sun, O. Zhuo, R. C. Che, D. Q. Li, Y. C. Ji, Y. F. Bu, Q. Wu, L. J. Yang, Q. Chen, X. Z. Wang, and Z. Hu, Alcohol-tolerant platinum electrocatalyst for oxygen reduction by encapsulating platinum nanoparticles inside nitrogen-doped carbon nanocages. ACS Appl. Mater. Interfaces 8 (2016) 16664
  35. T. Sun, Q. Wu, O. Zhuo, Y. F. Jiang, Y. F. Bu, L. J. Yang, X. Z. Wang, and Z. Hu, Manganese oxide-induced strategy to high-performance iron/nitrogen/carbon electrocatalysts with highly exposed active sites. Nanoscale 8 (2016) 8480
  36. X. Jiang, X. Wang, L. Shen, Q. Wu, Y. Wang, Y. Ma, X. Wang, and Z. Hu, High-performance Pt catalysts supported on hierarchical nitrogen-doped carbon nanocages for methanol electrooxidation. Chinese J. Catal. 37 (2016) 1149
  37. Y. F. Jiang, L. J. Yang, X. Z. Wang, Q. Wu, J. Ma, and Z. Hu, Boosting the electrocatalytic activity of carbon nanotube for oxygen reduction in acidic medium: A theoretical exploration. RSC Adv. 6 (2016) 48498
  38. Y. L. Zhang, J. Cai, Q. Wu, X. Z. Wang, L. J. Yang, C. Y. He, and Z. Hu, Phase-equilibrium-dominated vapor-liquid-solid mechanism: further evidence. Sci. China Mater. 59 (2016) 20
  39. H. Zhang, X. Li, D. Zhang, L. Zhang, M. Kapilashrami, T. Sun, P. A. Glans, J. F. Zhu, J. Zhong, Z. Hu, J. H. Guo, and X. H. Sun, Comprehensive electronic structure characterization of pristine and nitrogen/phosphorus doped carbon nanocages. Carbon 103 (2016) 480
  40. L. Y. Du, Q. Wu, X. Z. Pei, T. Sun, Y. L. Zhang, L. Y. Yang, X. Z. Wang and Z. Hu, Morphology and composition evolutions of one-dimensional InxAl1-xN nanostructures induced by the vapour pressure ratio. Crystengcomm 18 (2016) 213
  41. J. Zhao, H. W. Lai, Z. Y. Lyu, Y. F. Jiang, K. Xie, X. Z. Wang, Q. Wu, L. J. Yang, Z. Jin, Y. W. Ma, J. Liu and Z. Hu. Hydrophilic hierarchical nitrogen-doped carbon nanocages for ultrahigh supercapacitive performance. Adv. Mater. 27 (2015) 27 3541
  42. Z. Y. Lyu, D. Xu, L. J. Yang, R. C. Che, R. Feng, J. Zhao, Y. Li, Q. Wu, X. Z. Wang, and Z. Hu, Hierarchical carbon nanocages confining high-loading sulfur for high-rate lithiumsulfur batteries. Nano Energy 12 (2015) 657
  43. Y. F. Jiang, L. J. Yang, T. Sun, J. Zhao, Z. Y. Lyu, O. Zhuo, X. Z. Wang, Q. Wu, J. Ma, and Z. Hu, Significant contribution of intrinsic carbon defects to oxygen reduction activity. ACS Catal. 5 (2015) 6707
  44. T. Sun, Q. Wu, R. C. Che, Y. F. Bu, Y. F. Jiang, Y. Li, L. J. Yang, X. Z. Wang, and Z. Hu, Alloyed Co-Mo nitride electrocatalysts for oxygen reduction in acidic medium. ACS Catal. 5 (2015) 1857
  45. Y. L. Zhang, J. Cai, T. P. Ji, Q. Wu, X. Z. Wang, T. Sun, Y. Y. Xu, L. J. Yang, and Z. Hu, Superionic conductor-mediated growth of ternary ZnCdS nanorods over a wide composition range. Nano Res. 8 (2015) 584
  46. Z. Y. Lyu, L. J. Yang, D. Xu, J. Zhao, H. W. Lai, Y. F. Jiang, Q. Wu, Y. Li, X. Z. Wang, and Z. Hu, Hierarchical carbon nanocages as high-rate anodes for Li- and Na-ion batteries. Nano Res. 8 (2015) 3535
  47. S. Chen, L. W. Wang, Q. Wu, X. Li, Y. Zhao, H. W. Lai, L. J. Yang, T. Sun, Y. Li, X. Z. Wang, and Z. Hu, Advanced non-precious electrocatalyst of the mixed valence coox nanocrystals supported on n-doped carbon nanocages for oxygen reduction. Sci. China Chem. 58 (2015) 180
  48. Q. Wu, N. Liu, Y. L. Zhang, W. J. Qian, X. Z. Wang and Z. Hu, Tuning the field emission properties of AlN nanocones by doping. J. Mater. Chem. C 3 (2015) 1113
  49. J. Cai, Y. L. Zhang, Z. Y. Lyu , J. Zhao, J. C. Shen, Q. Wu, X. Z. Wang, X. L. Wu, Y. Chen, and Z. Hu, Partial pressure-induced growth of silicon nitride belts with tunable width and photoluminescence properties. Crystengcomm 17 (2015) 23
  50. Z. Y. Lyu, R. Feng, J. Zhao, H. Fan, D. Xu, Q. Wu, L. J. Yang, Q. Chen, X. Z. Wang, Z. Hu, Nitrogen-doped carbon nanocages as high-rate anode for lithium ion batteries, Acta Chim. Sinica 73 (2015) 1013. 吕之阳, 冯瑞, 赵进, 范豪, 徐丹, 吴强, 杨立军, 陈强, 王喜章, 胡征,高倍率锂离子电池负极材料:氮掺杂碳纳米笼. 化学学报 73 (2015) 1013
  51. H. B. Sun, Y. Yin, Q. J. Wang, Q. Jun, Y. Wang, K. Tsukagoshi, X. Z. Wang, Z. Hu, L. J. Pan, Y. D. Zheng, Y. Shi, and Y. Li, Reducing contact resistance in ferroelectric organic transistors by buffering the semiconductor/dielectric interface. Appl. Phys. Lett. 107 (2015) 053304
  52. H. Pang, Y. Z. Zhang, W. Y. Lai, Z. Hu, W. Huang, Lamellar K2Co3(P2O7)2·2H2O nanocrystal whiskers: High-performance flexible all-solid-state asymmetric micro-supercapacitors via inkjet printing. Nano Energy 15 (2015) 303
  53. J. Z. Lu, L. J. Yang, B. L. Xu, Q. Wu, D. Zhang, S. J. Yuan, Y. Zhai, X. Z. Wang, Y. N. Fan, and Z. Hu, Promotion effects of nitrogen doping into carbon nanotubes on supported iron fischer−tropsch catalysts for lower olefins, ACS Catal. 4 (2014) 613
  54. Y. Li, S. Chen, Q. Liu, Y. Li, Y. Shi, X. Z. Wang, J. Ma, and Z. Hu, Influence of deposition pressure on the film morphologies, structures, and mobilities for different-shaped organic semiconductors. J. Phys. Chem. C 118 (2014) 14218
  55. Y. Zhao, L. J. Yang, S. Chen, X. Z. Wang, Y. W. Ma, Q. Wu, Y. F. Jiang, W. J. Qian, and Z. Hu, Can boron and nitrogen codoping improve oxygen reduction reaction activity of carbon nanotubes? J. Am. Chem. Soc. 135 (2013) 1201
  56. G. Q. Jian, Y. Zhao, Q. Wu, L. J. Yang, X. Z. Wang, and Z. Hu, Structural and compositional regulation of nitrogen-doped carbon nanotubes with nitrogen-containing aromatic precursors. J. Phys. Chem. C 117 (2013) 7811
  57. L. J. Yang, Y. Zhao, S. Chen, Q. Wu, X. Z. Wang, and Z. Hu, A mini review on carbon-based metal-free electrocatalysts for oxygen reduction reaction. Chinese J. Catal. 34 (2013) 1986
  58. F. Meng, M. Estruga, A. Forticaux, S. A. Morin, Q. Wu, and Z. Hu, S. Jin, Formation of stacking faults and the screw dislocation-driven growth: A case study of aluminum nitride nanowires. ACS Nano. 7 (2013) 11369
  59. M. Liu, C. Meng, Z. H. Xue, X. Xiong, D. J. Shu, R. W. Peng, Q. Wu, Z. Hu, and M. Wang, Multi-tip nano-prisms: Controlled growth and emission enhancement properties. EPL 104 (2013) 18004
  60. S. Chen, J. Y. Bi, Y. Zhao, L. J. Yang, C. Zhang, Y. W. Ma, Q. Wu, X. Z. Wang, and Z. Hu, “Nitrogen-doped carbon nanocages as efficient metal-free electrocatalyst for oxygen reduction reaction. Adv. Mater. 24 (2012) 5593
  61. K. Xie, X. T. Qin, X. Z. Wang, Y. N. Wang, H. S. Tao, Q. Wu, L. J. Yang, and Z. Hu, Carbon Nanocages as Supercapacitor Electrode Materials. Adv. Mater. 24 (2012) 347
  62. W. J. Qian, H. W. Lai, X. Z. Pei, J. Jiang, Q. Wu, Y. L. Zhang, X. Z. Wang, and Z. Hu, Improving field emission by constructing CsI-AlN hybrid nanostructures. J. Mater. Chem. 22 (2012) 18578
  63. J. F. Xiong, H. Shen, J. X. Mao, X. T. Qin, P. Xiao, X. Z. Wang, Q. Wu, and Z. Hu, Porous hierarchical nickel nanostructures and their application as a magnetically separable catalyst. J. Mater. Chem. 22 (2012) 11927
  64. Y. Li, S. Chen, Q. Liu, L. Y. Wang, T. Someya, J. Ma, X. Z. Wang, and Z. Hu, Deposition-pressure-induced optimization of molecular packing for high-performance organic thin-film transistors based on copper phthalocyanine. J. Phys. Chem. C 116 (2012) 4287
  65. Y. Li, Q. Liu, X. Z. Wang, T. Someya, T. Sekitani, and Z. Hu, Pentacene thin film transistor with low threshold voltage and high mobility by inserting a thin metal phthalocyanines interlayer. Sci. China Technol. Sc. 55 (2012) 417
  66. Y. L. Zhang, Q. Wu, W. J. Qian, N. Liu, X. T. Qin, L. S. Yu, X. Z. Wang and Z. Hu, Morphology-controlled growth of chromium silicide nanostructures and their field emission properties. CrystEngComm 14 (2012) 1659
  67. Q. Wu, J. X. Chen, F. Zhang, P. Xiao, Y. N. Lu, X. Z. Wang, and Z. Hu, Anion-induced morphological regulation of In(OH)3 nanostructures and their conversion into porous In2O3 derivatives. CrystEngComm 14 (2012) 3397
  68. F. Zhang, Q. Wu, Y. L. Zhang, J. M. Zhu, N. Liu, J. Yang, X. Z. Wang, and Z. Hu, Chemical vapor deposition growth of InN nanostructures: Morphology regulation and field emission properties, Chemical vapor deposition growth of InN nanostructures: Morphology regulation and field emission properties. Appl. Surf. Sci. 258 (2012) 9701
  69. J. Zhao, G. Y. Zhu, W. Huang, Z. He, X. M. Feng, Y. W. Ma, X. C. Dong, Q. L. Fan, L. H. Wang, Z. Hu, Y. N. Lu, W. Huang, Synthesis of large-scale undoped and nitrogen-doped amorphous graphene on MgO substrate by chemical vapor deposition. J. Mater. Chem. 37 (2012) 19679
  70. H. Tantang, A. K. K. Kyaw, Y. Zhao, M. B. Chan-Park, A. I. Y. Tok, Z. Hu, L. J. Li, X. W. Sun, and Q. C. Zhang, Nitrogen-doped carbon nanotube-based bilayer thin film as transparent counter electrode for dye-sensitized solar cells (DSSCs), Chem-Asian J. 7 (2012) 541
  71. L. R. Zhang, J. Zhao, M. Li, H. T. Ni, J. L. Zhang, X. M. Feng, Y. W. Ma, Q. L. Fan, X. Z. Wang, Z. Hu, and W. Huang, Preparation of graphene supported nickel nanoparticles and their application to methanol electrooxidation in alkaline medium, New J. Chem. 36 (2012) 1108
  72. T. Xie, Y. Zhao, J. Zhong, Z. Hu, and X. H. Sun, Scanning transmission X-ray microscopy and X-ray absorption near-edge structure studies of N-doped carbon nanotubes sealed with N2 gas. J. Appl. Phys. 111 (2012) 124318
  73. S. Powar, Q. Wu, M. Weidelener, A. Nattestad, Z. Hu, A. Mishra, P. Bauerle, L. Spiccia, Y. B. Cheng, and U. Bach, Improved photocurrents for p-type dye-sensitized solar cells using nano-structured nickel(II) oxide microballs. Energy Envion. Sci. 5 (2012) 8896
  74. L. J. Yang, S. J. Jiang, Y. Zhao, L. Zhu, S. Chen, X. Z. Wang, Q. Wu, J. Ma, Y. W. Ma, and Z. Hu, Boron-doped carbon nanotubes as metal-free electrocatalysts for the oxygen reduction reaction. Angew. Chem. 123 (2011) 7270
  75. C. Y. He, Q. Wu, X. Z. Wang, Y. Y. Zhang, L. J. Yang, N. Liu, Y. Zhao Y. N. Lu, and Z. Hu, Growth and characterization of ternary AlGaN alloy nanocones across the entire composition range. ACS Nano. 5 (2011) 1291
  76. Q. Wu, H. S. Tao, K. Xie, N. Liu, L. S. Yu and Z. Hu, Modified redox synthesis and electrochemical properties of potassium manganese oxide nanowires. J. Mater. Chem. 21 (2011) 17904
  77. W. J. Qian, Y. L. Zhang, Q. Wu, C. Y. He, Y. Zhao, X. Z. Wang, and Z. Hu, Construction of AlN-based core-shell nanocone arrays for enhancing field emission. J. Phys. Chem. C 115 (2011) 11461
  78. X. Z. Wang, H. Xue, L. J. Yang, H. K. Wang, P. Y. Zang, X. T. Qin, Y. N. Wang, Y. W. Ma, Q. Wu and Z. Hu, Convenient immobilization of Pt-Sn bimetallic catalysts on nitrogen-doped carbon nanotubes for direct alcohol electrocatalytic oxidation. Nanotechnology 22 (2011) 395401
  79. Y. W. Ma, J. Zhao, L. R. Zhang, Y. Zhao, Q. L. Fan, X. A. Li, Z. Hu, and W. Huang, The production of carbon microtubes by the carbonization of catkins and their use in the oxygen reduction reaction. Carbon 49 (2011) 5292
  80. J. Zhang, J. P. Lei, R. Pan, C. A. Leng, Z. Hu, and H. X. Ju, In situ assembly of gold nanoparticles on nitrogen-doped carbon nanotubes for sensitive immunosensing of microcystin-LR. Chem. Commun. 47 (2011) 668
  81. X. Xu, L. J. Yang, S. J. Jiang, Z. Hu, and S. Q. Liu, High reaction activity of nitrogen-doped carbon nanotubes toward the oxidation of nitric oxide. Chem. Commun. 47 (2011) 7137
  82. S. Y. Deng, Z. T. Hou, J. P. Lei, D. J. Lin, Z. Hu, F. Yan, and H. X. Ju, Signal amplification by adsorption-induced catalytic reduction of dissolved oxygen on nitrogen-doped carbon nanotubes for electrochemiluminescent immunoassay. Chem. Commun. 47 (2011) 12107
  83. H. Tantang, A. K. K. Kyaw, M. C. B. Eng, A. I. Y. Tok, Z. Hu, L. J. Li, X. W. Sun, and Q. C. Zhang, Nitrogen-doped carbon nanotube bilayered thin-film as transparent counter electrode for dye sensitized solar cell (DSSC). Chem. Asian J. 7 (2012) 541
  84. Y. M. Hu, Z. Hu, L. S. Yu, Y. Li, M. Y. Zhu, and Q. Bai, Field emission of comb-like chromium disilicide nanowires prepared by an in situ chloride-generated route. Appl. Phys. A-Mater. 103 (2011) 67
  85. 胡征,碳基纳米管的生长机理、结构调控及能源导向的功能化研究. 自然杂志 33 (2011) 198
  86. Y. W. Ma, L. R. Zhang, J. J. Li, H. T. Ni, M. Li, J. L. Zhang, X. M. Feng, Q. L. Fan, Z. Hu, and W. Huang, Carbon-nitrogen/graphene composite as metal-free electrocatalyst for the oxygen reduction reaction. Chinese Sci. Bull. 56 (2011) 3583
  87. C. Y. He, X. Z. Wang, Q. Wu, Z. Hu, Y. W. Ma, J. J. Fu, and Y. Chen, Phase-equilibrium-dominated vapor-liquid-solid growth mechanism. J. Am. Chem. Soc. 132 (2010) 4843
  88. X. B. Wang, J. H. Song, F. Zhang, C. Y. He, Z. Hu, and Z. L. Wang, Electricity generation based on one-dimensional group-III nitride nanomaterials. Adv. Mater. 22 (2010) 2155
  89. H. Feng, J. Ma, and Z. Hu, Nitrogen doped carbon nanotubes functionalized by transition metal atoms: A density-functional study. J. Mater. Chem. 20 (2010) 1702
  90. S. J. Jiang, Y. W. Ma, L. Zhu, G. Q. Jian, X. Z. Wang, Q. Wu, J. M. Zhu, Y. N. Fan, and Z. Hu, Direct immobilization of Pt-Ru alloy nanoparticles on nitrogen-doped carbon nanotubes with superior electrocatalytic performance. J. Power Sources 195 (2010) 7578
  91. S. J. Jiang, Y. W. Ma, H. S. Tao, G. Q. Jian, X. Z. Wang, Y. N. Fan, J. M. Zhu, and Z. Hu, Highly dispersed Pt-Ni nanoparticles on nitrogen-doped carbon nanotubes for application in direct methanol fuel cells. J. Nanosci. Nanotechnol. 10 (2010) 3895
  92. H. S. Tao, X. B. Wang, X. Z. Wang, Y. M. Hu, Y. W. Ma, Y. N. Lu, and Z. Hu, Construction of uric acid biosensor based on the biomimetic titanate nanotubes. J. Nanosci. Nanotechnol. 10 (2010) 860
  93. Z. Zhang, G. W. Meng, Q. L. Xu, Y. M. Hu, Q. Wu, and Z. Hu, Aligned ZnO nanorods with tunable size and field emission on native Si substrate achieved via simple electrodeposition. J. Phys. Chem. C 114 (2010) 189
  94. A. Sadek, C. Zhang, Z. Hu, J. Partridge, D. McCulloch, W. Wlodarski, and K. Kalantar-Zadeh, Uniformly dispersed Pt-Ni nanoparticles on nitrogen-doped carbon nanotubes for hydrogen sensing. J. Phys. Chem. C 114 (2010) 238
  95. S. Tang, X. Z. Wang, J. P. Lei, Z. Hu, S. Y. Deng, and H. X. Ju, Pt-dispersed flower-like carbon nanosheet aggregation for low-overpotential electrochemical biosensing. Biosens. Bioelectron. 26 (2010) 432
  96. X. Xu, S. J. Jiang, Z. Hu, and S. Q. Liu, Nitrogen-doped carbon nanotubes: High electrocatalytic activity toward the oxidation of hydrogen peroxide and its application for biosensing. ACS Nano 4 (2010) 4292
  97. W. W. Tu, J. P. Lei, G. Q. Jian, Z. Hu, and H. X. Ju, Noncovalent assembly of picket-fence porphyrins on nitrogen-doped carbon nanotubes for highly efficient catalysis and biosensing. Chem. Eur. J. 16 (2010) 4120
  98. L. S. Yu, N. Liu, X. B. Wang, and Z. Hu, A general low-temperature CVD synthetic route to fabricate low-melting-point-metal compounds 1D nanostructures. J Alloy. Compd. 478 (2009) L21
  99. K. F. Huo, B. Lu, J. J. Fu, Y. M. Hu, P. K. Chu, and Z. Hu, Synthesis of hierarchical tree-like and jellyfish-like silicon oxide nanostructures. J. Nanosci. Nanotechnol. 9 (2009) 3914
  100. K. Huo, J.J. Fu, H. W. Ni, Y. M. Hu, G. X. Qian, P. K. Chu, and Z. Hu, Field emission and optical properties of ZnO nanowires directly grown on a conducting brass substrate, J. Nanosci. Nanotechnol. 9 (2009) 3848
  101. G. Q. Jian, X. Chen and Z. Hu, A parallel study on (BN)n and (HAlNH)n (n=11-22) clusters: geometry and stability. Chin. Phys. Lett. 26 (2009) 033601
  102. N. Liu, Q. Wu, C. Y. He, H. S. Tao, X. Z. Wang, W. Lei, and Z. Hu, Patterned growth and field emission properties of AlN nanocones. ACS Appl. Mater. & Interf. 1 (2009) 1927
  103. S. J. Jiang, Y. W. Ma, G. Q. Jian, H. S. Tao, X. Z. Wang, Y. N. Fan, Y. N. Lu, Z. Hu, and Y. Chen, Facile construction of Pt-Co/CNx nanotube electrocatalysts and their application to oxygen reduction reaction. Adv. Mater. 21 (2009) 4953
  104. H. Feng, J. Ma and Z. Hu, Six-membered-ring-based radical mechanism for catalytic growth of carbon nanotubes with benzene precursor. J. Phys. Chem. C 2009, 113, 16495
  105. L. S. Yu, N. Liu, C. Y. He, Q. Wu, and Z. Hu, In-situ chloride-generated route to different AlN nanostructures on Si substrate. J. Phys. Chem. C 113 (2009) 14245
  106. F. Zhang, Q. Wu, X. B. Wang, N. Liu, J. Yang, Y. M. Hu, L. S. Yu, X. Z. Wang, J. M. Zhu and Z. Hu, 6-fold-symmetrical AlN hierarchical nanostructures: Synthesis and field-Emission properties. J. Phys. Chem. C 113 (2009) 4053
  107. X. B. Wang, K. F. Huo, Z. Hu, P. K. Chu, Y. M. Hu, Q. Wu, H. S. Tao, F. Zhang, J. M. Zhu, Structural regulation and optical properties of one-dimensional ZnO nanomaterials in-situ grown from and on brass substrate. J. Phys. Chem. C 113 (2009) 170
  108. Y. W. Ma, S. J. Jiang, G. Q. Jian, H. S. Tao, L. S. Yu, X. B. Wang, X. Z. Wang, J. M. Zhu, Z. Hu and Y. Chen, CNx nanofibers converted from polypyrrole nanowires as platinum support for methanol oxidation. Energy Environ. Sci. 2 (2009) 224
  109. L. S. Yu, Y. W. Ma, and Z. Hu, Low-temperature CVD synthesis route to GaN nanowires on silicon substrate. J. Cryst. Growth 310 (2008) 5237
  110. Y. J. Yang, G. W. Meng, X. Y. Liu, L. D. Zhang, Z. Hu, C. Y. He, and Y. M. Hu, Aligned SiC porous nanowire arrays with excellent field emission properties converted from Si nanowires on silicon wafer. J. Phys. Chem. C 112 (2008) 20126
  111. Q. Wu, F. Zhang, P. Xiao, H. S. Tao, X. Z. Wang, Z. Hu, and Y. N. Lü, Great influence of anions for controllable synthesis of CeO2 nanostructures: from nanorods to nanocubes. J. Phys. Chem. C 112 (2008) 17076
  112. Q. Wu, Y. Chen, P. Xiao, F. Zhang, X. Wang, and Z. Hu, Hydrothermal synthesis of cerium fluoride hollow nanostructures in a controlled growth microenvironment. J. Phys. Chem. C 112 (2008) 9604
  113. F. Zhang, Q. Wu, P. Xiao, Y. W. Ma, Y. M. Hu, X. Z. Wang, C. Y. Wang, Y. N. Lu, and Z. Hu, Synthesis of AlN hollow nanospheres via an in situ generated template method. J. Phys. Chem. C 112 (2008) 11331
  114. L. S. Yu, Y. W. Ma, J. M. Zhu, H. Feng, Q. Wu, Y. N. Lu, W. W. Lin, H. Sang, and Z. Hu, An in situ chloride-generated route to various one-dimensional nanostructures of chromium-based compounds. J. Phys. Chem. C 112 (2008) 5865
  115. Y. W. Ma, B. Yue, L. S. Yu, X. Z. Wang, Z. Hu, Y. N. Fan, Y. Chen, W. W. Lin, Y. N. Lu, J, and Z. Hu, Artificial construction of the magnetically separable nanocatalyst by anchoring Pt nanoparticles on functionalized carbon-encapsulated nickel nanoparticles. J. Phys. Chem. C 112 (2008) 472
  116. B. Yue, Y. W. Ma, H. S. Tao, L. S. Yu, G. Q. Jian, X. Z. Wang, X. S. Wang, Y. N. Lu, and Z. Hu, CNx nanotubes as catalyst support to immobilize platinum nanoparticles for methanol oxidation. J. Mater. Chem. 18 (2008) 1747
  117. Y. R. Tao, X. C. Wu, Y. L. Zhang, L. Dong, J. J. Zhu, and Z. Hu, Surface-assisted synthesis of microscale hexagonal plates and flower-like patterns of single-crystalline titanium disulfide and their field-emission properties. Cryst. Growth Des. 8 (2008) 2990
  118. Y. M. Hu, K. F. Huo, Y. W. Ma, J. Q. Xu, Z. Hu, Y. Chen, and Y. N. Lü, Synthesis and field-emission properties of titanium nitride nanowires. J. Nanosci. Nanotechnol. 7 (2007) 2922
  119. L. S. Yu, Z. Hu, Y. W. Ma, K. F. Huo, Q. Wu, Y. Chen, H. Sang, W. W. Lin, and Y. N. Lu, Evolution of aluminum nitride nanostructures from nanoflower to thin film on silicon substrate by direct nitridation of aluminum precursor. Diam. Relat. Mater. 16 (2007) 1636
  120. X. Z. Wang, Z. Hu, Q. Wu, and Y. Chen, Template-directed synthesis of boron nitride nanotube array by microwave plasma chemical reaction. Electrochim. Acta 52 (2007) 2841
  121. K. F. Huo, Y.M. Hu, Y.W. Ma, Y.N. Lü, Z. Hu and Y. Chen, Synthesis and field emission properties of titanium carbide nanowires. Nanotechnology 18 (2007) 145615
  122. Q. Wang, Q. Sun, P. Jena, Z. Hu, R. Note and Y. Kawazoe, First-principles study of magnetic properties in V-doped ZnO. Appl. Phys. Lett. 91 (2007) 0631161
  123. Q. Wu, X. Z. Wang, F. Zhang, Y. W. Ma, X. X. Wu, C. Y. Wang, Y. N. Lu, and Z. Hu, Simple and efficient treatment for producing porous nanostructures using gas-solid reactions. J. Phys. Chem. C 111 (2007) 13315
  124. Q. Wu, F. Zhang, X. Z. Wang, C. Liu, Z. Hu, and Y. N. Lu, Preparation and characterization of AlN-based hierarchical nanostructures with improved chemical properties. J. Phys. Chem. C 111 (2007) 12639
  125. K. F. Huo, Y. M. Hu, J. J. Fu, X. B. Wang, P. K. Chu, Z. Hu and Y. Chen, Direct and large-area growth of one-dimensional ZnO nanostructures from and on brass substrate. J. Phys. Chem. C 111 (2007) 5876
  126. Q. Wu, Z. Hu, X. Z. Wang, X. Chen, and Y. Chen, Template-directed synthesis of carbon nanotube array by microwave plasma chemical reaction at low temperature. Electrochim. Acta 52 (2007) 2841
  127. X. C. Wu, Y. R. Tao, Y. N. Lu, L. Dong, and Z. Hu, High-pressure pyrolysis of melamine route to nitrogen-doped conical hollow and bamboo-like carbon nanotubes. Diam. Relat. Mater. 15 (2006) 164
  128. X. C. Wu, Y. R. Tao, Y. M. Hu, Y. Song, Z. Hu, J. J. Zhu, and L. Dong, Tantalum disulfide nanobelts: preparation, superconductivity and field emission. Nanotechnology 17 (2006) 201
  129. Y. M. Hu, K. F. Huo, H. Chen, C. Liu, Z. Hu, and Y. Chen, Field emission of carbon nanotubes grown on nickel substrate. Mater. Chem. Phys. 100 (2006) 477
  130. C. Liu, Z. Hu, Q. Wu, X. Z. Wang, Y. Chen and J. M. Zhu, Controllable synthesis of one-dimensional sluminum nitride nanostructures through vapor-solid epitaxial growth. J. Nanoelectron. Optoe. 1 (2006) 114
  131. Y. W. Ma, K. F. Huo, Q. Wu, Y. N. Lu, Y. M. Hu, Z. Hu and Y. Chen, Self-templated synthesis of polycrystalline hollow aluminum nitride nanospheres. J. Mater. Chem. 16 (2006) 2834
  132. Y. W. Ma, Z. Hu, K. F. Huo, L. S. Yu, B. Yue, X. Z. Wang, Y. N. Lu, Y. Liu, J. H. Hu and Y. Chen, Chemical functionalization of magnetic carbon-encapsulated nanoparticles based on acid oxidation. J. Phys. Chem. B 110 (2006) 20118
  133. H. Chen, Y. Yang, Z. Hu, K. F. Huo, Y. W. Ma, Y. Chen, X. S. Wang, and Y. N. Lu, Synergism of C5N-six-membered-ring and vapor-liquid-solid growth of CNx nanotubes with pyridine precursor. J. Phys. Chem. B 110 (2006) 16422
  134. X. Chen, J. Ma, Z. Hu, Q. Wu, and Y. Chen, AlN nanotube: Round or faceted? J. Am. Chem. Soc. 127 (2005) 7982
  135. C. Liu, Z. Hu, Q. Wu, X. Z. Wang, Y. Chen, H. Sang, J. M. Zhu, S. Z. Deng, and N. S. Xu, Vapor-solid growth and characterization of aluminum nitride nanocones. J. Am. Chem. Soc. 127 (2005) 1318
  136. Y. Pan, K. F. Huo, Y. M. Hu, J. J. Fu, Y. N. Lu, Z. D. Dai, Z. Hu, and Y. Chen, Boron nitride nanocages synthesized by a moderate thermochemical approach. Small 1 (2005) 1199
  137. X. C. Wu, Y. N. Tao, L. Dong, J. J. Zhu, and Z. Hu, Preparation of single-crystalline NdVO4 nanorods, and their emissions in the ultraviolet and blue under ultraviolet excitation. J. Phys. Chem. B. 109 (2005) 11544
  138. Q. Wu, Z. Hu, C. Liu, X. Z. Wang, Y. Chen, and Y. N. Lu, Synthesis and optical properties of gallium phosphide nanotubes. J. Phys. Chem. B. 109 (2005) 19719
  139. J. J. Zhu, J. Z. Xu, Z. Hu, and H. Y. Chen, Reagentless electrochemical biosensor based on the multi-wall carbon nanotubes and nanogold particles composite film. Front. Biosci. 10 (2005) 521
  140. X. C. Wu, Y. R. Tao, F. Gao, L. Dong, and Z. Hu, Preparation and photoluminescence of yttrium hydroxide and yttrium oxide doped with europium nanowires. J. Cryst. Growth 277 (2005) 643
  141. X. C. Wu, Y.R. Tao, L. Dong, Z. H. Wang, and Z. Hu, Preparation of VO2 nanowires and their electric characterization. Mater. Res. Bull. 40 (2005) 315
  142. C. Liu, Z. Hu, Q. Wu, X. Z. Wang, Y. Chen, W. W. Lin , H. Sang, S. Z. Deng, and N. S. Xu, Synthesis and field Emission properties of aluminum nitride nanocones. Appl. Surf. Sci. 251 (2005) 220
  143. X. P. Shen, A. H. Yuan, Y. M. Hu, Y. Jiang, Z. Xu, and Z. Hu, Fabrication, characterization and field emission properties of large-scale uniform ZnO nanotube arrays. Nanotechnology 16 (2005) 2039
  144. K. F. Huo, Y. W. Ma, Y. M. Hu J. J. Fu, B. Lu, Y. N. Lü, Z. Hu, and Y. Chen, Synthesis of single crystalline α-Si3N4 nanobelts by an extended vapor-liquid-solid Growth. Nanotechnology 16 (2005) 2282
  145. Y. W. Ma, Z. Hu, K. F. Huo, Y. N. Lu, Y. M. Hu, Y. Liu, and Y. Chen, A practical route to large-scale production of hollow carbon nanocages. Carbon 43 (2005) 1667
  146. Y. J. Tian, Z. Hu, Y. Yang, X. Z. Wang, X. Chen, H. Xu, Q. Wu, W. J. Ji and Y. Chen, In situ TA-MS study on the six-membered-ring-based growth of carbon nanotubes with benzene precursor. J. Am. Chem. Soc. 126 (2004) 1180
  147. H. Xu, J. Ma, X. Chen, Z. Hu, K. F. Huo, and Y. Chen, The electronic structures and formation mechanism of the single-walled BN nanotube with small diameter. J. Phys. Chem. B 108 (2004) 4024
  148. Y. J. Tian, Z. Hu, Y. Yang, X. Chen, W. J. Ji, and Y. Chen, Thermal analysis-mass spectroscopy coupling as a powerful technique to study the growth of carbon nanotubes from benzene. Chem. Phys. Letters. 388 (2004) 259
  149. M. W. Li, Z. Hu, X. Z. Wang, Q. Wu, and Y. Chen, Synthesis of carbon nanowires using dc pulsed corona discharge plasma reaction. J. Mater. Sci. 39 (2004) 283
  150. M. W. Li, Z. Hu, X. Z. Wang, Q. Wu, Y. Chen, and Y.L. Tian, Low-temperature synthesis of carbon nanotubes using corona discharge plasma at atmospheric pressure. Diam. Relat. Mater. 13 (2004) 111
  151. J. J. Fu, H. Xu, K. F. Huo, Y. N. Lu, X. Z. Wang, L. Li, Z. Hu, and Y. Chen, Synthesis of boron nitride nanotubes by an extended vapor-liquid-solid method. Nanotechnology 15 (2004) 727
  152. Q. Wu, Z. Hu, X. Z. Wang, Y. M. Hu, and Y. Chen, A simple route to aligned AlN nanowires. Diam. Relat. Mater. 13 (2004) 38
  153. Q. Wu, Z. Hu, X. Z. Wang, Y. N. Lu, X. Chen, H. Xu, and Y. Chen, Synthesis and characterization of faceted hexagonal aluminum nitride nanotubes. J. Am. Chem. Soc. 125 (2003) 10176
  154. K. F. Huo, Z. Hu, J. J. Fu, H. Xu, X. Z. Wang, Y. Chen and Y. N. Lü, Microstructure and growth model of periodic spindle-unit BN nanotubes by nitriding Fe-B nanoparticles with nitrogen/ammonia mixture. J. Phys. Chem. B 107 (2003) 11316
  155. Q. Wu, Z. Hu, X. Z. Wang, Y. N. Lu, and Y. Chen, Synthesis and optical characterization of aluminum nitride nanobelts. J. Phys. Chem. B. 107 (2003) 9726
  156. Q. Wu, Z. Hu, X. Z. Wang, Y. N. Lu, K. F. Huo, S. Z. Deng, N. S. Xu, B. Shen, R. Zhang, and Y Chen, Extended vapor-liquid-solid growth and field emission property of aluminum nitride nanowires. J. Mater. Chem. 13 (2003) 2024
  157. Y. Yang, Z. Hu, Q. Wu, Y. N. Lü, X. Z. Wang, and Y. Chen, Template-confined growth and structural characterization of amorphous carbon nanotubes. Chem. Phys. Lett.373 (2003) 580
  158. Y. Yang, Z. Hu, Y. J. Tian, Y. N. Lü, X. Z. Wang, and Y. Chen, High-yield production of quasi-aligned carbon nanotubes by catalytic decomposition of benzene. Nanotechnology 14 (2003) 733
  159. K. F. Huo, Z. Hu, J. J. Fu, X. Z. Wang, H. Xu, Y. Chen,Y. N. Lü, B. H. Liu and J. Ding, Chemical synthesis and characterization of boron / boron nitride core-shell nanostructures. J. Mater. Res. 18 (2003) 1641
  160. Y. Yang, Z. Hu, Y. N. Lü, and Y. Chen, Growth of carbon nanotubes with metal-loading mesoporous molecular sieves catalysts. Mater. Chem. Phys. 82 (2003) 440
  161. M. W. Li, Z. Hu, X. Z. Wang, Q. Wu, and Y. Chen, Low-temperature synthesis of carbon nanotubes using corona discharge plasma reaction at atmospheric pressure. J. Mater. Sci. Lett. 22 (2003) 1223
  162. M. W. Li, Z. Hu, X. Z. Wang, Q. Wu, and Y. Chen, Template-directed synthesis of carbon nanowires using pulsed corona plasma at atmospheric pressure. Thin Solid Films 435 (2003) 116.
  163. H. Xu, Z. Hu, S. H. Wu, and Y. Chen, Surface modification of polytetrafluoroethylene by microwave plasma treatment of H2O/Ar mixture at low pressure. Mater. Chem. Phys. 80 (2003) 278
  164. M. W. Li, Z. Hu, X. Z. Wang, Q. Wu, Y. N. Lu, and Y. Chen, Synthesis of carbon nanotube array using corona discharge plasma-enhanced chemical vapor deposition. Chinese Sci. Bull. 48 (2003) 534
  165. 李明伟,胡征,王喜章,吴强,吕忆农,陈懿,电晕放电等离子体增强化学气相沉积合成碳纳米管阵列. 科学通报 48 (2003) 32
  166. M. Yeadon, M. Lin, K. P. Loh, C. B. Boothroyd, J. Fu, and Z. Hu, Direct observation of boron nitride nanocage growth by the molecular beam nitridation and liquid-like motion of Fe-B nanoparticles. J. Mater. Chem. 13 (2003) 2573
  167. J. Z. Xu, J. J. Zhu, Q. Wu, Z. Hu, and H. Y. Chen, An amperometric biosensor based on the coimmobilization of horseradish peroxidase and methylene blue on a carbon nanotubes modified electrode. Electroanalysis 15 (2003) 219
  168. K. F. Huo, Z. Hu, P. Chen, J. J. Fu, Y. Chen, B. H. Liu, J. Ding, Z. L. Dong, and T. White, Synthesis of boron nitride nanowires. Appl. Phys. Lett. 80 (2002) 3611
  169. X. Z. Wang, Z. Hu, Q. Wu, and Y. Chen, Low-temperature catalytic growth of carbon nanotubes under plasma assistance. Catalysis Today. 72 (2002) 205
  170. W. J. Ji, L. J. Xu, X. S. Wang, Z. Hu, Q. J. Yan, and Y. Chen, Effects of ball milling on the moderated vanadium phosphorus oxide catalysts. Catal. Today. 74 (2002) 101
  171. 吴勇,胡征,陈方,陈懿,制备温度对Fe-B纳米金属玻璃组成及性质的影响. 化学学报 59 (2001) 1904
  172. G. R. Chen, Z. Hu, J. Xu, and J. J. Chen, Surface modification of chalcogenide glasses by N2 plasma treatment. J. Non-Cryst. Solids. 288 (2001) 226
  173. X. Z. Wang, Z. Hu, Q. Wu, and Y. Chen, High-yield production of multi-walled carbon nanotubes by the decomposition of benzene vapor. Chinese Physics. 10 (2001) 76
  174. X. Z. Wang, Z. Hu, X. Chen, and Y. Chen, Preparation of carbon nanotubes and nano-particles by microwave plasma-enhanced chemical vapor deposition. Scripta Mater. 44 (2001) 1567
  175. X. Z. Wang, Z. Hu, Q. Wu, X. Chen, and Y. Chen, Synthesis of multi-walled carbon nanotubes by microwave plasma-enhanced chemical vapor deposition. Thin Solid Films 390 (2001) 130
  176. J. Wang, L. Dong, Y. H. Wu, G. S. Zheng, Z. Hu, and Y. Chen, Dispersion of NiO supported on g-Al2O3 and TiO2/g-Al2O3 support. J. Solid State Chem. 157 (2001) 274
  177. 陈新,胡征,王喜章,吴强,陈懿, 微波等离子体辅助化学气相沉积方法低温合成定向碳纳米管阵列. 高等学校化学学报 22 (2001) 731
  178. 胡征,王喜章,吴强,段骏,苗水,陈懿,多功能微波等离子体化学反应装置及其应用. 化学通报 1 (2001) 56
  179. L. Dong, Y. H. Hu, F. Xu, D. Lu, Z. Hu, and Y. Chen, A study on the surface properties of ceria-supported tungsten and copper oxide. J. Phys. Chem. B 104 (2000) 78
  180. S. W. Zhang, D. G. Fu, W. Y. Sun, Z. Hu, K. B. Yu, and W. X. Tang, A new bimetallic assembly magnet [{Ni(tn)2}5{FeIII(CN)6}3]n(ClO4)nž2.5nH2O (tn=trimethylenediamine) with a novel 3-D tunnel structure. Inorg. Chem. 39 (2000) 1142
  181. X. Z. Wang, Q. Wu, Z. Hu, H. Xu, S. Miao, and Y. Chen,A multifunctional microwave plasma reaction apparatus and its applications. Plasma Sci. Technol. 2 (2000) 405
  182. 吴勇,胡征,裴华兴,陈懿,Fe-P-B超细非晶合金的制备规律及组元间相互作用研究. 高等学校化学学报 21 (2000)101999~1988
  183. Z. Hu, Y. Fan, and Y. Chen, Preparation and characterization of ultrafine amorphous alloy particles. Applied Physics. 68 (1999) 225
  184. Z. Hu, Y. Wu, Y. Fan, Q. Yan, and Y. Chen, Chemical preparation and investigation of Fe-P-B ultrafine amorphous alloy particles. Sci. in China 40 (1997) 261
  185. 韩钰, 胡征, 范以宁, 董林, 陈懿, 非晶态纳米材料的固相化学制备. 科学通报 42 (1997) 2461
  186. Z. Hu, Y. Fan, Y. Wu, Q. Yan, and Y. Chen, Crystallization and structure of high boron content iron-boron ultrafine amorphous alloy particles. J. Mater. Sci. 31 (1996) 611
  187. 胡征, 范以宁, 吴勇, 颜其洁, 陈懿, FePB纳米非晶合金微粒的化学制备及其研究. 中国科学 26 (1996) 544
  188. Z. Hu, Y. Fan, F. Chen, and Y. Chen, Amorphous iron-boron powders prepared by chemical reduction of mixed-metal cation solutions: dependence of composition and reaction temperature. J. Chem. Soc.: Chem. Commun. 0 (1995) 247
  189. Z. Hu, Y. Fan, Y. Wu, Q. Yan, and Y. Chen, A study on Fe-P-B ultrafine amorphous alloy particles. J. Magn. Magn. Mater. 140 (1995) 413
  190. 范以宁, 胡征, 陈懿, 镍基非晶态合金超细微粒催化剂的表面状态和催化性能. 科学通报 40(1) (1995) 39
  191. Z. Hu, Y. Fan, and Y. Chen, A study on preparation and magnetic properties of Fe100-xBx ultrafine amorphous powders. Mater. Sci. Eng. B25 (1994) 193
  192. 范以宁,胡征,许昭怡, 陈懿, 具有优良结构稳定性的NiPB非晶态合金超细微粒. 高等学校化学学报 15 (1994) 117
  193. Z. Hu, J. Shen, Y. Chen, and Y. Hsia, Amorphous nickel-phosphorus alloy particles with uniform size prepared at room temperature. J. Non-Cryst. Solids 159 (1993) 88
  194. Z. Hu, Y. Hsia, and Y. Chen, Ultrafine amorphous Fe-Ni-B and Fe-P-B particles. Nuc. Instru. and Methods in Phy. Res. B76 (1993) 121
  195. Y. Fan, Z. Hu, J. Shen, Q. Yan, and Y. Chen, Surface state and catalytic activity of ultrafine amorphous NiB alloy particles prepared by chemical reduction. J. Mater. Sci. Lett. 12 (1993) 596
  196. 胡征,范以宁,陈懿,夏元复,Fe35Ni15B26纳米金属玻璃的表面状态、结构弛豫及晶化过程的研究. 物理学报 42 (1993) 1188
  197. 胡征, 范以宁, 陈懿, 姜欣华, 粒度均匀镍—磷非晶超细微粒催化剂的制备与结构表征物理化学学报 9 (1993) 5
  198. 胡征,范以宁,陈懿,铁-磷-硼纳米金属玻璃的化学制备与穆斯堡尔谱研究. 高等学校化学学报 14 (1993) 606
  199. 范以宁,胡征,许昭怡, 陈懿,NiB非晶态合金超细微粒的表面性质. 物理化学学报 9 (1993) 302
  200. 范以宁,胡征,许昭怡, 陈懿, Ni-P非晶态合金超细微粒的晶化行为. 物理化学学报 9 (1993) 684
  201. 沈俭一,胡征,张黎峰,陈懿,镍-磷非晶合金超细微粒的制备和物性研究. 化学学报 50 (1992) 566
  202. 沈俭一,胡征,张黎峰,陈懿,镍-磷,非晶合金超细微粒的制备和物性研究. 化学学报 50 (1992) 566
  203. J. Shen, Z. Hu, Y. Hsia, and Y. Chen, Investigation of amorphous Fe82P11B7 ultrafine particles produced by chemical reduction. J. Phys. (C) 4 (1992) 6381
  204. J. Shen, Z. Hu, Q. Zhang, L. Zhang, and Y. Chen, Investigation of Ni-P-B ultrafine amorphous alloy particles produced by chemical reduction. J. Appl. Phys. 71 (1992) 5217
  205. Z. Hu, Y. Hsia, J. Zheng, J. Shen, Q. Yan, and L. Dai, A study of Fe-Ni-B ultrafine alloy particles produced by reduction with borohydride. J. Appl. Phys. 70 (1991) 436
  206. J. Shen, Z. Hu, Y. Hsia, and Y. Chen, Fe-P-B ultrafine amorphous particles produced by chemical reduction. Appl. Phys. Lett. 59 (1991) 2510
  207. J. Shen, Z. Hu, L. Zhang, Z. Li, and Y. Chen, The preparation of Ni-P ultrafine amorphous alloy particles by chemical reduction. Appl. Phys. Lett. 59 (1991) 3545
  208. Z. Hu, X. Yang, Y. Hsia, X. Jiang, X. Chen, and Y. He, The investigation of magnetite microcrystals. Hyperfine Interact. 68 (1991) 421
  209. Z. Hu, J. Shen, L. Zhang, Y. Chen, and Y. Hsia, The crystallization process of a-Fe35Ni15B26 ultrafine particles produced by reduction with borohydride. Hyperfine Interact. 69 (1991) 693
  210. 胡征,夏元复,纳米超细非晶微粒的化学制备. 南京大学学报 27 (1991) 604
  211. Z. Hu, X. Yang, R. Liu, X. Chen, Y. He, and Y. Hsia, The surfactant influence on the surface magnetic properties of Fe3O4 microcrystals. Hyperfine Interact. 57 (1990) 1871

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  1. 吕品,曾誉,王喜章,吴强,杨立军,胡征,一种碳基纳米笼在催化芳香亚氨基类化合物进行氧化偶联反应中的应用,ZL202011343615.6
  2. 卓欧,刘萌,高福杰,王喜章,吴强,杨立军,胡征,一种限阈型铁基费托合成催化剂及其制备方法,ZL201910323146.2
  3. 赵杰,吴强,杨立军,王喜章,胡征,一种电极材料的制备方法和应用,ZL 201911086139.1
  4. 杜玲玉,李有彬,吴强,杨立军,王喜章,胡征,一种用于促进锂硫电池中多硫化物转化的碳基无金属电催化剂,  ZL 201810195789.9
  5. 卓欧,高福杰,吴强,杨立军,王喜章,胡征,一种费托合成催化剂及其制备方法,ZL 201810225545.0
  6. 赵进,王喜章,吴强,杨立军,胡征,一种高性能超级电容器用分级自相似性三维寡层多孔石墨烯的制备方法,ZL201610145769.1
  7. 沈丽明,卓欧,王喜章,吴强,杨立军,胡征,一种York-shell型氮掺杂碳纳米笼包覆铂纳米颗粒的高抗醇性能氧还原电催化剂制备方法,ZL201610147142.X
  8. 刘晨霞,王啸,范豪,刘萌,王喜章,吴强,杨立军,胡征,一种多孔材料电极片真空加注电解液的装置,ZL201621134654.4
  9. 王啸,刘晨霞,范豪,刘萌,王喜章,吴强,杨立军,胡征,一种可控制金属-空气电池电化学性能测试气氛的装置,ZL201620832206.5
  10. 李谊,王喜章,谢克,吴强,杨立军,胡征,一种纽扣型超级电容器,ZL201320106185.5
  11. 李谊,王喜章,毕吉玉,吴强,杨立军,胡征,一种连续化制备碳基纳米笼的反应装置,ZL201320106181.7
  12. 吕金钊,王喜章,吴强,李谊,杨立军,胡征,用于费托合成的氮掺杂碳纳米管负载型催化剂,ZL201310348119.3
  13. 吴强, 熊静芳, 胡征, 王喜章,镍基复合物纳米材料及制备方法、多孔镍纳米材料及制备方法和应用,ZL201110232023.1
  14. 吴强, 何承雨, 胡征, 王喜章,制备三元组分AlxGa1-xN纳米锥的方法,ZL201110033619.9
  15. 刘 宁,吴 强,王喜章,胡 征,一种纳米阵列的图案化制备方法,ZL200910032859.X
  16. 张帆,吴强,马延文,胡征,一种制备AlN纳米空心球的原位模板方法,ZL 200810020442.7
  17. 蹇国强,余乐书,王喜章,马延文,胡 征,一种以液相前驱物制备碳纳米管或氮掺杂碳纳米管的方法及装置,ZL200810019802.1
  18. 王喜章,钱敏杰,肖佩,蒋湘芬,蹇国强,胡征,大量制备高品质空心碳纳米笼的方法,ZL200810023448.X
  19. 吴强,胡征,王喜章,一种制备氟化铈空心纳米结构材料的方法,ZL200710134623.8
  20. 吴强,胡征,王喜章,张帆,陈懿,氧化铝多孔一维纳米材料及其制备方法和应用,ZL200710020568.X
  21. 余乐书,胡征,马延文,岳兵,陈懿,CNx纳米带和纳米管的溶剂热合成方法,ZL 200710134095.6
  22. 余乐书,胡征,马延文,陈懿,生长过渡金属化合物纳米结构的原位氯化物转移法,ZL 200710021059.9
  23. 马延文,胡征,岳兵,余乐书,碳氮纳米管负载铂钌纳米粒子电极催化剂的制备方法,ZL 200710022235.0
  24. 马延文,胡征,余乐书,岳兵,陈懿,一种碳纳米胶囊醇及其制备方法,ZL 200610088446.X
  25. 霍开富,胡征,胡业旻,马延文,陈懿,直接在含锌合金材料上生长ZnO一维纳米材料的方法,ZL 200610040324.3
  26. 霍开富,胡业旻,马延文,胡征,陈懿,碳化钛或氮化钛一维纳米结构材料制备方法,ZL 200410064765.8
  27. 王喜章,胡征,杨勇,吴强,陈新,刘波,陈懿,一种制备碳纳米管的方法,ZL200310106398.9
  28. 胡征,潘仪,霍开富,陆斌,陈懿,氮化硼和硼-碳-氮纳米胶囊或类富勒烯纳米粒子的制备方法,ZL 200410064768.1
  29. 胡征,刘淳,吴强,王喜章,陈懿,氮化铝一维纳米结构阵列及其制备方法,ZL200310106239.9
  30. 胡征,霍开富,陆斌,马延文,王喜章,陈懿,氮化硅和碳化硅一维纳米结构及其制备方法,ZL03152915.1
  31. 胡征,王喜章,吴强,付继江,陈懿,一种制备AlN纳米线及其阵列的方法,ZL02138228.X
  32. 胡征,王喜章,吴强,陈懿,一种BN纳米管及其制法,ZL01113556.5
  33. 胡征,殷平,范以宁,陈懿,化学镀镍-磷合金镀液及化学镀工艺,ZL 96117130.8
  34. 胡征,韩钰,范以宁,陈懿,固相化学反应制备纳米材料的方法,ZL 96117127.8