论文(2014)

  1. Zhu WC, Zhang LL, Tian GL, Wang RG, Zhang H, Piao XL, Zhang Q. Flux and surfactant directed facile thermal conversion synthesis of hierarchical porous MgO for efficient adsorption and catalytic growth of carbon nanotubes. CrystEngComm 2014, 21(3): 308–318, doi: 10.1039/C3CE41394B. (Cover) [PDF]
  2. Huang JQ, Zhang Q, Peng HJ, Liu XY, Qian WZ, Wei F. Ionic shield for polysulfides towards highly-stable lithium–sulfur batteries. Energy & Environmental Science 2014, 7(1): 347–353, doi: 10.1039/C3EE42223B. (Cover) [PDF]
  3. Shen K, Zhang Q, Huang ZH, Yang JH, Yang GZ, Shen WC, Kang FY. Interface enhancement of carbon nanotube/mesocarbon microbead isotropic. Composites Part A 2014, 56(2014): 44–50, doi: 10.1016/j.compositesa.2013.09.008. [PDF]
  4. Chu Y,Zhang Q, WuTW, Nawaz Z, Wang Y, Wei F. Ultra-dispersed Pt nanoparticles on SAPO-34/γ-Al2O3 support for efficient propane dehydrogenation. Journal of Nanoscience and Nanotechnology 2014, 14(9): 6900–6906, doi: 10.1166/jnn.2014.8956. [PDF]
  5. Zhao MQ, PengHJ, Zhang Q, Huang JQ, Tian GL, Tang C, Hu Li, Jiang HR, Cai HY, Yuan HX, Wei F. Controllable bulk growth of few-layer graphene/single-walled carbon nanotube hybrids containing Fe@C nanoparticles in a fluidized bed reactor. Carbon 2014, 67(2014): 554–563, doi: 10.1016/j.carbon.2013.10.028. [PDF]
  6. Fan C, ZanC, Zhang Q, Ma DS, Chu Y, Jiang H, Shi L, Wei F. The Oxidation of Heavy Oil: Thermogravimetric Analysis and Non-isothermal Kinetics Using the Distributed Activation Energy Model. Fuel Processing Technology, 2014, 119(2014): 146–150, doi: 10.1016/j.fuproc. 2013.10.020. [PDF]
  7. Liu XY, Peng HJ, Zhang Q, Huang JQ, Liu XF, Wang L, He XM, Zhu WC, Wei F. Hierarchical carbon nanotube/carbon black scaffolds as short- and long-range electron pathways with superior Li-ion storage performance. ACS Sustainable Chemistry & Engineering 2014, 2(2): 200–206, doi: 10.1021/sc400​239u. [PDF]
  8. Tian GL, Zhao MQ, Zhang BS, Zhang Q, Zhang W, Huang JQ, Chen TC, Qian WZ, Su DS, Wei F. Monodisperse embedded nanoparticles derived from an atomic metal-dispersed precursor of layered double hydroxide for architectured carbon nanotube formation. Journal of Materials Chemistry A 2014, 2(6): 1686–1696, doi: 10.1039/C3TA14380E. (Cover) [PDF]
  9. Peng HJ, Huang JQ, Zhao MQ, Zhang Q, Liu XY, Qian WZ, Wei F. Nanoarchitectured graphene/CNT@porous carbon with extraordinary electrical conductivity and interconnected micro/mesopores for lithium-sulfur batteries. Advanced Functional Materials 2014, 24(19): 2772–2781, doi:10.1002/adfm.201303296. (Cover) [PDF]
  10. Cheng XB, Huang JQ, Peng JQ, Nie JQ, LiuXY, Zhang Q, Wei F. Polysulfide Shuttle Control: Towards a Lithium-Sulfur Battery with Superior Capacity Performance up to 1000 Cycles by Matching the Sulfur/Electrolyte Loading. Journal of Power Sources 2014, 253: 263–268, doi:10.1016/j.jpowsour.2013.12.031. [PDF]
  11. Zhou K, Li B, Zhang Q, HuangJQ, Jia JC, Tian GL, Su DS, Luo GH, Wei F. The Catalytic Pathways of Hydrohalogenation over Metal-Free Nitrogen-Doped Carbon Nanotubes. ChemSusChem 2014, 7(3): 723–728, doi: 10.1002/cssc.201300793. (Cover) [PDF]
  12. Cheng XB, HuangJQ, Zhang Q, PengHJ, Zhao MQ, Wei F. Aligned carbon nanotube/sulfur composite cathodes with high sulfur content for lithium-sulfur batteries. Nano Energy, 2014, 4(2014): 65–72, doi: 10.1016/j.nanoen.2013.12.013. [PDF]
  13. Tian GL, Zhao MQ, Yu DS, Kong XY, Huang JQ, Zhang Q, Wei F. Nitrogen-Doped Graphene/Carbon Nanotube Hybrids: In-Situ Formation on Bifunctional Catalysts and Their Superior Electrocatalytic Activity for Oxygen Reduction Reaction. Small 2014. 10(11): 2251–2259, doi: 10.1002/ smll.201303715. (Cover) [PDF]
  14. Zhao MQ, Zhang Q, Huang JQ, Tian GL, Nie JQ, Peng HJ, Wei F. Unstacked double-layer templated graphene for high-rate lithium sulphur batteries. Nature Communications 2014, 5(1): 3410, doi: 10.1038/ncomms4410. [PDF]
  15. Zhu WC, Wang RG, Zhu SL, Zhang LL, Cui XL, Zhang H, Piao XL, Zhang Q. Green, noncorrosive, easy scale-up hydrothermal–thermal conversion: A feasible solution to mass production of magnesium borate nanowhiskers. ACS Sustainable Chemistry & Engineering 2014, 2(4): 836–845, doi: 10.1021/sc400481j. [PDF]
  16. Zhao JW, Chen JL, Xu SM, Shao MF, Zhang Q, Wei F, Ma J, Wei M, Evans DG, Duan X. Hierarchical NiMn Layered Double Hydroxide/Carbon Nanotubes Architecture with Superb Energy Density for Flexible Supercapacitors. Advanced Functional Materials, 2014, 24(20): 2938–2946, doi: 10.1002/adfm.201303638. (Cover) [PDF]
  17. Huang JQ, Peng HJ, Liu XY, Nie JQ, Cheng XB, Zhang Q, Wei F. Flexible all-carbon interlinked nanoarchitectures as cathode scaffolds for high-rate lithium-sulfur batteries. Journal of Materials Chemistry A 2014, 2(28): 10869–10875, doi: 10.1039/C4TA00245H. (Cover) [PDF]
  18. Kong QQ, Gao JG, Chen CM, Zhang Q, Zhou GM, Tao ZC, Zhang XH, Wang MZ, Li F, Cheng HM, Cai R. Hierarchical Graphene-Carbon Fiber Composite Paper as a Flexible Lateral Heat Spreader . Advanced Functional Materials 2014, 24(27): 4222–4228, doi: 10.1002/adfm.201304144. (Cover) [PDF]
  19. Zhao MQ, Zhang Q, Tian GL, Wei F. Emerging double helical nanostructures. Nanoscale 2014, 6(16): 9339–9354, doi: 10.1039/C4NR00271G. [PDF]
  20. Chu Y, FanC, Zhang Q, Zan C,Ma DS, Jiang H, Wang Y, Wei F. The air oxidation of heavy oil to enhance oil recovery: The numerical model and the criteria to describe the low and high temperature oxidation. Chemical Engineering Journal 2014, 248(2014): 422–429, doi: 10.1016/j.cej.2014.03.036. [PDF]
  21. Cheng XB, Peng HJ, Huang JQ, Zhu L, Yang SH, Liu Y, Zhang HW, Zhu WC, Wei F, Zhang Q, Three-dimensional aluminum foam/carbon nanotube scaffolds as long- and short-range electron pathways with improved sulfur loading for high energy density lithium-sulfur batteries. Journal of Power Sources 2014, 261: 264–270, doi: 10.1016/j.jpowsour.2014.03.088. [PDF]
  22. Zhu L, Zhu WC, Cheng XB, Huang JQ, Peng HJ, YangSH, Zhang Q. Cathode materials based on carbon nanotubes for high-energy-density lithium–sulfur batteries. Carbon 2014, 75(2014): 161–168, doi: 10.1016/j.carbon.2014.03.049. [PDF]
  23. Yu DS, Goh K, Wang H, Wei L, Jiang WC, Zhang Q, Dai LM, Chen Y. Scalable synthesis of hierarchically structured carbon nanotube–graphene fibres for capacitive energy storage. Nature Nanotechnology 2014, 9(7): 555–562, doi: 10.1038/NNANO.2014.93. [PDF]
  24. Tang C, Zhang Q, Zhao MQ, Huang JQ, Cheng XB, Tian GL, Peng HJ, Wei F. Nitrogen-doped aligned carbon nanotube/graphene sandwiches: Facile catalytic growth on bifunctional natural catalysts and their applications as scaffolds for high-rate lithium-sulfur batteries. Advanced Materials 2014, 26(35): 6100–6105, doi: 10.1002/adma.201401243. (Cover) [PDF]
  25. Tang C, Zhang Q, Zhao MQ, Tian GL, Wei F. Resilient aligned carbon nanotube/graphene sandwiches for robust mechanical energy storage. Nano Energy, 2014, 7(2014): 161–169, doi: 10.1016/j.nanoen.2014.05.005. [PDF]
  26. Tian GL, Zhang Q, Zhang BS, Jin YG, Huang JQ, Su DS, Wei F. Toward Full Exposure of “Active Sites”: Nanocarbon Electrocatalyst with Surface Enriched Nitrogen for Superior Oxygen Reduction and Evolution Reactivity. Advanced Functional Materials 2014, 24(38): 5956–5961, doi:10.1002/adfm.201401264 (Cover) [PDF]
  27. Peng HJ, HouTZ, Zhang Q, Huang JQ, Cheng XB, Guo MQ, Yuan Z, He LY, Wei F. Strongly Coupled Interfaces between Heterogeneous Carbon Host and Sulfur-Containing Guest for Highly-Stable Lithium-Sulfur Batteries: Mechanistic Insight into Capacity Degradation. Advanced Materials Interfaces 2014, 1(7): 1400227, doi:10.1002/adfm.201400227. (Cover) [PDF]
  28. Yuan Z, Peng HJ, Huang JQ, Liu XY, Wang DW, Cheng XB, Zhang Q, Hierarchical free-standing carbon nanotube paper electrodes with ultrahigh sulfur loading for lithium-sulfur batteries. Advanced Functional Materials, 2014, 24(39): 6105–6112, doi:10.1002/adfm.201401501. (Cover) [PDF]
  29. Zhang LL, Zhu WC, Zhang H, Bi SW, Zhang Q, Hydrothermal-thermal conversion synthesis of hierarchical porous MgO microrods as efficient adsorbents for lead (II) and chromium (VI) removal. RSC Advances 2014, 4(58): 30542–30550, doi: 10.1039/C4RA03971H. [PDF]
  30. Cheng XB, Huang JQ, Peng HJ, Wei F, Zhang Q. Dendrite-Free Nanostructured Anode: Entrapment of Lithium in 3D Fibrous Matrix for Ultra-Stable Lithium-Sulfur Batteries. Small 2014, 10(21): 4257–4263, doi:10.1002/smll.201401837. (Cover) [PDF]
  31. Zhao MQ, Peng HJ, Tian GL, Zhang Q, Huang JQ, Cheng XB, Tang C, Wei F. Hierarchical Vine-Tree-Like Carbon Nanotube Architectures: In-Situ CVD Self-Assembly and Their Use as Robust Scaffolds for Lithium-Sulfur Batteries. Advanced Materials, 2014, 26(41): 7051–7058, doi:10.1002/ adma.201402488. (Cover) [PDF]
  32. Zhang Q, Cheng XB, Huang JQ, Peng HJ, Wei F. Review on carbon materials for advanced lithium-sulfur batteries. New Carbon Materials, 2014, 29(4): 241–264. [PDF]
  33. Yu DS, GohK, Zhang Q, WeiL, Wang H, Jiang WC, Chen Y. Controlled Functionalization of Carbonaceous Fibers for High-Voltage Asymmetric Solid-State Micro-Supercapacitors with High Volumetric Energy Density. Advanced Materials, 2014, 26(39): 6790–6797, doi:10.1002/adma.201403061. [PDF]
  34. Zhang ZQ, Zhu WC, Wang RG, Zhang LL, ZhuL, Zhang Q. Ionothermal confined self-organization for hierarchical porous magnesium borate superstructures as high efficient adsorbents for dye removal. Journal of Materials Chemistry A 2014, 2(45): 19167–19179, doi: 10.1039/C4TA03580A. [PDF]
  35. Peng HJ, Liang JY, Zhu L, Huang JQ, Cheng XB, Guo XF, Ding WP, Zhu WC, Zhang Q. Catalytic Self-Limited Assembly at Hard Templates: A Mesoscale Approach to Graphene Nanoshells for Lithium-Sulfur Batteries. ACS Nano 2014, 8(11): 11280–11289, doi: 10.1021/nn503985s. [PDF]