1. Zhao CZ, Zhao BC, Yan C, Zhang XQ, Huang JQ, Mo Y, Xu X, Li H, Zhang Q. Liquid Phase Therapy to Solid Electrolyte–Electrode Interface in Solid-State Li Metal Batteries: A Review. Energy Storage Materials 2020, 24, 75, doi:10.1016/j.ensm.2019.07.026.[PDF]
  2. Zhang XQ, Li T, Li BQ, Zhang R, Shi P, Yan C, Huang JQ, Zhang Q. A Sustainable Solid Electrolyte Interphase for High-Energy-Density Lithium Metal Batteries under Practical Conditions. Angew Chem Int Ed Engl 2020, 59, doi:10.1002/anie.201911724.[PDF]
  3. Yao YX, Zhang XQ, Li BQ, Yan C, Chen PY, Huang JQ, Zhang Q. A Compact Inorganic Layer for Robust Anode Protection in Lithium‐Sulfur Batteries. InfoMat 2020, 2, 379, doi:10.1002/inf2.12046.[PDF]
  4. Liu JN, Li BQ, Zhao CX, Yu J, Zhang Q. A Composite Bifunctional Oxygen Electrocatalyst for High-Performance Rechargeable Zinc-Air Batteries. ChemSusChem 2020, 13, doi:10.1002/cssc.201903071.[PDF]


  1. Zhao M, Peng HJ, Wei JY, Huang JQ, Li BQ, Yuan H, Zhang Q. Dictating High‐Capacity Lithium–Sulfur Batteries through Redox‐Mediated Lithium Sulfide Growth. Small Methods 2019, 4, 1900344, doi:10.1002/smtd.201900344.[PDF]
  2. Zhao CZ, Duan H, Huang JQ, Zhang J, Zhang Q, Guo YG, Wan LJ. Designing Solid-State Interfaces on Lithium-Metal Anodes: A Review. Science China Chemistry 2019, 62, 1286, doi:10.1007/s11426-019-9519-9.[PDF]
  3. Zhao CX, Li BQ, Zhang Q. Advanced Electrosynthesis of Hydrogen Peroxide on Oxidized Carbon Electrocatalyst. Journal of Energy Chemistry 2019, 34, 10, doi:10.1016/j.jechem.2018.09.002.[PDF]
  4. Yan C, Zhang XQ, Huang JQ, Liu Q, Zhang Q. Lithium-Anode Protection in Lithium–Sulfur Batteries. Trends in Chemistry 2019, 1, 693, doi:10.1016/j.trechm.2019.06.007.[PDF]
  5. Xie J, Li BQ, Song YW, Peng HJ, Zhang Q. A Supramolecular Electrolyte for Lithium‐Metal Batteries. Batteries & Supercaps 2019, 3, 47, doi:10.1002/batt.201900112.[PDF]
  6. Xie J, Li BQ, Peng HJ, Song YW, Zhao M, Chen X, Zhang Q, Huang JQ. Implanting Atomic Cobalt within Mesoporous Carbon toward Highly Stable Lithium-Sulfur Batteries. Advanced Materials 2019, 31, doi:10.1002/adma.201903813.[PDF]
  7. Wang B, Tang C, Wang HF, Chen X, Cao R, Zhang Q. Core-Branch Coni Hydroxysulfides with Versatilely Regulated Electronic and Surface Structures for Superior Oxygen Evolution Electrocatalysis. Journal of Energy Chemistry 2019, 38, 8, doi:10.1016/j.jechem.2018.12.006.[PDF]
  8. Song Y, Cai W, Kong L, Cai J, Zhang Q, Sun J. Rationalizing Electrocatalysis of Li–S Chemistry by Mediator Design: Progress and Prospects. Advanced Energy Materials 2019, 10, 1901075, doi:10.1002/aenm.201901075.[PDF]
  9. Shi P, Zhang XQ, Shen X, Zhang R, Liu H, Zhang Q. A Review of Composite Lithium Metal Anode for Practical Applications. Advanced Materials Technologies 2019, 5, 1900806, doi:10.1002/admt.201900806.[PDF]
  10. Shi P, Cheng XB, Li T, Zhang R, Liu H, Yan C, Zhang XQ, Huang JQ, Zhang Q. Electrochemical Diagram of an Ultrathin Lithium Metal Anode in Pouch Cells. Advanced Materials 2019, 31, doi:10.1002/adma.201902785.[PDF]
  11. Liu J, Yuan H, Cheng XB, Chen WJ, Titirici MM, Huang JQ, Yuan TQ, Zhang Q. A Review of Naturally Derived Nanostructured Materials for Safe Lithium Metal Batteries. Materials Today Nano 2019, 8, 100049, doi:10.1016/j.mtnano.2019.100049.[PDF]
  12. Liu H, Cheng XB, Huang JQ, Kaskel S, Chou S, Park HS, Zhang Q. Alloy Anodes for Rechargeable Alkali-Metal Batteries: Progress and Challenge. ACS Materials Letters 2019, 1, 217, doi:10.1021/acsmaterialslett.9b00118.[PDF]
  13. Li T, Zhang XQ, Shi P, Zhang Q. Fluorinated Solid-Electrolyte Interphase in High-Voltage Lithium Metal Batteries. Joule 2019, 3, 2647, doi:10.1016/j.joule.2019.09.022.[PDF]
  14. Li BQ, Kong L, Zhao CX, Jin Q, Chen X, Peng HJ, Qin JL, Chen JX, Yuan H, Zhang Q, Huang JQ. Expediting Redox Kinetics of Sulfur Species by Atomic‐Scale Electrocatalysts in Lithium–Sulfur Batteries. InfoMat 2019, 1, 533, doi:10.1002/inf2.12056.[PDF]
  15. Jiang L, Cheng XB, Peng HJ, Huang JQ, Zhang Q. Carbon Materials for Traffic Power Battery. eTransportation 2019, 2, 100033, doi:10.1016/j.etran.2019.100033.[PDF]
  16. Chen XR, Li BQ, Zhu C, Zhang R, Cheng XB, Huang JQ, Zhang Q. A Coaxial‐Interweaved Hybrid Lithium Metal Anode for Long‐Lifespan Lithium Metal Batteries. Advanced Energy Materials 2019, 9, 1901932, doi:10.1002/aenm.201901932.[PDF]
  17. Chen XR, Li BQ, Zhao CX, Zhang R, Zhang Q. Synergetic Coupling of Lithiophilic Sites and Conductive Scaffolds for Dendrite‐Free Lithium Metal Anodes. Small Methods 2019, 4, 1900177, doi:10.1002/smtd.201900177.[PDF]
  18. Hong B, Fan H, Cheng XB, Yan X, Hong S, Dong Q, Gao C, Zhang Z, Lai Y, Zhang Q. Spatially uniform deposition of lithium metal in 3D Janus hosts. Energy Storage Materials 2019, 16, 259, doi:10.1016/j.ensm.2018.04.032.[PDF]
  19. Huang Y, Wang Y, Tang C, Wang J, Zhang Q, Wang Y, Zhang J. Atomic Modulation and Structure Design of Carbons for Bifunctional Electrocatalysis in Metal-Air Batteries. Advanced Materials 2019, 31, 1803800, doi:10.1002/adma.201803800.[PDF]
  20. Li BQ, Chen XR, Chen X, Zhao CX, Zhang R, Cheng XB, Zhang Q. Favorable Lithium Nucleation on Lithiophilic Framework Porphyrin for Dendrite-Free Lithium Metal Anodes. Research 2019, 2019, 1, doi:10.1155/2019/4608940.[PDF]
  21. Li BQ, Peng HJ, Chen X, Zhang SY, Xie J, Zhao CX, Zhang Q. Polysulfide Electrocatalysis on Framework Porphyrin in High-Capacity and High-Stable Lithium–Sulfur Batteries. CCS Chemistry 2019, 128, doi:10.31635/ccschem.019.20180016.[PDF]
  22. Liang Y, Zhao C Z, Yuan H, Chen Y, Zhang W, Huang J Q, Yu D, Liu Y, Titirici M M, Chueh Y L, Yu H, Zhang Q. A review of rechargeable batteries for portable electronic devices. InfoMat 2019, doi:10.1002/inf2.12000.[PDF]
  23. Shen X, Cheng X, Shi P, Huang J, Zhang X, Yan C, Li T, Zhang Q. Lithium–matrix composite anode protected by a solid electrolyte layer for stable lithium metal batteries. Journal of Energy Chemistry 2019, 37, 29, doi:10.1016/j.jechem.2018.11.016.[PDF]
  24. Shi P, Li T, Zhang R, Shen X, Cheng XB, Xu R, Huang J Q, Chen XR, Liu H, Zhang Q. Lithiophilic LiC6 Layers on Carbon Hosts Enabling Stable Li Metal Anode in Working Batteries. Advanced Materials 2019, 31, 1807131, doi:10.1002/adma.201807131.[PDF]
  25. Wang B, Tang C, Wang HF, Chen X, Cao R, Zhang Q. A Nanosized CoNi Hydroxide@Hydroxysulfide Core-Shell Heterostructure for Enhanced Oxygen Evolution. Advanced Materials 2019, 31, doi:10.1002/adma.201805658.[PDF]
  26. Wang B, Tang C, Wang HF, Chen X, Cao R, Zhang Q. Core-branch CoNi hydroxysulfides with versatilely regulated electronic and surface structures for superior oxygen evolution electrocatalysis. Journal of Energy Chemistry 2019, 38, 8, doi:10.1016/j.jechem.2018.12.006.[PDF]
  27. Xie J, Li BQ, Peng HJ, Song YW, Li JX, Zhang ZW, Zhang Q. From Supramolecular Species to Self-Templated Porous Carbon and Metal-Doped Carbon for Oxygen Reduction Reaction Catalysts. Angew Chem Int Ed Engl 2019, 58, 4963, doi:10.1002/anie.201814605.[PDF]
  28. Xu R, Xiao Y, Zhang R, Cheng XB, Zhao CZ, Zhang XQ, Yan C, Zhang Q, Huang JQ. Dual-Phase Single-Ion Pathway Interfaces for Robust Lithium Metal in Working Batteries. Advanced Materials 2019, 1808392, doi:10.1002/adma.201808392.[PDF]
  29. Yuan H, Peng HJ, Huang JQ, Zhang Q. Sulfur Redox Reactions at Working Interfaces in Lithium-Sulfur Batteries: A Perspective. Advanced Materials Interfaces 2019, 6, doi:10.1002/admi.201802046.[PDF]
  30. Zhang R, Shen X, Cheng XB, Zhang Q. The dendrite growth in 3D structured lithium metal anodes: Electron or ion transfer limitation? Energy Storage Materials 2019, doi:10.1016/j.ensm.2019.03.029.[PDF]
  31. Zhao CX, Li BQ, Zhang Q. Advanced electrosynthesis of hydrogen peroxide on oxidized carbon electrocatalyst. Journal of Energy Chemistry 2019, 34, 10, doi:10.1016/j.jechem.2018.09.002.[PDF]
  32. Zhao M, Peng HJ, Zhang ZW, Li BQ, Chen X, Xie J, Chen X, Wei JY, Zhang Q, Huang JQ. Activating Inert Metallic Compounds for High-Rate Lithium-Sulfur Batteries Through In Situ Etching of Extrinsic Metal. Angew Chem Int Ed Engl 2019, 58, 3779, doi:10.1002/anie.201812062.[PDF]
  33. Zhu GL, Zhao CZ, Huang JQ, He C, Zhang J, Chen S, Xu L, Yuan H, Zhang Q. Fast Charging Lithium Batteries: Recent Progress and Future Prospects. Small 2019, 15, 1805389, doi:10.1002/smll.201805389.[PDF]
  34. Yuan H, Peng HJ, Li BQ, Xie J, Kong L, Zhao M, Chen X, Huang JQ, Zhang Q. Conductive and Catalytic Triple‐Phase Interfaces Enabling Uniform Nucleation in High‐Rate Lithium–Sulfur Batteries. Advanced Energy Materials 2019, 9, 1802768, doi:10.1002/aenm.201802768.[PDF]
  35. Chen XR, Li BQ, Zhao C X, Zhang R, Zhang Q. Synergetic Coupling of Lithiophilic Sites and Conductive Scaffolds for Dendrite‐Free Lithium Metal Anodes. Small Methods 2019, doi:10.1002/smtd.201900177.[PDF]
  36. Kong L, Zhang Q. Three-dimensional matrix for lithium metal anode for next-generation rechargeable batteries: Structure design and interface engineering. Journal of Energy Chemistry 2019, 33, 167, doi:10.1016/j.jechem.2018.08.003. [PDF]
  37. Li B Q, Zhang SY, Chen X, Chen CY, Xia ZJ, Zhang Q. One‐Pot Synthesis of Framework Porphyrin Materials and Their Applications in Bifunctional Oxygen Electrocatalysis. Advanced Functional Materials 2019, doi:10.1002/adfm.201901301. [PDF]
  38. Li BQ, Zhao CX, Chen S, Liu JN, Chen X, Song L, Zhang Q. Framework-Porphyrin-Derived Single-Atom Bifunctional Oxygen Electrocatalysts and their Applications in Zn-Air Batteries. Advanced Materials 2019, 31, e1900592, doi:10.1002/adma.201900592. [PDF]
  39. Li BQ, Zhao CX, Liu JN, Zhang Q. Electrosynthesis of Hydrogen Peroxide Synergistically Catalyzed by Atomic Co-Nx -C Sites and Oxygen Functional Groups in Noble-Metal-Free Electrocatalysts. Advanced Materials 2019, e1808173, doi:10.1002/adma.201808173. [PDF]
  40. Qin JL, Li BQ, Huang JQ, Kong L, Chen X, Peng HJ, Xie J, Liu R, Zhang Q. Graphene-based Fe-coordinated framework porphyrin as an interlayer for lithium–sulfur batteries. Materials Chemistry Frontiers 2019, 3, 615, doi:10.1039/c8qm00645h. [PDF]
  41. Tang C, Wang HF, Huang JQ, Qian W, Wei F, Qiao SZ, Zhang Q. 3D Hierarchical Porous Graphene-Based Energy Materials: Synthesis, Functionalization, and Application in Energy Storage and Conversion. Electrochemical Energy Reviews 2019, 2, 332, doi:10.1007/s41918-019-00033-7. [PDF]
  42. Wang HF, Tang C, Zhang Q. A review of graphene-based 3D van der Waals hybrids and their energy applications. Nano Today 2019, 25, 27, doi:10.1016/j.nantod.2019.02.006. [PDF]
  43. Zhang XQ, Chen X, Hou LP, Li BQ, Cheng XB, Huang JQ, Zhang Q. Regulating Anions in the Solvation Sheath of Lithium Ions for Stable Lithium Metal Batteries. ACS Energy Letters 2019, 4, 411, doi:10.1021/acsenergylett.8b02376. [PDF]
  44. Zhao CX, Li BQ, Liu JN, Huang JQ, Zhang Q. Transition metal coordinated framework porphyrin for electrocatalytic oxygen reduction. Chinese Chemical Letters 2019, 30, 911, doi:10.1016/j.cclet.2019.03.026. [PDF]


  1. Kong L, Chen X, Li BQ, Peng HJ, Huang JQ, Xie J, Zhang Q. A Bifunctional Perovskite Promoter for Polysulfide Regulation towards Stable Lithium–Sulfur Batteries. Advanced Materials 2018, 30, 1705219, doi: 10.1002/adma.201705219. [PDF]
  2. Li T, Zhang Q. Advanced metal sulfide anode for potassium ion batteries. Journal of Energy Chemistry 2018, 27, 373-374. [PDF]
  3. Liu SF, Xia XH, Zhong Y, Deng SJ, Yao ZJ, Zhang LY, Cheng XB, Wang XL, Zhang Q, Tu JP. Three-dimensional TiC/C Core/Shell Nanowires Skeleton for Dendrite-Free and Long-Life Lithium Metal Anode. Advanced Energy Materials 2018, 8, 1702322, doi: 10.1002/aenm.201702322. [PDF]
  4. Cheng XB, Yan C, Peng HJ, Huang JQ, Yang ST, Zhang Q. Sulfurized Solid Electrolyte Interphases with a Rapid Li+ Diffusion on Dendrite-Free Li Metal Anodes. Energy Storage Materials 2018, 10, 199-205. doi: 10.1016/j.ensm.2017.03.008. [PDF]
  5. Zhong Y, Xia XH, Deng SJ, Zhan JY, Fang RY, Xia Y, Wang XL, Zhang Q, Tu JP. Popcorn Inspired Porous Macrocellular Carbon: Rapid Puffing Fabrication from Rice and its Applications in Lithium-Sulfur Batteries Advanced Energy Materials 2018, 8, 1701110. doi: 10.1002/aenm.201701110. [PDF]
  6. Cheng XB, Zhang Q. Review on the Growth Mechanism and Suppression Strategies of Lithium Metal Dendrites. Progress in Chemistry 2018, 30, 51-72, DOI: 10. 7536 /PC170704. [PDF]
  7. Cheng XB, Huang JQ, Zhang Q. A Review of Li Metal Anode in Working Lithium-Sulfur Batteries. Journal of the Electrochemical Society 2018, 165, A6058-A6072. [PDF]
  8. Zhang XQ, Cheng XB, Zhang Q. Advances in Interfaces between Li Metal Anode and Electrolyte. Advanced Materials Interfaces 2018, 5, 1701097, DOI: 10.1002/admi.201701097. [PDF]
  9. Shi JL, Tang C, Huang JQ, Zhu WC Zhang Q. Effective exposure of nitrogen heteroatoms in 3D porous graphene framework for oxygen reduction reaction and lithium-sulfur batteries. Journal of Energy Chemistry 2018, 27, 167-175. doi: 10.1016/j.jechem.2017.09.014. [PDF]
  10. Gao G, Zhai PY, Zhang Q, Shearer CJ, Zhao J, Shapter JG. Fe3O4@S nanoparticles embedded/coated on the multi-wall carbon nanotubes for rechargeable lithium batteries. Chemical Engineering Journal 2018, 333, 268-275. doi:10.1016/j.cej.2017.09.156. [PDF]
  11. Tang C, Zhong L, Zhang BS, Wang HF, Zhang Q. 3D mesoporous van der Waals heterostructures for trifunctional energy electrocatalysis. Advanced Materials 2018, 30, 1705110. doi: 10.1002/adma.201705110. [PDF]
  12. Chen X, Shen X, Li B, Peng HJ, Cheng XB, Li BQ, Zhang XQ, Huang JQ, Zhang Q. Ion-Solvent Complexes Promote Gas Evolution from Electrolytes on Sodium Metal Anode. Angewandte Chemie International Edition 2018, 57, 734-737 DOI: 10.1002/anie.201711552 and 10.1002/ange.201711552. [PDF]
  13. Wang HF, Tang C, Zhang Q. Template growth of nitrogen-doped mesoporous graphene on metal oxides and its use as a metal-free bifunctional electrocatalyst for oxygen reduction and evolution reactions. Catalysis Today 2018, 301, 25-31. doi: 10.1016/j.cattod.2017.02.012. [PDF]
  14. Tang C, Wang HF, Zhang Q. Multiscale Principles to Boost Reactivity in Gas-Involving Energy Electrocatalysis Accounts of Chemical Research 2018, DOI: 10.1021/acs.accounts.7b00616. [PDF]
  15. Zhang R, Chen X, Shen X, Zhang XQ, Chen XR, Cheng XB, Yan C, Zhao CZ, Zhang Q. Coralloid Carbon Fibers based Composite Lithium Anode for Robust Lithium Metal Batteries. Joule 2018, 10.1016/j.joule.2018.02.001. [PDF]
  16. Yan C, Cheng XB, Tian Y, Chen X, Zhang XQ, Li WJ, Huang JQ, Zhang Q. Dual-Layered Film Protected Lithium Metal Anode to Enable Dendrite-Free Lithium Deposition. Advanced Materials 2018, 30, 1707629. DOI: 10.1002/adma.201707629.[PDF]
  17. Zhang XQ, Chen X, Cheng XB, Li BQ, Shen X, Yan C, Huang JQ, Zhang Q. Highly Stable Lithium Metal Batteries Enabled by Regulating the Li+ Solvation in Nonaqueous Electrolyte. Angewandte Chemie International Edition 2018, DOI: 10.1002/anie.201801513 and 10.1002/ange.201801513.[PDF]
  18. Li T, Liu H, Shi P, Zhang Q. Recent Progress on Carbon/Lithium Metal Composite Anode for Safe Lithium Metal Batteries. Rare Metals 2018.


  1. Liu X, Huang JQ, Zhang Q, Mai LQ. Nanostructured Metal Oxides and Sulfides for Lithium-Sulfur Batteries. Advanced Materials 2017, 29, 1601759. doi: 10.1002/adma.201601759. [PDF]
  2. Tang C, Zhang Q. Nanocarbon for Oxygen Reduction Electrocatalysis: Dopants, Edges, and Defects. Advanced Materials 2017, 29, 1604103. doi: 10.1002/adma.201604103. [PDF]
  3. Cheng XB, Yan C, Huang JQ, Li P, Zhu L, Zhao LD, Zhang YY, Zhu WC, Yang ST, Zhang Q. The gap between long lifespan Li-S coin and pouch cells: The importance of lithium metal anode protection. Energy Storage Materials 2017, 6, 18-25. doi: 10.1016/j.ensm.2016.09.003. [PDF]
  4. Zhai PY, Huang JQ, Zhu L, Shi JL, Zhu WC, Zhang Q. Calendering of free-standing electrode for lithium-sulfur batteries with high volumetric energy density. Carbon 2017, 111, 493-501. doi: 10.1016/j.carbon.2016.10.035. [PDF]
  5. Huang JQ, Sun YZ, Wang YF, Zhang Q. Review on advanced functional separators for lithium-sulfur batteries. Acta Chimica Sinica 2017, 75, 173-188. DOI: 10.6023/A16080454. [PDF]
  6. Li J, Peng WC, Zhang Q, Luo GH, Zhu QS, Wei F. Novel Hierarchical Ni/MgO Catalyst for Highly Efficient CO Methanation in a Fluidized Bed Reactor. AIChE J. 2017, DOI: 10.1002/aic.15597. [PDF]
  7. Zhang R, Li NW, Cheng XB, Yin YX, Zhang Q, Guo YG. Advanced Micro/Nanostructures for Lithium Metal Anodes. Advanced Science 2017, 4, 1600445. doi: 10.1002/advs.201600445. [PDF]
  8. Wang D, Zhang W, Zheng WT, Cui XQ, Rojo T, Zhang Q. Towards High-Safe Lithium Metal Anodes: Suppressing Lithium Dendrites via Tuning Surface Energy Advanced Science 2017, 4, 1600168. doi:10.1002/advs.201600168. [PDF]
  9. Zhang XQ, Cheng XB, Chen X, Yan C, Zhang Q. Fluoroethylene Carbonate Additives to Render Uniform Li Deposits in Lithium Metal Batteries. Advanced Functional Materials 2017, 27, 1605989. doi:10.1002/adfm.201605989. [PDF]
  10. Zhai PY, Peng HJ, Cheng XB, Zhu L, Huang JQ, Zhu WC, Zhang Q. Scaled-up fabrication of porous-graphene-modified separator for high-capacity lithium−sulfur batteries. Energy Storage Materials 2017, 7, 56-63. doi: 10.1016/j.ensm.2016.12.004. [PDF]
  11. Cheng XB, Yan C, Chen X, Guan C, Huang JQ, Peng HJ, Zhang R, Yang ST, Zhang Q. Implantable Solid Electrolyte Interphase in Lithium Metal Batteries. Chem 2017, 2, 258-270. doi: 10.1016/j.chempr.2017.01.003. [PDF]
  12. Chen X, Hou TZ, Li B, Zhu L, Yan C, Cheng XB, Peng HJ, Huang JQ, Zhang Q. Towards Stable Lithium-Sulfur Batteries: Mechanistic Insights into Electrolyte Decomposition on Lithium Metal Anode. Energy Storage Materials 2017, 8, 194-201. in press. doi: 10.1016/j.ensm.2017.01.003. [PDF]
  13. Shi W, Wu KH, Xu JY, Zhang Q, Zhang BS, Su DS, Enhanced Stability of Immobilized Pt Nanoparticles through Nitrogen Heteroatoms on Doped Carbon Supports Chemistry of Materials 2017, 29, 8670–8678. DOI: 10.1021/acs.chemmater.7b02658. [PDF]
  14. Zhu XL, Zhang Q, Huang C, Wang Y, Yang CH, Wei F. Validation of surface coating with nanoparticles to improve the flowability of fine cohesive powders. Particuology 2017, 30, 53-61. doi: 10.1016/j.partic.2016.09.001. [PDF]
  15. Xiao XF, He XT, Zhao SL, Li J, Lin WS, Yuan ZK, Zhang Q, Wang SY, Dai LM, Yu DS. A general approach to cobalt-based homobimetallic phosphide ultrathin nanosheets for highly efficient oxygen evolution. Energy & Environmental Science, 2017, DOI: 10.1039/C6EE03145E. [PDF]
  16. Li P, Li J, Zhao Z, Fang ZS, Yang MJ, Yuan ZK, Zhang Y, Zhang Q, Chen XD, Hong W, Yu DS. A General Electrode Design Strategy for Flexible Fiber Micro-Pseudocapacitors Combining Ultrahigh Energy and Power Delivery Advanced Science 2017, 4, 1700003. DOI: 10.1002/advs.201700003. [PDF]
  17. Peng HJ, Huang JQ, Cheng XB, Zhang Q. Review on High-Loading and High-Energy Lithium-Sulfur Batteries. Advanced Energy Materials 2017, 7, 1700260. DOI: 10.1002/aenm.201700260. [PDF]
  18. Chen CY, Peng HJ, Hou TZ, Zhai PY, Li BQ, Tang C, Zhu W, Huang JQ, Zhang Q. A Quinonoid-Imine-Enriched Nanostructured Polymer Mediator for Lithium−Sulfur Batteries Advanced Materials 2017, 29, 1606802, doi:10.1002/adma.201606802. [PDF]
  19. Chen X, Peng HJ, Zhang R, Hou TZ, Huang JQ, Li B, Zhang Q. An Analogous Periodic Law for Strong Anchoring of Polysulfides on Polar Hosts in Lithium Sulfur Batteries: S- or Li-Binding on First-Row Transition-Metal Sulfides? ACS Energy Letters 2017, 2, 795-801. DOI: 10.1021/acsenergylett.7b00164. [PDF]
  20. Peng HJ, Huang JQ, Liu XY, Cheng XB, Xu WT, Zhao CZ, Wei F, Zhang Q. Healing High-Loading Sulfur Electrodes with Unprecedented Long Cycling Life: Spatial Heterogeneity Control. Journal of the American Chemical Society 2017, 139 (25), 8458–8466. DOI: 10.1021/jacs.6b12358. [PDF]
  21. Li BQ, Zhang SY, Tang C, Cui XY, Zhang Q. Anionic Regulated NiFe (Oxy)Sulfide Electrocatalysts for Water Oxidation. Small 2017, 13, 1700610. doi:10.1002/smll.201700610. [PDF]
  22. Chi SF, Liu YC, Song WL, Fan LZ, Zhang Q, Pre-Storing Lithium into Stable 3D Nickel Foam Host as Dendrite-Free Lithium Metal Anode. Advanced Functional Materials 2017, 27, 1700348, doi: 10.1002/adfm.201700348. [PDF]
  23. Xie J, Peng HJ, Huang JQ, Xu WT, Chen X, Zhang Q. A Supramolecular Capsule for Reversible Polysulfide Storage/Delivery in Lithium–Sulfur Batteries. Angewandte Chemie International Edition 2017, 56, 16223-16227. DOI: 10.1002/anie.201710025 and 10.1002/ange.201710025. [PDF]
  24. Zhang G, Zhang ZW, Peng HJ, Huang JQ, Zhang Q. A Toolbox for Lithium-Sulfur Battery Research: Methods and Protocols. Small Methods 2017, 1, 1700134, doi: 10.1002/smtd.201700134. [PDF]
  25. Zhang R, Chen XR, Chen X, Cheng XB, Zhang XQ, Yan C, Zhang Q. Lithiophilic Sites in Doped Graphene Guide Uniform Lithium Nucleation for Dendrite-Free Lithium Metal Anodes Angewandte Chemie Interational Edition. 2017, 56, 7764–7768, doi: 10.1002/anie.201702099. [PDF]
  26. Kong L, Peng HJ, Huang JQ, Zhang Q. A review of nanostructured current collectors in lithium–sulfur batteries Nano Research 2017, DOI: 10.1007/s12274-017-1652-x. [PDF]
  27. Hou TZ, Xu WT, Chen X, Peng HJ , Huang JQ, Zhang Q. Lithium Bond Chemistry in Lithium–Sulfur Batteries. Angewandte Chemie Interational Edition 2017, 56, 8178–8182, doi: 10.1002/anie.201704324. [PDF]
  28. Kong L, Peng HJ, Huang JQ, Zhu WC, Zhang G, Zhang ZW, Zhai PY, Sun JJ, Xie J, Zhang Q. Beaver-dam-like membrane: A robust and sulphifilic MgBO2(OH)/CNT/PP nest separator in Li-S batteries. Energy Storage Materials 2017, 8, 153-160. doi: 10.1016/j.ensm.2017. 05.009. [PDF]
  29. Cheng XB, Chen C, Zhao MQ, Pentecost A, Zhang XQ, Mathis T, Jiang JJ, Zhang Q, Gogotsi Y, Nanodiamonds Suppress the Growth of Lithium Dendrites, Nature Communications 2017, NCOMMS-16-29756. [PDF]
  30. Wang HF, Tang C, Wang B, Li BQ, Zhang Q. Bifunctional Transition Metal Hydroxysulfides: Room-Temperature Sulfurization and Their Applications in Zn-Air Batteries. Advanced Materials 2017, 29, 1702327, doi: 10.1002/adma.201702327. [PDF]
  31. Xu QH, Liu ZM, Jiang H, Zhang Q, Zan C, Ma DS, Shi L. Chemical-Structural Properties of the Coke Produced by Low Temperature Oxidation Reactions during Crude Oil in-situ Combustion. Fuel 2017, 207, 179-188. [PDF]
  32. Hao GP, Tang C, Zhang E, Zhai PY, Yin J, Zhu W, Zhang Q, Kaskel S. Thermal Exfoliation of Layered Metal−Organic Frameworks into Ultra-Hydrophilic Graphene Stacks and Their Applications in Li-S Batteries. Advanced Materials 2017, 29, 1702829, doi: 10.1002/adma.201702829. [PDF]
  33. Yuan H, Kong L, Li T, Zhang Q. A review of transition metal chalcogenide/graphenenanocomposites for energy storage and conversion. Chinese Chemical Letters 2017, 28, 2180-2194. doi: 10.1016/j.ccle.2017.11.038. [PDF]
  34. Cheng XB, Zhang R, Zhao CZ, Zhang Q. Toward Safe Lithium Metal Anode in Rechargeable Batteries: A Review. Chemical Reviews 2017, 117, 10403–10473. cr-2017-00115d. [PDF]
  35. Li BQ, Xia ZJ, Zhang BS, Tang C, Wang HF, Zhang Q. Regulating p-block metals in perovskite nanodots for efficient electrocatalytic water oxidation. Nature Communications 2017, in press. [PDF]
  36. Tang C, Wang B, Wang HF, Zhang Q. Defect Engineering of Co/N/O Tri-Doped Hierarchical Graphene for Rechargeable Flexible Solid Zn-Air Batteries Advanced Materials 2017, 29, 1703185. doi: 10.1002/adma.201703185. [PDF]
  37. Zhao CZ, Zhang XQ, Cheng XB, Zhang R, Xu R, Chen PY, Peng HJ, Huang JQ, Zhang Q. An Anion-Immobilized Composite Electrolyte for Dendrite-Free Lithium Metal Anodes. Proceedings of the National Academy of Sciences of the United States of America (PNAS) 2017, 114, 11069-11074. doi: 10.1073/pnas.1708489114. [PDF]
  38. Peng HJ, Huang JQ, Zhang Q. A review of flexible lithium–sulfur and analogous alkali metal–chalcogen rechargeable batteries. Chemical Society Reviews 2017, 46, 5237-5288 doi: 10.1039/C7CS00139H. [PDF]
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  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, Yang SH, Zhang Q. Carbon Nanotubes Based Cathode Materials for High Density Lithium-sulfur Batteries. Carbon 2014, 75, 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, 161-169. 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, Hou TZ, 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, 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, Goh K, Zhang Q, Wei L, 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, Zhu L, 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. 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]


  1. Zhang RF, Xie HH, Zhang YY, Zhang Q, Jin YG, Li P, Qian WZ, Wei F. The reason for the low density of horizontally aligned ultralong carbon nanotube arrays. Carbon, 2013, 52:232-238. [PDF]
  2. Huang JQ, Liu XF, Zhang Q, Chen CM, Zhao MQ, Zhang SM, Zhu WC, Qian WZ, Wei F. Entrapment of sulfur in hierarchical porous graphene for lithium–sulfur batteries with high rate performance from −40 to 60 oC. Nano Energy. 2013 2(2): 314-321. [PDF]
  3. Zhang SM, Zhang Q, Huang JQ, Liu XF, Zhu WC, Zhao MQ, Qian WZ, Wei F. Composite Cathode Containing SWCNT@S Coaxial Nanocables: Facile Synthesis, Surface Modification, and Enhanced Performance for Li-ion Storage. Particle & Particle System Characterization. 2013, 30(2): 158-165. [PDF]
  4. Chu Y, Zhang BS, Zhang Q, Wang Y, Su DS, Wei F. The use of deposited nanocarbon for characterization of zeolite supported metal catalyst Microporous and Mesoporous Materials 2013, 169C:201-206. [PDF]
  5. Zhu WC, Zhang XY, Zhang Q, Xiang L, Zhu SL. Subunit contribution model for thermodynamic properties of borates and its application in hydrothermal synthesis of MgBO2(OH) nanowhiskers. CIESC Journal 2013, 64(2):443-451. [PDF]
  6. Zhao MQ, Zhang Q, Huang JQ, Tian GL, Chen TC, Qian WZ, Wei F. Towards high purity graphene/single-walled carbon nanotube hybrids with improved electrochemical capacitive performance. Carbon. 2013, 54: 403-411. [PDF]
  7. Zhu WC, Cui XL, Zhang LY, Zhang H, Piao XL, Zhang Q. Hydrothermal evolution, optical and electrochemical properties of hierarchical porous hematite nanoarchitectures. Nanoscale Research Letters, 2013, 8:2. [PDF]
  8. Cui Y, Zhang Q, He J, Wang Y, Wei F. Pore-structure-mediated hierarchical SAPO-34: Facile synthesis, tunable nanostructure, and catalysis applications for the conversion of dimethyl ether into olefins. Particuology. 2013, 11(4): 468-474. [PDF]
  9. Zhang RF, Ning ZY, Zhang YY, Zheng QS, Chen Q, Xie HH, Zhang Q, Qian WZ, Wei F. Macroscale Superlubricity Observed in Centimeter Long Carbon Nanotubes in Ambient Conditions. Nature Nanotechnology. 2013, 8(12), 912-916. doi: 10.1038/NNANO.2013.217. (Cover) [PDF]
  10. Zhao XC, Zhang Q, Zhang BS, Chen CM, Xu JM, Wang AQ, Su DS, Zhang T. Decorated resol derived mesoporous carbon: highly ordered microstructure, rich boron incorporation, and excellent electrochemical capacitance. RSC Advances 2013, 3(11): 3578-3584. [PDF]
  11. Liu XF, Zhang Q, Zhang SM, Huang JQ, Peng HJ, Wei F. Hierarchical nanostructured composite cathode with carbon nanotubes as conductive scaffold for lithium-sulfur batteries. Journal of Energy Chemistry 2013, 2(2): 341-346. [PDF]
  12. Yu DS, Wei L, Jiang WC, Wang H, Su B, Zhang Q, Goh K, Si RM, Chen Y. Nitrogen doped holey graphene as efficient metal-free multifunctional electrochemical catalysts for hydrazine oxidation and oxygen reduction Nanoscale 2013, 5(8), 3457–3464. [PDF]
  13. Zhou GM, Li L, Zhang Q, Li N, Li F. Octahedral Co3O4 particles threaded by carbon nanotube arrays as intergrated structure anodes for lithium ion batteries. Physical Chemistry Chemical Physics 2013, 15(15), 5582-5587. [PDF]
  14. Huang JQ, Zhang Q, Zhang SM, Liu XF, Zhu WC, Qian WZ, Wei F. Aligned sulfur-coated carbon nanotubes with a polyethylene glycol barrier at one end for use as a high efficiency sulfur cathode. Carbon 2013, 58, 99-106. [PDF]
  15. Zhang Q, Huang JQ, Qian WZ, Zhang YY, Wei F. The road for nanomaterials industry: A review of carbon nanotube production, post-treatment, and bulk applications for composite and energy storage. Small, 2013, 9(8): 1237–1265. [PDF]
  16. Zhang RF, Zhang YY, Zhang Q, Xie HH, Wang HD, Nie JQ, Wen Q, Wei F. Optical visualization of individual ultralong carbon nanotubes by chemical vapour deposition of titanium dioxide nanoparticles. Nature Communications 2013, 4, 1727 | DOI: 10.1038/ ncomms2736. [PDF]
  17. Zhang Q, Huang JQ, Zhao MQ, Qian WZ, Wei F. Review on Mass Production and Industrialization of Carbon Nanotubes. Science China Chemistry, 2013, 43(6): 641-666. [PDF]
  18. Chen TC, Zhao MQ, Zhang Q, Tian GL, Huang JQ, Wei F. In Situ Monitoring the Role of Working Metal Catalyst Nanoparticles for Ultrahigh Purity Single-Walled Carbon Nanotubes. Advanced Functional Materials, 2013, 23(40): 5066-5073. (Cover) [PDF]
  19. Gao G, Zhang Q, Wang K, Song H, Qiu PY, Cui DX, Axial compressive α-Fe2O3 microdisks prepared from CSS template for potential anode materials of lithium ion batteries. Nano Energy 2013, 2(5): 1010-1018. doi:10.1016/j.nanoen.2013.03.023. [PDF]
  20. Zhang RF, Ning ZY, Zhang YY, Xie HH, Zhang Q, Qian WZ, Chen Q, Wei F. Facile Manipulation of Individual Carbon Nanotubes Assisted by Inorganic Nanoparticles. Nanoscale 2013, 5(14), 6584-6588. [PDF]
  21. Jin YG, Zhang YY, Zhang Q, Zhang RF, Li P, Qian WZ, Wei F. Multiwall carbon nanotube-based carbon/carbon composites with three-dimensional network structures Nanoscale 2013, 5(13), 6181-6186. [PDF]
  22. Zhang W, Zhang Q, Zhao MQ, Kuhn LT. Direct writing on graphene “paper” by manipulating electrons as “invisible ink”. Nanotechnology 2013, 24(27): 275301. [PDF]
  23. Xu CG, Ning GQ, Zhu X, Wang G, Liu XF, Gao JS, Zhang Q, Qian WZ, Wei F. Synthesis of graphene sheets from asphaltene molecules absorbed on vermiculite layers. Carbon 2013, 62, 213-221. [PDF]
  24. Cheng XB, Tian GL, Liu XF, Nie JQ, Zhao MQ, Huang JQ, Zhu WC, Hu L, Zhang Q, Wei F. Robust growth of herringbone carbon nanofibers from layered double hydroxides and their applications as anodes for Li-ion batteries. Carbon 2013, 62, 393-404. [PDF]
  25. Zhang RF, Zhang YY, Zhang Q, Xie HH, Qian WZ, Wei F. Growth of half-meter long carbon nanotubes based on Schulz-Flory distribution ACS Nano. 2013, 7(7): 6156–6161. [PDF]
  26. Kong QQ, Chen CM, Zhang Q, Zhang XH, Wang MZ, Cai R. Small particles of chemically-reduced graphene with improved electrochemical capacity. Journal of Physical Chemistry C 2013, 117(30): 15496–15504. [PDF]
  27. Yu DS, Goh KL, Wang H, Zhang Q, Jiang WC, Si RM, Chen Y. Multifunctional nitrogen-rich “brick-and-mortar” carbon as high performance supercapacitor electrodes and oxygen reduction electrocatalysts. Journal of Materials Chemistry A 2013, 1(36), 11061-11069. [PDF]
  28. Yun S, Qian WZ, Cui CJ, Yu YT, Zheng C, Liu Y, Zhang Q, Wei F. Highly selective synthesis of single-walled carbon nanotubes from methane in a coupled Downer-turbulent fluidized-bed reactor. Journal of Energy Chemistry 2013, 22(4): 567-572. [PDF]
  29. Liu XY, Peng HJ, Huang JQ, Zhang Q, Wei F. Carbon nanotubes for flexible energy storage devices—A review. Energy Storage Science and Technology 2013, 2(5):433-450. [PDF]


  1. Chen CM, Huang JQ, Zhang Q, Gong WZ, Yang QH, Wang MZ, Yang YG. Annealing a graphene oxide film to produce a free standing high conductive graphene film. Carbon 2012, 50(2):659-667. [PDF]
  2. Zhao MQ, Zhang Q, Huang JQ, Wei F. Hierarchical nanocomposites derived from nanocarbons and layered double hydroxides – Properties, synthesis, and applications Advanced Functional Materials 2012, 22(4):675-694. (Invited Review) [PDF]
  3. Huang JQ, Zhao MQ, Zhang Q, Nie JQ, Yao LD, Su DS, Wei F. Efficient synthesis of aligned nitrogen-doped carbon nanotubes in a fluidized-bed reactor. Catalysis Today 2012, 186(1):83-92. [PDF]
  4. Jia XL, Zhang Q, Zheng C, Huang JQ, Qian WZ, Wei F. Directly dispersing agglomerated carbon nanotube powder into bismaleimide for strong composites under high pressure homogenization. Powder Technology 2012, 217:477-481. [PDF]
  5. Huang CH, Zhang Q, Chou TC, Chen CM, Su DS, Doong RA. Three-dimensional hierarchically-ordered porous carbons with partially graphitic nanostructure for electrochemical capacitive energy storage. ChemSusChem 2012, 5(3):563-571. [PDF]
  6. Zhao XC, Zhang Q, Zhang BS, Chen CM, Wang AQ, Zhang T, Su DS. Dual-heteroatom modified ordered mesoporous carbon: Hydrothermal functionalization, structure, and its electrochemical performance. Journal of Materials Chemistry 2012, 22(11): 4963-4969. [PDF]
  7. Huang JQ, Zhang Q, Zhao MQ, Wei F. A review of the large-scale production of carbon nanotubes:The practice of nanoscale process engineering. Chinese Science Bulletin 2012, 57 (2-3): 157-166. [PDF]
  8. Jia XL, Zhang Q, Zhao MQ, Xu GH, Huang JQ, Qian WZ, Lu YF, Wei F. Dramatic enhancements in toughness of polyimide nanocomposite via long-CNT-induced long-range creep. Journal of Materials Chemistry 2012, 22(14):7050-7056. [PDF]
  9. Jia XL, Chen Z, Suwarnasarn A, Rice L, Wang XL, Sohn H, Zhang Q, Wu BM, Wei F, Lu YF. High-performance flexible lithium-ion electrodes based on robust network architecture. Energy & Environmental Science, 2012, 5(5):6845-6849. [PDF]
  10. Zhao MQ, Tian GL, Zhang Q, Huang JQ, Nie JQ, Wei F. Preferential Growth of Short Aligned, Metallic-Rich Single-Walled Carbon Nanotubes from Perpendicular Layered Double Hydroxide Film. Nanoscale, 2012, 4(7): 2470-2477. [PDF]
  11. Liu XF, Zhu WC, Cui XL, Liu T, Zhang Q, Facile thermal conversion route synthesis, characterization, and optical properties of rod-like micron nickel borate. Powder Technology, 2012, 222: 160-166. [PDF]
  12. Chen CM, Zhang Q, Yang MG, Huang CH, Yang YG, Wang MZ. Structural evolution during annealing of chemically derived graphene for application in supercapacitors. Carbon, 2012, 50(10): 3571-3583. [PDF]
  13. Yan J, Sun W, Wei T, Zhang Q, Fan ZJ, Wei F. Fabrication and electrochemical performances of hierarchical porous Ni(OH)2 nanoflakes anchored on graphene sheets. Journal of Materials Chemistry 2012, 22(23): 11494-11502. [PDF]
  14. Zhao MQ, Zhang Q, Tian GL, Huang JQ, Wei F. Space confinement and rotation stress induced self-organization of double-helix nanostructure: A nanotube twist with a moving catalyst head. ACS Nano, 2012, 6(5):4520-4529. [PDF]
  15. Zhu WC, Liang ZZ, Liu XF, Zhang H, Zheng YJ, Piao XL, Zhang Q, Soft-template self-assembly of hierarchical mesoporous SrCO3 by low-temperature hydrothermal route and their application as adsorbents for methylene blue and heavy metal ions. Powder Technology, 2012, 226:165-172. [PDF]
  16. Zhao XC, Zhang Q, Chen CM, Zhang BS, Reiche S, Wang AQ, Zhang T, Schlögl R, Su DS. Aromatic sulfide, sulfoxide, and sulfone mediated mesoporous carbon monolith for use in supercapacitor. Nano Energy, 2012, 1(4): 624-630. [PDF]
  17. Chen CM, Zhang Q, Huang JQ, Zhang W, Huang CH, Zhao XC, Wei F, Yang YG, Wang MZ, Su DS. Chemically derived graphene/metal oxide hybrids as electrodes for electrochemical energy storage: Pre-graphenization or post-graphenization? Journal of Materials Chemistry, 2012 22(28): 13947-13955. [PDF]
  18. Chen CM, Zhang Q, Zhao XC, Zhang BS, Blume R, Kong QQ, Yang MG, Yang QH, Wang MZ, Yang YG, Schlogl R, Su DS. Hierarchical aminated graphene based honeycombs as supercapacitor electrode. Journal of Materials Chemistry. 2012, 22(28): 14076-14084. [PDF]
  19. Chen CM, Zhang Q, Huang CH, Zhao XC, Zhang BS, Kong QQ, Wang MZ, Cai R, Su DS. Ultralight macroporous ‘bubble’ graphene film via template-directed ordered-assembly for high rate supercapacitors. Chemical Communications. 2012, 48(57): 7149-7151. [PDF]
  20. Chu Y, Chu BZ, Wei XB, Zhang Q, Wei F. An emulsion phase condensation model to describe the defluidization behavior for reactions involving gas-volume reduction. Chemical Engineering Journal. 2012, 198-199C: 364-370. [PDF]
  21. Yan J, Fan ZJ, Sun W, Ning GQ, Wei T, Zhang Q, Zhgang RF, Zhi LJ, Wei F. Advanced asymmetric supercapacitors based on Ni(OH)2/ graphene and porous graphene electrodes with high energy density. Advanced Functional Materials. 2012, 22(12): 2632-2641. [PDF]
  22. Zheng C, Qian WZ, Cui CJ, Zhang Q, Jin YG, Zhao MQ, Tan PH, Wei F. Hierarchical carbon nanotube membrane with high packing density and tunable porous structure for high voltage supercapacitors. Carbon 2012, 50(14):5167-5175. [PDF]
  23. Tian GL, Zhao MQ, Zhang Q, Huang JQ, Wei F. Self-organization of nitrogen doped carbon nanotubes into double-helix structures. Carbon, 2012, 50(14): 5323-5330. [PDF]
  24. Liu XF, Huang JQ, Zhang Q, Liu XY, Peng HJ, Zhu WC, Wei F. N-methyl-2-pyrrolidone-assisted solvothermal synthesis of nanosize orthorhombic lithium iron phosphate with improved Li-storage performance. Journal of Materials Chemistry. 2012, 22(36), 18908-18914. [PDF]
  25. Huang JQ, Zhang Q, Jin Y, Wei F. sp2 nanocarbon materials for lithium ion battery applications. Energy Storage Science and Technology. 2012, 1(1):1-13. [PDF]
  26. Xiao Y, Zhang Q, Yan J, Wei T, Fan ZJ, Wei F. Compressible aligned carbon nanotube/MnO2 as high-rate electrode materials for supercapacitors. Journal of Electroanalytical Chemistry 2012, 684:32-37. [PDF]
  27. Zhao MQ, Liu XF, Zhang Q, Tian GL, Huang JQ, Zhu WC, Wei F. Graphene/single-walled carbon nanotube hybrids: One-step catalytic growth and applications for high-rate Li-S batteries. ACS Nano 2012, 6(12): 10759–10769. [PDF]


  1. Zhu WC, Zhang Q, Xiang L, Zhu, SL. Green coprecipitation byproduct assisted thermal conversion route to submicron Mg2B2O5 whiskers. CrystEngComm 2011, 13(5):1654-1663. [PDF]
  2. Lv RT, Cui TX, Jun MS, Zhang Q, Cao AY, Su DS, Zhang ZJ, Yoon SH, Miyawaki J, Mochida I, Kang FY. Open-Ended, N-doped carbon nanotube-graphene hybrid nanosctructure using as support material for fuel cell catalyst. Advanced Functional Materials 2011, 21(5): 999-1006. [PDF]
  3. Rinaldi A, Tessonnier JP, Schuster ME, Blume R, Girgsdies F, Zhang Q, Jacob T, Abd-Hamid SB, Su DS, Schlögl R. Dissolved carbon controls the initial stage of nanocarbon growth. Angewandte Chemie International Edition 2011, 50(14): 3313-3317. [PDF]
  4. Huang JQ, Zhang Q, Zhao MQ, Zhou K, Wei F. Very fast growth of millimeter-tall aligned carbon nanotubes between two stacked substrates coated with a metal catalyst. Carbon 2011, 49(4):1395-1400. [PDF]
  5. Nie JQ, Zhang Q, Zhao MQ, Huang JQ, Wen Q, Cui Y, Qian WZ, Wei F. Synthesis of high quality single-walled carbon nanotubes on natural sepiolite and their use for phenol absorption. Carbon 2011, 49(5):1568-1580. [PDF]
  6. Zhu WC, Cui XL, Zhang LY, Zhang Q. Monodisperse porous pod-like hematite: Hydrothermal formation, optical absorbance, and magnetic properties. Materials Letters. 2011,65(6):1003- 1006. [PDF]
  7. Zhao MQ, Huang JQ, Zhang Q, Nie JQ, Wei F. Stretchable single-walled-carbon-nanotube- array double helices derived from molybdenum containing layered double hydroxides. Carbon 2011, 49(6):2148-2152. [PDF]
  8. Zhu WC, Zhang Q, Hu L, Xiang L, Zhu SL. Repair the pores and preserve the morphology: Formation of high crystallinity 1D nanostructures via the thermal conversion route Crystal Growth and Design 2011, 11(3):709-718. [PDF]
  9. Xu GH, Huang JQ, Zhang Q, Zhao MQ, Wei F. Fabrication of double- and multi-walled carbon nanotube transparent conductive films by filtration-transfer process and their property improvement by acid treatment. Applied Physics A 2011, 103(2): 403–411. [PDF]
  10. Zhao MQ, Huang JQ, Zhang Q, Luo WL, Wei F. Sponge-like hybrids of aligned carbon nanotube array intercalated natural vermiculite for oil absorption Applied Clay Science 2011, 53(1):1-7. [PDF]
  11. Zhu WC, Wang XL, Zhang X, Zhang H, Zhang Q. Hierarchical laminar superstructures of rhombic priceite (Ca4B10O19·7H2O): Facile hydrothermal synthesis, shape evolution, optical and thermal decomposition properties. Crystal Growth & Design 2011, 11(7):2935-2941. [PDF]
  12. Xu GH, Zheng C, Zhang Q, Huang JQ, Zhao MQ, Nie JQ, Wang XH, Wei F. Binder-free activated carbon/carbon nanotube paper electrodes for use in supercapacitors. Nano Research 2011, 4(9):870-881. [PDF]
  13. Zhang Q, Huang JQ, Zhao MQ, Qian WZ, Wei F. Carbon nanotube mass production: Principles and processes. ChemSusChem 2011, 4(7): 864-889. (Invited Review) [PDF]
  14. Zhang RF, Wen Q, Qian WZ, Su DS, Zhang Q, Wei F. Superstrong Ultra long Carbon Nanotubes for Mechanical Energy Storage. Advanced Materials 2011, 23(30): 3387-3391. [PDF]
    NPG Asia Materials:
  15. Zhu WC, Zhang X, Wang XL, Zhang H, Zhang Q, Xiang L. Short belt-like Ca2B2O5•H2O nanostructures: Hydrothermal formation, FT-IR, thermal decomposition, and optical properties. Journal of Crystal Growth 2011, 332(1):81-86. [PDF]
  16. Jia XL, Yan CZ, Chen Z, Wang RR, Zhang Q, Guo L, Wei F, Lu YF. Direct growth of flexible LiMn2O4/CNTs lithium-ion cathodes. Chemical Communications, 2011, 47(34):9669-9671. [PDF]
  17. Zhang BS, Ni XJ, Zhang W, Shao LD, Zhang Q, Girgsdies F, Liang CH, Schlogl R, Su DS. Structural rearrangements of Ru nanoparticles supported on carbon nanotubes under microwave irradiation. Chemical Communications. 2011, 47(38):10716-10718. [PDF]
  18. Zhu WC, Zhang LY, Cui XL, Zhang Q. Efficient synthesis of one-dimensional orthorhombic lithium borate hydroxide rods and their thermal conversion to lithium borates. Powder Technology. 2011, 210(1): 67-72. [PDF]


  1. Zhao MQ, Zhang Q, Jia XL, Huang JQ, Zhang YH, Wei F. Hierarchical composites of single/double walled carbon nanotubes interlinked flakes from directly carbon deposition on layered double hydroxides. Advanced Functional Materials 2010, 20(4):677-685. (Featured on cover) [PDF]
  2. Highten by Chinese Science Bulletin 2010, 55(12): 1194.
  3. Zhang Q, Zhao MQ, Tang DM, Li F, Huang JQ, Liu BL, Zhu WC, Zhang YH, Wei F. Carbon–nanotube-array double helices. Angewandte Chemie International Edition. 2010, 49(21):3642-3645; Angewandte Chemie 2010, 122(21):3724-3727. [PDF]
  4. Su DS. Inorganic materials with double-helix structures. Angewandte Chemie International Edition 2011, 50(21):4747–4750. [PDF]
  5. Fan ZJ, Yan J, Zhi LJ, Zhang Q, Wei T, Feng J, Zhang ML, Qian WZ, Wei F. Three-dimensional carbon nanotube/graphene sandwich and its application as electrode in supercapacitors. Advanced Materials 2010, 22(33):3723–3728. [PDF]
  6. Wen Q, Qian WZ, Nie JQ, Cao AY, Ning GQ, Wang Y, Hu L, Zhang Q, Huang JQ, Wei F. 100 mm long, semiconducting, triple-walled carbon nanotubes. Advanced Materials 2010, 22(16):1867-1871. (Featured on cover) [PDF]
  7. Zhang Q, Zhao MQ, Huang JQ, Nie JQ, Wei F. Mass production of aligned carbon nanotube arrays by fluidized bed catalytic chemical vapor deposition. Carbon 2010, 48(4):1196-1209. [PDF]
  8. Zhao MQ, Zhang Q, Huang JQ, Wei F. Large scale intercalated growth of short aligned carbon nanotubes among vermiculite layers in a fluidized bed reactor. Journal of Physics and Chemistry of Solids 2010, 71(4):624-626. [PDF]
  9. Zhang Q, Zhao MQ, Huang JQ, Wei F. Comparison of vertically aligned carbon nanotube array intercalated production among vermiculites in fixed and fluidized bed reactors. Powder Technology. 2010, 198(2):285-291. [PDF]
  10. Huang JQ, Zhang Q, Zhao MQ, Wei F. The release of free standing vertically-aligned carbon nanotube arrays from a substrate using CO2 oxidation. Carbon 2010, 48(5):1441-1450. [PDF]
  11. Zhao MQ, Zhang Q, Huang JQ, Nie JQ, Wei F. Advanced materials from natural resources : Facile synthesis aligned carbon nanotubes on wollastonites ChemSusChem 2010,3(4):453-459. [PDF]
  12. Zhang Q, Wang DG, Huang JQ, Zhou WP, Luo GH, Qian WZ, Wei F. Dry spinning yarns from vertically aligned carbon nanotube arrays produced by an improved floating catalyst chemical vapor deposition method. Carbon 2010, 48(10):2855-2861. [PDF]
  13. Xu GH, Zhang Q, Huang JQ, Zhao MQ, Zhou WP, Wei F. A two-step shearing strategy to disperse long carbon nanotubes from vertically aligned carbon nanotube arrays for transparent conductive films Langmuir 2010, 26(4):2798-2804. [PDF]
  14. Zhu WC, Zhang GL, Li J, Zhang Q, Piao XL, Zhu SL. Mesoporous SrCO3 hierachical submicron spheres derived from reaction-limited aggregation induced “rod-to-dumbbell-to-sphere” self-orgniazation. CrystEngComm 2010,12(6):1795-1802. [PDF]
  15. Zhang Q, Zuo YZ, Han MH, Wang JF, Jin Y, Wei F. Long carbon nanotubes intercrossed Cu/Zn/Al/Zr catalyst for CO/CO2 hydrogenation to methanol/dimethyl ether. Catalysis Today 2010, 150(1-2):55-60. [PDF]
  16. Shu Q, Nawaz Z, Gao JX, Liao YH, Zhang Q, Wang DZ, Wang JF. Synthesis of biodiesel from waste oil feedstocks using the carbon-based solid acid catalyst: Reaction and separation. Bioresource Technology 2010, 101(14): 374-5384. [PDF]
  17. Zuo YZ, Zhang Q, An X, Han MH, Wang TF, Wang JF, Jin Y. One-step dimethyl ether synthesis on a Cu/ZnO/Al2O3/ZrO2+γ-Al2O3 bifunctional catalyst in a slurry reactor. Journal of Fuel Chemistry and Technology 2010, 38(1):102-107. [PDF]
  18. Zhao MQ, Zhang Q, Huang JQ, Nie JQ, Wei F. Layered double hydroxides as catalysts for the efficient growth of high quality single walled carbon nanotubes in a fluidized bed reactor. Carbon 2010, 48(11):3260-3270. [PDF]
  19. Zhu WC, Li GD, Zhang Q, Xiang L, Zhu SL. Hydrothermal mass production of MgBO2(OH) nanowhiskers and subsequent thermal conversion to Mg2B2O5 nanowhiskers for biaxially oriented polypropylene resins reinforcement. Powder Technology 2010, 203(2):265-271. [PDF]
  20. Huang JQ, Zhang Q, Zhao MQ, Xu GH, Wei F. Patterning of hydrophobic three-dimensional carbon nanotube architectures by a pattern transfer approach. Nanoscale 2010, 2(8):1401-1404. (Featured on cover) [PDF]
  21. Zhou K, Huang JQ, Zhang Q, Wei F. Multi-directional growth of aligned carbon nanotubes over catalyst film prepared by atomic layer deposition. Nanoscale Research Letters. 2010, 5(10): 1555-1560. [PDF]
  22. Yang Z, Zhang Q, Luo GH, Xiang R, Qian WZ, Wang Y, Wei F. Super long vertically aligned carbon nanotube arrays. New Carbon Materials 2010,25(3):168-174. [PDF]
  23. Zhu WC, Zhang GL, Liu CM, Zhang Q, Piao XL, Zhu SL. Hierarchical strontium carbonate submicron spheres self-assembled under hydrothermal conditions. Crystal Research and Technology 2010, 45(8):845-850. [PDF]
  24. Yang Z, Zhang Q, Luo GH, Huang JQ, Zhao MQ, Wei F. Coupled process of plastics pyrolysis and chemical vapor deposition for controllable synthesis of vertically aligned carbon nanotube arrays. Applied Physics A 2010, 100(2):533-540. [PDF]
  25. Fan ZJ, Yan J, Ning GQ, Wei T, Qian WZ, Zhang SJ, Zheng C, Zhang Q, Wei F. Oil sorption and recovery by using vertically aligned carbon nanotubes. Carbon 2010, 48(14):4197-4200. [PDF]
  26. Ma YJ, Yao XF, Zheng QS, Yin YJ, Xu GH, Wei F, Zhang Q. Carbon nanotube films change Poisson’s ratios from negative to positive. Applied Physics Letters. 2010,97(6): 061909-1-3. [PDF]
  27. Zhang Q. The development and prospects of carbon science – A report on the annual world conference on carbon, Carbon’10. New Carbon Materials. 2010, 25(5):395-399. [PDF]
  28. Zhao MQ, Zhang Q, Zhang W, Huang JQ, Zhang YH, SU DS, Wei F. Embedded high density metal nanoparticles with extraordinary thermal stability derived from guest-host mediated layered double hydroxides. Journal of the American Chemical Society 2010, 132(42): 14739–14741. [PDF]
  29. Yu DS#, Zhang Q#, Dai LM. Highly-efficient metal-free growth of nitrogen-doped single-walled carbon nanotubes on plasma-etched substrates for oxygen reduction. Journal of the American Chemical Society 2010, 132(43):15127-15129. (# equal contribution) [PDF]


  1. Zhang Q, Zhao MQ, Liu Y, Cao AY, Qian WZ, Lu YF, Wei F, Energy-absorbing hybrid composites based on alternate carbon nanotube and inorganic layers. Advanced Materials 2009, 21(28):2876-2880. [PDF]
  2. Nie JQ, Qian WZ, Zhang Q, Wen Q, Wei F. Very high quality single walled carbon nanotubes grown using a structured and tunable porous Fe/MgO catalyst. Journal of Physics Chemistry C 2009, 113(47): 20178–20183. [PDF]
  3. Zhang Q, Huang JQ, Zhao MQ, Qian WZ, Wei F. Modulating the diameter of carbon nanotubes in array form via floating catalyst chemical vapor deposition. Applied Physics A 2009, 94(4): 853-860. [PDF]
  4. Zhang Q, Zhao MQ, Huang JQ, Liu Y, Wang Y, Qian WZ, Wei F. Vertically aligned carbon nanotube arrays grown on a lamellar catalyst by fluidized bed catalytic chemical vapor deposition. Carbon 2009, 47(11):2600-2610. [PDF]
  5. Liu Y, Qian WZ, Zhang Q, Ning GQ, Luo GH, Wang Y, Wang DZ, Wei F. Synthesis of high-quality double-walled carbon nanotubes in fluidized bed reactor. Chemical Engineering & Technology 2009, 32(1):73-79. [PDF]
  6. Xiang R, Luo GH, Yang Z, Zhang Q, Qian WZ, Wei F. Large area growth of aligned CNT arrays on spheres: Cost performance and product control. Materials Letters 2009, 63(1): 84-87. [PDF]
  7. Huang JQ, Zhang Q, Zhao MQ, Wei F. Process intensification by CO2 for high quality carbon nanotube forest growth: Double walled carbon nanotube convexity or single walled carbon nanotube bowl? Nano Research 2009, 2(11):872-881. [PDF]
  8. Zhang Q, Xu GH, Huang JQ, Zhou WP, Zhao MQ, Wang Y, Qian WZ, Wei F. Fluffy carbon nanotubes produced by shearing vertically aligned carbon nanotube arrays. Carbon 2009, 47(2): 538-541. [PDF]
  9. Shu Q, Zhang Q, Gao JX, Wang JF. Advances in carbon-based solid acid for catalytic preparation of biodisel. Modern Chemical Industry 2009, 29(8):21-25. [PDF]
  10. Shu Q, Zhang Q, Xu GH, Nawas Z, Wang DZ, Wang JF. Synthesis of biodiesel from cottonseed oil and methanol using a carbon-based solid acid catalyst. Fuel Processing Technology 2009, 90(7-8):1001-1007. [PDF]
  11. Shu Q, Zhang Q, Xu GH, Wang JF. Preparation of biodiesel using s-MWCNT catalysts and the coupling of reaction and separation. Food and Byproducts Processing. 2009, 87(3): 164-170. [PDF]
  12. An X, Zuo YZ, Zhang Q, Wang JF. Methanol synthesis from CO2 hydrogenation with a Cu/Zn/Al/Zr fibrous catalyst. Chinese Journal of Chemical Engineering 2009, 17(1):88-94. [PDF]
  13. Nawaz Z, Tang XP, Zhang Q, Wang DZ, Wei F. SAPO-34 supported Pt–Sn-based novel catalyst for propane dehydrogenation to propylene. Catalysis Communications 2009, 10(14): 1925-1930. [PDF]
  14. Zuo YZ, Zhang Q, Han MH, Wang JF, Wang TF, Wang DZ, Jin Y. The sintering of a Cu-based methanol synthesis catalyst Chinese Journal of Catalysis 2009, 30(7):624-630. [PDF]
  15. Zhang Q, Huang C, Jiang D, Wei XB, Qian Z, Wei F. Particle measurement sensor for in situ determination of phase structure of fluidized bed. Particuology 2009, 7(3): 175-182. [PDF]
  16. Huang JQ, Zhang Q, Wei F. Coiled carbon nanotubes. Progress in Chemistry 2009, 21(4): 637-643. (Review) [PDF]


  1. Zhang Q, Huang JQ, Zhao MQ, Wang Y, Qian WZ, Wei F. Radial growth of vertically aligned carbon nanotube arrays from ethylene on ceramic spheres. Carbon 2008, 46(8): 1152-1158. (Featured on cover) [PDF]
  2. Zhang Q, Zhao MQ, Huang JQ, Qian WZ, Wei F. Selective synthesis of single/ double/multi-walled carbon nanotubes on MgO supported Fe catalyst. Chinese Journal of Catalysis 2008, 29 (11): 1138-1144. [PDF]
  3. Zhang Q, Liu Y, Hu L, Qian WZ, Luo GH, Wei F. Synthesis of thin-walled carbon nanotubes from methane by tailoring the Ni/Mo ratio of Ni/Mo/MgO catalyst. New Carbon Materials 2008, 23(4): 319-325. [PDF]
  4. Liu Y, Qian WZ, Zhang Q, Ning GQ, Wen Q, Luo GH, Wei F. The confined growth of double-walled carbon nanotubes in porous catalysts by chemical vapor deposition. Carbon 2008, 46(14): 1860-1868. [PDF]
  5. Zhang Q, Liu Y, Huang JQ, Qian WZ, Wang Y, Wei F. Synthesis of single walled carbon nanotubes from liquefied petroleum gas. Nano 2008, 3(2): 95-100. [PDF]
  6. Zhang Q, Yu H, Liu Y, Qian WZ, Wang Y, Luo GH, Wei F. Few walled carbon nanotube production in large-scale by nano-agglomerate fluidized-bed process. Nano 2008, 3(1): 45-50. [PDF]
  7. Zhang Q, Qian WZ, Xiang R, Yang Z, Luo GH, Wang Y, Wei F. In situ growth of carbon nanotubes on inorganic fibers with different surface properties. Materials Chemistry and Physics 2008, 107(2-3): 317-321. [PDF]
  8. Qian WZ, Tian T, Guo C, Wen Q, Li K, Zhang H, Shi H, Wang D, Liu Y, Zhang Q, Zhang YX, Wei F, Wang ZW, Li XD, Li YD. Enhanced activation and decomposition of CH4 by the addiation of C2H4 or C2H2 for hydrogen and carbon nanotube production. Journal of Physical Chemistry C 2008, 112(20): 7588-7593. [PDF]
  9. Huang JQ, Zhang Q, Wei F, Qian WZ, Wang DZ, Hu L. Liquefied petroleum gas containing sulfur as the carbon source for carbon nanotube forests. Carbon 2008, 45(2): 291-296. [PDF]
  10. Zhang Q, Yu H, Huang JQ, Hu L, Qian WZ, Wang DZ, Wei F. Carbon nanofiber microspheres obtained from ethylene using FeCl3 as the catalyst precursor. Materials Letters 2008, 62 (17-18): 3149-3151. [PDF]
  11. Xiang R, Yang Z, Zhang Q, Luo G, Qian WZ, Wei F, Kadowaki M, Einarsson E, Maruyama S. Growth deceleration of vertically aligned carbon nanotube arrays: Catalyst deactivation or feedstock diffusion controlled? Journal of Physical Chemistry C 2008, 112(13): 4892-4896. [PDF]
  12. Xu GH, Zhang Q, Zhou WP, Huang JQ, Wei F. The feasibility of producing MWCNT paper and strong MWCNT film from VACNT array. Applied Physics A 2008, 92(3): 531-539. [PDF]
  13. Liu Y, Qian WZ, Zhang Q, Cao AY, Li ZF, Zhou WP, Ma Y, Wei F. Hierarchical agglomerates of carbon nanotubes as high-pressure cushions. Nano Letters 2008, 8(5): 1323-1327. [PDF]
  14. Huang JQ, Zhang Q, Xu GH, Qian WZ, Wei F. Substrate morphology induced self-organization into carbon nanotube arrays, ropes, and agglomerates. Nanotechnology 2008, 19(43): 43560. [PDF]
  15. Zhu WC, Zhang Q, Xiang L, Wei F, Sun X, Piao X, Zhu SL. Flux-assisted thermal conversion route to pore-free high crystallinity magnesium borate nanowhiskers at a relatively low temperature. Crystal Growth and Design 2008, 8(8): 2938-2945. [PDF]
  16. Zhu WC, Xiang L, Zhang Q, Zhang XY, Hu L, Zhu SL. Morphology preservation and crystallinity improvement in the thermal conversion of the hydrothermal synthesized MgBO2(OH) nanowhiskers to Mg2B2O5 nanowhiskers. Journal of Crystal Growth. 2008, 310(18): 4262-4267. [PDF]
  17. An X, Zuo YZ, Zhang Q, Wang DZ, Wang JF. Dimethyl ether synthesis from CO2 hydrogenation on a CuO-ZnO-Al2O3-ZrO2/HZSM-5 bifunctional catalyst. Industrial & Engineering Chemistry Research 2008, 47(17): 6547-6554. [PDF]
  18. Chen YJ, Zhou HQ, Zhu J, Zhang Q, Wang Y, Wang DZ, Wei F. Direct synthesis of a fluidizable SAPO-34 catalyst for a fluidized dimethyl ether-to-olefins process. Catalysis Letters 2008, 124(3-4):297-303. [PDF]
  19. Liu F, Wei F, Li GL, Cheng Y, Wang L, Luo GH, Li Q, Qian Z, Zhang Q, Jin Y. Study on the FCC process of a novel riser-downer coupling reactor (III): Industrial trial and CFD modeling. Industrial & Engineering Chemistry Research 2008, 47(22):8582-8587. [PDF]
  20. Wei F, Zhang Q, Qian WZ, Yu H, Wang Y, Luo GH, Xu GH, Wang DZ. The mass production of carbon nanotubes using a nano-agglomerate fluidized bed reactor: a multiscale space-time analysis Powder Technology 2008, 183(1): 10-20. (Review) [PDF]


  1. Zhang Q, Zhou WP, Qian WZ, Xiang R, Huang JQ, Wang DZ, Wei F. Synchronous growth of vertically aligned carbon nanotubes with pristine stress in the heterogeneous catalysis process. Journal of Physical Chemistry C 2007, 111(40): 14638-14643. [PDF]
  2. Xiang R, Luo GH, Qian WZ, Zhang Q, Wang Y, Wei F, Li Q, Cao AY. Encapsulation, compensation, and substitution of catalyst particles during continuous growth of carbon nanotubes Advanced Materials 2007, 19(17): 2360-2363. [PDF]
  3. Zhang Q, Qian WZ Wen Q, Liu Y, Wang DZ, Wei F. The effect of phase separation in Fe/Mg/Al/O catalysts on the synthesis of DWCNTs from methane. Carbon 2007, 45(8): 1645-1650. [PDF]
  4. Zhang Q, Qian WZ, Yu H, Wei F, Wen Q. Synthesis of carbon nanotubes with totally hollow channel and/or with totally filled copper nanowires. Applied Physics A 2007, 86(2): 265-269. [PDF]
  5. Zhang Q, Huang JQ, Wei F, Xu GH, Wang Y, Qian WZ, Wang DZ. Large scale production of carbon nanotube arrays on the sphere surface from liquefied petroleum gas at low cost. Chinese Science Bulletin 2007, 52(21): 2896-2902. (Featured on cover) [PDF]
  6. Wen Q, Qian WZ, Wei F, Liu Y, Ning GQ, Zhang Q. CO2-assisted SWNT growth on porous catalysts. Chemistry of Materials 2007, 19(6): 1226-1230. [PDF]
  7. Xiang R, Luo GH, Yang Z, Zhang Q, Qian WZ, Wei F. Temperature effect on substrate selectivity of carbon nanotube growth in a floating catalysis process. Nanotechnology 2007, 18(41): 415703. [PDF]
  8. Zhou WP, Li ZF, Zhang Q, Liu YP, Wei F, Luo GH. Gas flow-assisted alignment of super long electrospun nanofibers. Journal of Nanoscience and Nanotechnology 2007, 7(8): 2667-2673. [PDF]
  9. An X, Li JL, Zuo YZ, Zhang Q, Wang DZ, Wang JF. A Cu/Zn/Al/Zr fibrous catalyst that is an improved CO2 hydrogenation to methanol catalyst. Catalysis Letters 2007, 118 (3-4): 264-269. [PDF]
  10. Wei F, Zhang Q, Qian WZ, Xu GH, Xiang R, Wen Q, Wang Y, Luo GH. Progress on aligned carbon nanotube array. New Carbon Materials 2007, 22(3): 271-282. (Review) [PDF]


  1. Yu H, Zhang Q, Zhang QF, Wang QX, Ning GQ, Luo GH, Wei F. Effect of the reaction atmosphere on the diameter of single-walled carbon nanotubes produced by chemical vapor deposition. Carbon 2006, 44(9): 1706-1712. [PDF]
  2. Qian WZ, Chen L, Zhang Q, Wei F, Ling C, Wang ZW. Preparation of nanosized iron catalyst and small diameter carbon nanotubes from methane decomposition. (In Chinese) The Chinese Journal of Process Engineering 2006, 6(Suppl.2): 294-297. [PDF]