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成果及论文

2024


100. Zhou, L., Liu, Y., Li, Y., Long, C.Zhou, S.Hübner,R.Li, Y.Xue, G.Lin, D.Xu, W.*Hu,Y.*Du,R.*, Design of Metal Aerogels‐Based 3D SERS Substrates by Gentle Compression. Advanced Functional Materials, 2024: 2412006.


99. Zhang, X., Wang, X., Zhu, L., Yu, Y., Yang, H., Zhang, S.*, Hu, Y. *, Huang, S.*, Evolution of catalyst design for controlled synthesis of chiral single-walled carbon nanotubes. Chemical Communications, 2024.

   

2023

  

98. Wang, N., Ding, L., Li, T., Zhang, K., Wu, L., Zhou, Z., He, Q., He, X., Wang, X., Hu, Y.*, Ding, F.*, Zhang, J.*, Yao, Y.*, Self‐Catalytic Ternary Compounds for Efficient Synthesis of High‐Quality Boron Nitride Nanotubes. Small. 2023, 19(14): 2206933.


97. Xu, S., Dong, A., Hu, Y., Yang, Z., Huang, S., Qian, J.*, Multidimensional MOF-derived carbon nanomaterials for multifunctional applications. Journal of Materials Chemistry A. 2023.


96. Chen, D., Han, C., Sun, Q., Ding, J., Huang, Q., Li, T. T., Hu, Y.Qian, J.*, Huang, S., Bimetallic AgNi nanoparticles anchored onto MOF-derived nitrogen-doped carbon nanostrips for efficient hydrogen evolution. Green Energy & Environment. 2023, 8(1), 258-266.


95. Wang, N., Li, Y., Cui, Q., Sun, X., Hu, Y., Luo, Y., Du, R.*, Metal aerogels: Controlled synthesis and applicationsActa Physico-Chimica Sinica.2023, 39, 2212014.


94. Xue, G., Li, Y., Du, R.*, Wang, J.*, Hübner, R., Gao, M. and Hu, Y.*, Leveraging Ligand and Composition Effects: Morphology-Tailorable Pt–Bi Bimetallic Aerogels for Enhanced (Photo-)Electrocatalysis. Small. 2023 19: 2301288. 


93.Wang, T., Wang, Y., Zhang, H., Zhang, X., Zuo, H., Qian, J., Du, R., Zhang, S., Yang, Z., Zhao, Q.*, Hu, Y.*, Huang, S.*, Photochlorination to prepare semiconducting single-walled carbon nanotube and its intramolecular junctionCarbon. 2023, 202, 169-174.

 

92.Yu, S., Yang, S.*, Cai, D.*, Nie, H., Zhou, X., Li, T., Liang, C., Wang, H., Dong, Y., Xu, R., Fang, G., Qian, J., Ge, Y., Hu, Y., Yang, Z.*, Regulating f orbital of Tb electronic reservoir to activate stepwise and dual‐directional sulfur conversion reactionInfoMat. 2023, 5(1), e12381.

 

91.Yu, Y., Sun, X., Du, R.*, Zhang, H., Liu, D., Wang, Y., Zhang, X., Zhang, W., Zhang, S., Qian, J., Hu, Y.*, Huang, S.*, Common salts directed growth of metal-free horizontal SWNT arraysNanoscale. 2023.


2022 


90.Wang, Y., Wang, T., Zhang, H., Liu, D., Qian, J., Du, R., Xu, H., Zhang, S., Yang, Z., Zhao, Q., Hu, Y.*, Huang, S., Selected-Area Fabrication of a Single-Walled Carbon Nanotube Schottky Junction with Tunable Gate RectificationThe Journal of Physical Chemistry Letters. 2022, 13(32), 7541-7546.

 

89.Zhang, H., Zhuge, W., Yang, F., Kang, L., Zhang, S., Du, R., Qian, J., Yang, Z., Yao, Y., Li, P.*, Hu, Y.*, Zhang, J.*, Diameter‐Selective Density Enhancement of Horizontally Aligned Single‐Walled Carbo Nanotube Arrays by Temperature‐Mediated MethodAdvanced Functional Materials. 2022, 2209391.

 

88.Liu, D., Xiang, K., Zhang, S.*, Wang, Y., Zhang, H., Wang, T., Yang, F., Du, R., Qian, J., Yang, Z., Hu, Y.*, Huang, S.*, En Route to High‐Density Chiral Single‐walled Carbon Nanotube Arrays using Solid Trojan Catalysts. Small. 2022: 2205540.

 

87.Song, Y., Zou, L., Wei, C.*, Zhou, Y.*, Hu, Y.*, Single‐atom electrocatalysts for lithium–sulfur chemistry: Design principle, mechanism, and outlook.Carbon Energy. 2022.

 

86.Fang, L., Qiu, C.*, Zhang, H., Hu, Y., Peng, L.*, Giant Negative Differential Resistance Effect Caused by Cutting off Acceptable Quantum States in Carbon Nanotube Tunneling DevicesAdvanced Electronic Materials. 2022, 8(7), 2101314.

 

85.Guo, Y., Sun, Q., Huang, Q., Hu, Y., Su, K., Li, T., Huang, S., Qian, J.*, Variable HOF-derived carbon-coated cobalt phosphide for electrocatalytic oxygen evolution.  Carbon. 2022, 196, 457-465.

 

84.Chai, L., Wang, X., Hu, Y., Li, X., Huang, S., Pan, J.*, Qian, J.*, Sun, X.*, In‐MOF‐Derived Hierarchically Hollow Carbon Nanostraws for Advanced Zinc‐Iodine BatteriesAdvanced Science. 2022, 9(33), 2105063.

 

83.Zhou, S., Yang, S., Cai, D., Hu, Y., Nie, H., Yang, Z.*, Cofactor‐Assisted Artificial Enzyme with Multiple Li‐Bond Networks for Sustainable Polysulfide Conversion in Lithium–Sulfur Batteries. Advanced Science. 2022, 9(3), 2104205.

 

82.Sun, Q., Zhu, K., Ji, X., Chen, D., Han, C., Li, T., Hu, Y., Huang, S., Qian, J.*, MOF-derived three-dimensional ordered porous carbon nanomaterial for efficient alkaline zinc-air batteriesScience China Materials. 2022, 65(6), 1453-1462.


81. Li, P., Xu, L., Xiong, F., Zheng, Z., Bao, X., Ren, Q., Liu, Y., Hu, Y.*, Ma, Y.*, Surface-nitridized 3D nickel host for lithium metal anodes with long cycling life at high-rate. Nanoscale. 2022.

 

80. Huang, Q., Xu, Y., Guo, Y., Zhang, L., Hu, Y., Qian, J.*, Huang, S., Highly graphitized N-doped carbon nanosheets from 2-dimensional coordination polymers for efficient metal-air batteries. Carbon. 2022,88, 135-145.

 

79. Guo, Y., Dong, A., Huang, Q., Li, Q., Hu, Y., Qian, J.,*, Huang, S.,*, Hierarchical N-doped CNTs grafted onto MOF-derived porous carbon nanomaterials for efficient oxygen reduction. Journal of Colloid and Interface Science. 2022, 606, 1833-1841.

 

78. Zhou, S., Yang, S., Cai, D., Liang, C.,Yu, S., Hu, Y., Nie, H., Yang, Z.*, Cofactor‐Assisted Artificial Enzyme with Multiple Li‐Bond Networks for Sustainable Polysulfide Conversion in Lithium–Sulfur Batteries. Adv. Sci. 2022, 9 (3), 2104205.

 

2021

 

77. Hu, Y.*, Zhang, H., Zhang, S., He, C., Wang, Y., Wang, T., Du, R., Qian, J., Li, P.*, Zhang, J.*, Confined Fe Catalysts for High-Density SWNT Arrays Growth: a New Territory for Catalyst-Substrate Interaction Engineering. Small. 2021, 17, 2103433.

 

76. Zhong, Y., Wang, L., Yu, Z., Li, C., Wen, Z., Xie, J., Hu, Y.*, Wang, W.*, Hong, G.*, Hierarchical Stratiform of a Fluorine-Doped NiO Prism as an Enhanced Anode for Lithium-Ion Storage. J. Phys. Chem. Lett. 2021, 12, 46, 11460–11469.

 

75. Sun, Q., Ding, J., Chen, D., Han, C., Jiang, M., Li, T., Hu, Y.*, Huang, S., Silica‐Templated Metal Organic Framework‐Derived Hierarchically Porous Cobalt Oxide in Nitrogen‐Doped Carbon Nanomaterials for Electrochemical Glucose Sensing. ChemElectroChem. 2021, 8(5), 812-818.

 

74. Zhong, Y., Wang, L., Yu, Z., Li, C., Wen, Z., Xie, J., Hu, Y.*, Wang, W.*, Hong, G.*, Hierarchical Stratiform of a Fluorine-Doped NiO Prism as an Enhanced Anode for Lithium-Ion StorageJ. Phys. Chem. Lett. 2021, 12, 46, 11460–11469.

 

73. Du, R., Jin, W.*, Wu, H., Hübner, R., Zhou, L., Xue, G., Hu, Y., Eychmüller, A.*, Rapid synthesis of gold–palladium core–shell aerogels for selective and robust electrochemical CO2 reduction. J. Mater. Chem. A. 2021, 9, 17189-17197.

 

72. Chai, L., Pan, J., Hu, Y., Qian, J.*, Mao C.*, M. Rational Design and Growth of MOF‐on‐MOF HeterostructuresSmall. 2021, 17(36), 2100607.

 

71. Han, C., Zhong, L., Sun, Q., Chen, D., Li, T. T., Hu, Y., Qian, J.*, Huang, S.*, Electrochemical evolution of cobalt-carboxylate framework for efficient water oxidation. Journal of Power Sources. 2021, 499, 229947.

 

70. Guo, Y., Huang, Q., Ding, J., Zhong, L., Li, T., Pan, J., Qian, J.*, Huang, S., Hu, Y., CoMo carbide/nitride from bimetallic MOF precursors for enhanced OER performance. International Journal of Hydrogen Energy. 2021, 46(43), 22268-22276.

 

69. Ding, J., Zhong, L., Huang, Q., Guo, Y., Miao, T., Hu, Y., Qian, J.*, Huang, S.*, Chitosan hydrogel derived carbon foam with typical transition-metal catalysts for efficient water splitting. Carbon. 2021, 177, 160-170.

 

68. Wang, X., Du, Y., Chai, L., Ding, J., Zhong, L., Miao, T.*, Huang, S., Hu, Y., Sulfur‐Induced Growth of Coordination Polymer Derived‐Straight Carbon Nanotubes on Carbon Nanofiber Network for Zn‐Air Batteries. Chemistry–A European Journal. 2021, 27(28), 7704-7711.

 

67. Zhong, L., Huang, Q., Ding, J., Guo, Y., Wang, X., Chai, L., Hu, Y., Huang, S.*,  Abundant Co-Nx sites onto hollow MOF-Derived nitrogen-doped carbon materials for enhanced oxygen reduction. Journal of Power Sources. 2021, 492, 229632.

 

66. Zhong, L., Huang, Q., Ding, J., Guo, Y., Wang, X., Chai, L., Hu, Y., Huang, S.*,  Abundant Co-Nx sites onto hollow MOF-Derived nitrogen-doped carbon materials for enhanced oxygen reduction. Journal of Power Sources. 2021, 492, 229632.

 

65. Chen, D., Han, C., Sun, Q., Ding, J., Huang, Q., Li, T. T., Hu, Y., Huang, S.*,  Bimetallic AgNi nanoparticles anchored onto MOF-derived nitrogen-doped carbon nanostrips for efficient hydrogen evolution. Green Energy & Environment. 2021.

 

64. Huang, Q., Chai, L., Wang, X., Wu, Y. L., Li, Q.*, Hu, Y., Qian, J., Co/N-doped carbon nanosheets derived from InOF-1 precursors for efficient Zn-Air battery. Microporous and Mesoporous Materials. 2021, 314, 110868.

 

63. Jiang, X., Du, R.*, Hübner, R., Hu, Y., Eychmüller, A., A Roadmap for 3D Metal Aerogels: Materials Design and Application Attempts. Matter. 2021, 4, 54-94.

 

62. Huang, Q., Guo, Y., Chen, D., Zhang, L., Li T.,*, Hu, Y., Qian, J.*, Huang, S, Rational construction of ultrafine noble metals onto carbon nanoribbons with efficient oxygen reduction in practical alkaline fuel cell. Chemical Engineering Journal. 2021, 424, 130336.

 

61. Zhong, L., Wang, X., Guo, Y., Ding, J., Huang, Q., Li, TT., Hu, Y., Qian, J.*, Huang, S., Differentiated Oxygen Evolution Behavior in MOF-Derived Oxide Nanomaterials Induced by Phase TransitionACS Appl. Mater. Interfaces. 2021, 13, 46, 55454-55462.

 

60. Han, C., Zhang, X., Li, TT., Hu, Y., Qian, J.*, Carbon Nanotubes Grown on CuO Nanoparticle-Decorated Porous Carbon Microparticles for Water OxidationACS Appl. Nano Mater. 2021, 4, 11, 12119-12126.

 

59. Chai, L., Hu, Z., Wang, X., Zhang, L., Li, TT., Hu, Y., Pan, J.*, Qian, J.*, Huang, S., Fe7C3 nanoparticles with in situ grown CNT on nitrogen doped hollow carbon cube with greatly enhanced conductivity and ORR performance for alkaline fuel cellCarbon. 2021, 174, 531-539.

 

58. Hu, Y., Zhang, H., Zhang, S., He, C., Wang, Y., Wang, T., Zhang, J. Confined Fe Catalysts for High‐Density SWNT Arrays Growth: a New Territory for Catalyst‐Substrate Interaction EngineeringSmall. 2021,17(47), 2103433.

 

2020

 

57. Huang, Q., Guo, Y., Wang, X., Chai, L., Ding, J., Zhong, L., Li, TT., Hu, Y.*, Qian, J.*, Huang, S.*, In-MOF-derived ultrathin heteroatom-doped carbon nanosheets for improving oxygen reduction. Nanoscale. 2020, 12, 10019.

 

56. Ding, J., Zhong, L., Wang, X., Chai, L., Wang, Y., Jiang, M.,Li, T., Hu, Y.*, Qian, J.*, Huang, S.*, General approach to MOF-derived core-shell bimetallic oxide nanowires for fast response to glucose oxidationSensors and Actuators B: Chemical. 2020, 306, 127551.

 

55. Chai, L., Huang, Q., Cheng, H., Wang, X., Zhang, L., Li, TT., Hu, Y.*, Qian, J.*, Huang, S., Bottom-up preparation of hierarchically porous MOF-modified carbon sphere derivatives for efficient oxygen reduction. Nanoscale. 2020, 12, 8785.

 

54. Wang, Y., Liu, D., Zhang, H., Wang, J., Du, R., Li, T.-T., Qian, J.*, Hu, Y.*, and Huang, S.*, Methylation-Induced Reversible Metallic-Semiconducting Transition of Single-Walled Carbon Nanotube Arrays for High-Performance Field-Effect Transistors. Nano Lett. 2020, 20, 496-501.

 

53. Zhong, L., Ding, J., Wang, X., Chai, L., Li, TT., Su, K., Hu, Y.*, Qian, J.*, Huang, S.*, Structural and Morphological Conversion between Two Co-Based MOFs for Enhanced Water Oxidation. Inorg. Chem. 2020, 59, 5, 2701-2710.

 

52. Ding, J., Sun, Q., Zhong, L., Wang, X., Chai, L., Li, Q., Li, TT., Hu, Y.*, Qian, J.*, Huang, S.*, Thermal conversion of hollow nickel-organic framework into bimetallic FeNi3 alloy embedded in carbon materials as efficient oer electrocatalyst. Electrochimica. Acta. 2020, 354, 136716.

 

51. Wang, X., Dong, A., Hu, Y.*, Qian, J.*, Huang, S.*, A review of recent work on using metal–organic frameworks to grow carbon nanotubes. Chem. Commun. 2020, 56, 10809.

 

50. Wang, Y., Wang, J., Ding, C., Zhang, H., Du, R., Zhang, S., Qian, J.*, Hu, Y.*, Huang, S.*, Laser-induced phenylation reaction to prepare semiconducting single-walled carbon nanotube arrays. Chem. Commun. 2020, 56, 14259-14262.

 

49. Wang, Y., Wang, S., Liu, D., Zhou, L., Du, R., Li, T.-T., Miao, T., Qian, J.*, Hu, Y.*, Huang, S.*, Normal-pulse-voltage-assisted in situ fabrication of graphene-wrapped MOF-derived CuO nanoflowers for water oxidation. Chem. Commun. 2020, 56, 8750-8753.

 

48. Du, R., Wang, J., Wang, Y., Hübner, R., Fan, X., Senkovska, I., Hu, Y.*, Kaskel, S., and Eychmüller, A.*, Unveiling reductant chemistry in fabricating noble metal aerogels for superior oxygen evolution and ethanol oxidation. Nat. Commun. 2020, 11, 1590.

 

47. Wang, X., Dong, A., Zhu, Z., Chai, L., Ding, J., Zhong, L., Li, T.-T.*, Hu, Y., Qian, J.*, Huang, S.*, Surfactant-Mediated Morphological Evolution of MnCo Prussian Blue Structures. Small. 2020, 16, 2004614.

 

46. Wang, X., Dong, A., Chai, L., Ding, J., Zhong, L., Li, T.-T.*, Hu, Y., Qian, J.*, Huang, S.*, Abundant nanotube coated ordered macroporous carbon matrix with enhanced electrocatalytic activity. Journal. of. Power. Sources. 2020, 467, 228302.

 

45. Chai, L., Zhang, L., Wang, X., Hu, Z., Xu, Y., Li, T., Hu, Y., Qian, J.*, Huang, S.*, Cube-shaped metal-nitrogen carbon derived from metal-ammonia complex-impregnated metal-organic framework for highly efficient oxygen reduction reaction. Carbon. 2020, 158, 719-727.

 

44. Du, R.*, Joswig, J. O., Hübner, R., Zhou, L., Wei, W., Hu, Y., Eychmüller, A.*, Freeze–Thaw‐Promoted Fabrication of Clean and Hierarchically Structured Noble‐Metal Aerogels for Electrocatalysis and PhotoelectrocatalysisAngewandte Chemie. 2020, 132(21), 8370-8377.


43. Xu, Y., Xu, L., Li, Q., Su, K., Hu, Y., Miao, T.-T. *, Qian, J.*, Metal–Organic Framework–Impregnated Calixarene-Based Cluster-Derived Hierarchically Porous Bimetallic Phosphide Nanocomposites for Efficient Water Splitting. Energy. Technol. 2020, 8, 2000059.

 

42. Chai, L., Hu, Z., Wang, X., Xu, Y., Zhang, L., Li, T.-T., Hu, Y., Qian, J.*, Huang, S.*, Stringing Bimetallic Metal–Organic Framework-Derived Cobalt Phosphide Composite for High-Efficiency Overall Water Splitting. Adv. Sci. 2020, 7, 1903195.

 

41. Du, R.*, Joswig, J.-O., Fan, X., Hübner, R., Spittel, D., Hu, Y., and Eychmüller, A.*, Disturbance-Promoted Unconventional and Rapid Fabrication of Self-Healable Noble Metal Gels for (Photo-)Electrocatalysis. Matter. 2020, 2, 908-920.

 

40. Du, R.*, Joswig, J.-O., Hübner, R., Zhou, L., Wei, W., Hu, Y., and Eychmüller, A.*, Freeze-Thaw-Promoted Fabrication of Clean and Hierarchically-Structured Noble Metal Gels for Electrocatalysis and Photoelectrocatalysis. Angew. Chem. Int. Ed. 2020, 59, 8293-8300 (Back Cover).

 

39. Fan, X., Zerebecki, S., Du, R.*, Hübner, R., Marzum, G., Jiang, G., Hu, Y., Barcikowki, S., Reichenberger, S., and Eychmüller, A.*, Promoting the Electrocatalytic Performance of Noble Metal Aerogels by Ligand-Directed Modulation. Angew. Chem. Int. Ed. 2020, 59, 5706-5711.

 

38. Du, R., Jin, W.*, Hübner, R., Zhou, L., Hu, Y., and Eychmüller, A.*, Engineering Multimetallic Aerogels for pH-Universal HER and ORR Electrocatalysis. Adv. Energy Mater. 2020, 10, 1903857.

 

37. Du, R.*, Jin, X., Hübner, R., Fan, X., Hu, Y., and Eychmüller, A.*, Engineering Self-Supported Noble Metal Foams Toward Electrocatalysis and Beyond. Adv. Energy Mater. 2020, 10, 1901945.

 

2019

 

36. Wang, Y., Liu, D., Zhang, H., Wang, J., Du, R., Li, T., Qian, J.*, Hu, Y.*, Huang, S.*, Methylation-Induced Reversible Metallic-Semiconducting Transition of Single-Walled Carbon Nanotube Arrays for High-Performance Field-Effect TransistorsNano Letters. 2019, 20(1), 496-501.

 

35. Du, R., Hu, Y.*, Huebner, R., Joswig, J., Fan, X, Schneider, K., Eychmueller, A.*, Specific ion effects directed noble metal aerogels: Versatile manipulation for electrocatalysis and beyond. Sci. Adv. 2019, 5(5):4590.

 

34. Du, R., Hu, Y.*, Hübner, R., Joswig, J.-O., Fan, X., and Eychmüller, A.*, Specific Ion Effects Directed Noble Metal Aerogels: Versatile Manipulation for Electrocatalysis and Beyond. Sci. Adv. 2019, 5, 4590.

 

33. Liang, J., Zhang, L.*, Li, X., Pan, B., Luo, T., Liu, D., Zou, Chao., Liu, N., Hu, Y., Yang, K& Huang, S.*, Carbon-nanoparticle-assisted growth of high quality bilayer WS2 by atmospheric pressure chemical vapor deposition. Nano Res. 2019, 12, 2802-2807.

 

32. Wang, X., Chai, L., Ding, J., Zhong, L., Du, Y., Li, T., Hu, Y., Qian, J.*, Huang, S.*, Chemical and morphological transformation of MOF-derived bimetallic phosphide for efficient oxygen evolution. Nano. Energy. 2019, 62, 745-753.

 

31. Xu, L., Wang, Xian., Chai, L., Li, T., Hu, Y., Qian, J.*, Huang, S.*, Co3O4-anchored MWCNTs network derived from metal-organic frameworks as efficient OER electrocatalysts. Materials. Letters. 2019, 248, 181-184.

 

30. Wang, X., Zhu, Z., Chai, L., Ding, J., Zhong, L., Dong, A., Li, T., Hu, Y.,  Qian, J.*, Huang, S.*, Generally transform 3-dimensional In-based metal-organic frameworks into 2-dimensional Co,N-doped carbon nanosheets for Zn-air battery. Journal of Power Sources. 2019, 440, 227158.

 

29. Li, T., Zhou, Q., Qian, J., Hu, Y., Zheng Y.*, Electrodeposition of a cobalt phosphide film for the enhanced photoelectrochemical water oxidation with α-Fe2O3 photoanode, Electrochimica Acta. 2019, 307, 92-99.

 

28. Chai, L., Zhang, L., Wang, X., Ma, Z., Li, T., Li, H., Hu, Y., Qian, J.*, Huang, S.*, Construction of hierarchical Mo2C nanoparticles onto hollow N-doped carbon polyhedrons for efficient hydrogen evolution reaction. Electrochimica Acta. 2019, 321, 134680.

 

27. Du, Y., Zhong, L., Hu, Y., Li, Q., and Qian, J.*, Doubly interpenetrated indium-tricarboxylate frameworks mediated by small molecules with enhanced porosity. CrystEngComm. 2019, 21, 5045.

 

26. Chai, L., Zhang, L., Wang, X., Xu, L., Han, C., Li, T., Hu, Y., Qian, J.*, Huang, S.*, Bottom-up synthesis of MOF-derived hollow N-doped carbon materials for enhanced ORR performance. Carbon. 2019, 146, 248-256.

 

25. Du, R.*, Fan, X., Jin, X., Hübner, R., Hu, Y., and Eychmüller, A.*, Emerging Noble Metal Aerogels: State of the Art and a Look ForwardMatter. 2019, 1, 39-56.

 

2018

 

24. Zhu, Z., Han, C., Li, T., Hu, Y.*, Qian, J.*, and Huang, S., MOF-templated syntheses of porous Co3O4 hollow spheres and micro-flowers for enhanced performance in supercapacitors. CrystEngComm. 2018, 20, 3812-3816.

 

23. Qian, J.*, Wang, X., Chai, L., Liang, L., Li, T., Hu, Y.*, Huang, S.*, Robust Cage-Based Zinc–Organic Frameworks Derived Dual-Doped Carbon Materials for Supercapacitor. Cryst. Growth. Des. 2018, 18, 4, 2358-2364.

 

22. Zhou, Q., Li, T.*, Qian, J., Xu, W., Hu, Y., and Zheng, Y.*, CuO Nanorod Arrays Shelled with Amorphous NiFe Layered Double Hydroxide Film for Enhanced Electrocatalytic Water Oxidation Activity. ACS Appl. Energy Mater. 2018, 1, 3, 1364-1373.

 

21. Zhou, Q., Li, T.-T.*, Qian, J., Hu, Y., Guo, F., Zheng, Y.*, Self-supported hierarchical CuOx@Co3O4 heterostructures as efficient bifunctional electrocatalysts for water splitting. J. Mater. Chem. A. 2018, 6, 14431.

 

20. Zhao, M., Zhang, L., Liu, M., Dong, Y.*, Zou, C., Hu, Y., Yang, K., Yang, Y., Zeng, H., Huang, S.*, Growth of atomically thin MoS2 flakes on high-j substrates by chemical vapor deposition. J. Mater. Sci. 2018, 53: 4262–4273.

 

2017

 

19. Qian, J.*, Li, Q., Liang, L., Li, T., Hu, Y.*, and Huang, S.*, A microporous MOF with open metal sites and Lewis basic sites for selective CO2 capture. Dalton Trans. 2017, 46, 14102-14106.

 

18. Qian, J.*, Shen, J., Li, Q., Hu, Y.*, Huang, S.*, Selective adsorption behaviour of carbon dioxide in OH-functionalized metal–organic framework materials. Cryst. Eng. Comm. 2017, 19, 5346.

 

17. Qian, J.*, Li, T., Hu, Y., Huang, S.*, A bimetallic carbide derived from a MOF precursor for increasing electrocatalytic oxygen evolution activity. Chem. Commun. 2017, 53, 13027.

 

2016

 

16. Zhao, Q., Xu, Z., Hu, Y., Ding, Z., Zhang, J.*, Chemical vapor deposition synthesis of near-zigzag single-walled carbon nanotubes with stable tube-catalyst interface. Sci. Adv. 2016, 2, e1501729.

 

15. Yu, P., Li, Q., Hu, Y., Liu, N., Zhang, L., Su, K., Qian, J.*, Huang, S.*, and Hong, M., Cuboctahedron-based indium–organic frameworks for gas sorption and selective cation exchange. Chem. Commun. 2016, 52 , 7978.

 

14. Deng, S., Tang, J., Kang, L., Hu, Yue., Yao, F., Zhao, Q., Zhang, S., Liu, K., Zhang, J.*, High-Throughput Determination of Statistical Structure Information for Horizontal Carbon Nanotube Arrays by Optical Imaging. Adv. Mater. 2016, 28, 2018–2023.

 

2015

 

13. Hu, Y., Kang, L., Zhao, Q., Zhong, H., Zhang, S., Yang, L., Wang, Z., Lin, J., Li, Q., Zhang, Z., Peng, L., Liu, Z., Zhang, J.*, Growth of high-density horizontally aligned SWNT arrays using Trojan catalysts. Nat. Commun. 2015, 6.

 

12. Kang, L., Hu, Y., Zhong, H., Si, J., Zhang, S., Zhao, Q., Lin, J., Li, Q., Zhang, Z., Peng, L., Zhang, J.*, Large-area growth of ultra-high-density single-walled carbon nanotube arrays on sapphire surface. Nano. Res. 2015, 8, 3694.

 

11. Zhang, S., Tong, L., Hu, Yue., Kang, L., Zhang, J.*, Diameter-Specific Growth of Semiconducting SWNT Arrays Using Uniform Mo2C Solid Catalyst. J. Am. Chem. Soc. 2015, 137, 28, 8904–8907.

 

10. Zhang, S., Hu, Y., Wu, J., Liu, D., Kang, L., Zhao, Q., Zhang, J.*, Selective Scission of C–O and C–C Bonds in Ethanol Using Bimetal Catalysts for the Preferential Growth of Semiconducting SWNT Arrays. J. Am. Chem. Soc. 2015, 137, 3, 1012–1015.

 

9. Kang, L., Hu, Y., Liu, L., Wu, J., Zhang, S., Zhao, Q., Zhang, J.*, (2015). Growth of close-packed semiconducting single-walled carbon nanotube arrays using oxygen-deficient TiO2 nanoparticles as catalystsNano letters. 2015, 15(1), 403-409.

 

8. Du, R., Zhang, N., Zhu, J., Wang, Y., Xu, C., Hu, Y., Mao, N., Xu, H., Duan, W., Zhuang, L., Qu, L., Hou, Y., Zhang, J.*, Nitrogen‐Doped Carbon Nanotube Aerogels for High‐Performance ORR CatalystsSmall. 2015, 11(32), 3903-3908.

 

2014

 

7. Liu, Y., Hu, Y., Zhang, J.*, Few-layer graphene-encapsulated metal nanoparticles for surface-enhanced Raman spectroscopyThe Journal of Physical Chemistry C. 2014, 118(17), 8993-8998.

 

6. Chen, Y., Zhang, Y., Hu, Y., Kang, L., Zhang, S., Xie, H., Zhang, J.*, State of the art of single‐walled carbon nanotube synthesis on surfacesAdvanced Materials. 2014, 26(34), 5898-5922.

 

Before 2013

 

5. Hu, Y., Chen, Y., Li, P., Zhang, J.*, Sorting out Semiconducting Single-Walled Carbon Nanotube Arrays by Washing off Metallic Tubes Using SDS Aqueous Solution. Small. 2013, 9, 8, 1306-11.

 

4. Chen, Y., Hu, Y., Liu, M., Xu, W., Zhang, Y., Xie, L., Zhang, J.*, Chiral Structure Determination of Aligned Single-Walled Carbon Nanotubes on Graphite Surface. Nano. Lett. 2013, 13, 11, 5666–5671.

 

3. Chen, Y., Shen, Z., Xu, Z., Hu, Y., Xu, H., Wang, S., Zhang, J.*, Helicity-dependent single-walled carbon nanotube alignment on graphite for helical angle and handedness recognitionNature Communications. 2013, 4(2205), 1.

 

2. Chen, Y., Hu, Y., Fang, Y., Li, P., Feng, C., Zhang, J.*, Lattice-directed growth of single-walled carbon nanotubes with controlled geometries on surface. Carbon. 2012, 50, 3295.

 

1. Fang, L., Qiu, C., Zhang, H., Hu, Y., & Peng, L. M. Giant Negative Differential Resistance Effect Caused by Cutting off Acceptable Quantum States in Carbon Nanotube Tunneling DevicesAdvanced Electronic Materials, 2101314.