D145

曲良体 教授、博士生导师、长江学者特聘教授

Tel: 010-62780569

E-mail: lqu@mail.tsinghua.edu.cn

围绕碳纳米材料、石墨烯、碳纳米管、导电与功能高分子的可控制备、功能修饰与组装开展研究,探究其在先进功能材料、高效能量转化与储存等方面的应用。研究领域涉及纳米与材料化学、电化学、绿色能源、柔性电子与储能器件等,例子包括石墨烯超结构、智能响应高分子、海水淡化、空气发电、新型电化学电池/电容器、微型能源器件及柔性器件等。在Science, Nature Nanotechnology, Nature Communications, Advanced Materials, Journal of the American Chemical Society等国际重要期刊发表SCI论文300多篇,论文他引三万余次,单篇论文最高他引超3000次。受邀请在Nature Reviews Materials, Accounts of Chemical Research, Chemical Reviews等撰写综述论文30余篇,专著1部,国际国内发明专利40余项。研究工作被Nature等专业刊物报道。曾主持科技部重点研发计划、国家基金委重点项目等多项。

教育背景

2001.09 – 2004.07  清华大学   化学     博士

1998.09 – 2001.07  大连理工大学 化学     硕士

1994.09 – 1998.07  济南大学   应用化学   学士

工作履历

2020.1 –                清华大学        化学系          教授

2009.5 – 2019.12  北京理工大学   化学与化工学院   教授

2004.9 – 2009.5   美国代顿大学   化学与材料工程系 博士后、研究助理教授

学术兼职

Nano Research Energy主编

Science China Materials编委

Materials Today Chemistry(Elsevier)编委

ChemNanoMat(Wiley)编委

Sustainable Energy & Fuels(RSC)编委

应用化学编委

研究领域

先进功能材料、微纳制造、新能源器件

• 先进材料制备(石墨烯、功能高分子、碳纳米材料、智能响应材料)

• 微纳制造(分子/纳米级材料设计、纳米化学、电化学、微纳组装、激光微纳制造)

• 新能源器件(海水淡化、空气发电、电池/电容器、柔性电子与微纳能源器件)

奖励与荣誉

国家“百千万人才工程”(2017年)

“万人计划”科技创新领军人才(2016年)

教育部长江学者特聘教授(2014年)

科技部中青年科技创新领军人才(2014年)

国家杰出青年科学基金获得者(2013年)

教育部霍英东基金获得者(2009年)

新世纪优秀人才(2009年)

国家自然科学二等奖1项(2016年)第二获奖人

教育部自然科学一等奖1项(2015年)第五获奖人

学术成果

部分论文

1. Yajie Hu, Mingmao Wu, Fengyao Chi, Guobin Lai, Puying Li, Wenya He, Bing Lu, Chuanxin Weng, Jinguo Lin, Fengen Chen, Huhu Cheng, Feng Liu, Lan Jiang & Liangti Qu*, Ultralow-resistance electrochemical capacitor for integrable line filtering, Nature, 2023, DOI: 10.1038/s41586-023-06712-2

2. Xuanzhang Hao, Houze Yao, Panpan Zhang, Qihua Liao, Kaixuan Zhu, Jian Chang, Huhu Cheng*, Jiayin Yuan* & Liangti Qu*, Multifunctional solar water harvester with high transport selectivity and fouling rejection capacity, Nature Water, 2023, https://www.nature.com/articles/s44221-023-00152-y

3. Puying Li, Yajie Hu, Wenya He, Bing Lu, Haiyan Wang, Huhu Cheng* & Liangti Qu*, Multistage coupling water-enabled electric generator with customizable energy output, Nat. Commun., 2023, 14: 5702.

4. Jiaxin Bai, Qihua Liao, Houze Yao, Tianlei Guang, Tiancheng He, Huhu Cheng, and Liangti Qu*, Self-induced interface enhanced moisture-harvesting and light-trapping toward high performance electric power generation, Energy Environ. Sci., 2023, 16, 3088–3097

5. Tong Xu, Xiaoteng Ding, Huhu Cheng, Gaoyi Han, and Liangti Qu*, Moisture-Enabled Electricity from Hygroscopic Materials: A New Type of Clean Energy, Adv. Mater. 2023, 2209661

6. Kaixuan Zhu, Qihua Liao, Xuanzhang Hao, Houze Yao, Jiaxin Bai, Tianlei Guang, Tengyu Lin, Huhu Cheng* and Liangti Qu*, Low-Grade Waste Heat Enables Over 80 L m−2 h−1 Interfacial Steam Generation Based on 3D Superhydrophilic Foam, Adv. Mater. 2023, 35, 2211932.

7. Fully printed planar moisture-enabled electric generator arrays for scalable function integration, Tiancheng He, Haiyan Wang, Bing Lu, Tianlei Guang, Ce Yang, Yaxin Huang, Huhu Cheng, Liangti Qu*, Joule 2023, 7, 935–951.

8. Panpan Zhang,* Haiyang Wang, Jing Wang,Zhiyong Ji,* and Liangti Qu*, Boosting the Viable Water Harvesting in Solar Vapour Generation: From Interfacial Engineering to Devices Design, Adv. Mater., 2023, https://doi.org/10.1002/adma.202303976

9. Mingmao Wu, Hongya Geng, Yajie Hu, Hongyun Ma, Ce Yang, Hongwu Chen, Yeye Wen, Huhu Cheng, Chun Li, Feng Liu, Lan Jiang & Liangti Qu*, “Superelastic graphene aerogel-based metamaterials, Nat. Commun., 2022, 13:4561.

10. Ce Yang, Haiyan Wang, Jiaxin Bai, Tiancheng He, Huhu Cheng*, Tianlei Guang, Houze Yao & Liangti Qu*, Transfer learning enhanced water-enabled electricity generation in highly oriented graphene oxide nanochannels, Nat. Commun., 2022, 13: 6819.

11. Haiyan Wang, Tiancheng He, Xuanzhang Hao, Yaxin Huang, Houze Yao, Feng Liu*, Huhu Cheng* & Liangti Qu*, “Moisture adsorption-desorption full cycle power generation”, Nat. Commun., 2022, 13:2524.

12. Chunlong Dai, Linyu Hu, Xuting Jin, Ying Wang, Rui Wang, Yukun Xiao, Xiangyang Li, Xinqun Zhang, Li Song, Yuyang Han, Huhu Cheng, Yang Zhao, Zhipan Zhang*, Feng Liu*, Lan Jiang, Liangti Qu*, “Fast constructing polarity-switchable zinc-bromine microbatteries with high areal energy density”, Sci. Adv., 2022, 8, eabo6688.

13. Ying Wang, Yang Zhao,* Yuyang Han, Xiangyang Li, Chunlong Dai, Xinqun Zhang, Xuting Jin, Changxiang Shao, Bing Lu, Chengzhi Wang, Huhu Cheng, Feng Liu,* and Liangti Qu*, “Fixture-free omnidirectional prestretching fabrication and integration of crumpled in-plane microsupercapacitors”, Sci. Adv., 2022, 8, eabn8338.

14. Chunlong Dai, Linyu Hu, Hao Chen, Xuting Jin, Yuyang Han, Ying Wang, Xiangyang Li, Xinqun Zhang, Li Song, Maowen Xu, Huhu Cheng, Yang Zhao, Zhipan Zhang*, Feng Liu* & Liangti Qu*, “Enabling fast-charging selenium-based aqueous batteries via conversion reaction with copper ions”, Nat. Commun. 2022, 13:1863

15. Ce Yang, Haiyan Wang, Jiawei Yang, Houze Yao, Tiancheng He, Jiaxin Bai, Tianlei Guang, Huhu Cheng*, Jianfeng Yan, and Liangti Qu*, “Machine Learning Enhanced Simultaneous and Multimodal Sensor Based on Moist-Electric Powered Graphene Oxide”, Adv Mater. 2022, 34, 2205249.

16. Xinghang Liu, Feixiang Chen, Yuankai Li, Hanjin Jiang, Debesh Devadutta Mishra, Fang Yu, Zihe Chen, Chaoquan Hu,* Yun Chen,* Liangti Qu,* and Weitao Zheng*, “3D Hydrogel Evaporator with Vertical Radiant Vessels Breaking the Trade-Off between Thermal Localization and Salt Resistance for Solar Desalination of High-Salinity”, Adv. Mater. 2022, 34, 2203137.

17. Jiaxin Bai, Yaxin Huang, Haiyan Wang, Tianlei Guang, Qihua Liao, Huhu Cheng, Shanhao Deng, Qikai Li, Zhigang Shuai*, Liangti Qu*, “Sunlight-coordinated high-performance Moisture Power in Natural Condition”, Adv. Mater. 2022, 34, 2103897.

18. Jiaxin Bai, Yajie Hu, Tianlei Guang, Kaixuan Zhu, Haiyan Wang, Huhu Cheng, Feng Liu and Liangti Qu*, “Vapor and heat dual-drive sustainable power for portable electronics in ambient environments”, Energy Environ. Sci., 2022, 15, 3086–3096.

19. Hongyun Ma, Hongwu Chen, Yajie Hu, Bingjun Yang, Jianze Feng, Yongtai Xu, Yinglun Sun, Huhu Cheng, Chun Li, Xingbin Yan* and Liangti Qu*, “Aqueous rocking-chair aluminum-ion capacitors enabled by a self-adaptive electrochemical pore-structure remolding approach”, Energy Environ. Sci., 2022, 15, 1131–1143.

20. Xuting Jin, Li Song, Chunlong Dai, Yukun Xiao, Yuyang Han, Xiangyang Li, Ying Wang, Jiatao Zhang, Yang Zhao*, Zhipan Zhang*, Nan Chen, Lan Jiang, Liangti Qu*, “A Flexible Aqueous Zinc-Iodine Micro-battery with Unprecedented Energy Density”, Adv. Mater. 2022, 2109450.

21. Haiyan Wang, Yilin Sun, Tiancheng He, Yaxin Huang, Huhu Cheng*, Chun Li, Dan Xie, Pengfei Yang, Yanfeng Zhang, Liangti Qu*, “Bilayer of polyelectrolyte films for spontaneous power generation in air up to an integrated 1,000 V output”, Nat. Nanotechnol., 2021, 16, 811–819.

22. Chang Gao, Jiancheng Huang, Yukun Xiao, Guoqiang Zhang, Chunlong Dai, Zengling Li, Yang Zhao*, Lan Jiang & Liangti Qu*, “A seamlessly integrated device of microsupercapacitorand wireless charging with ultrahigh energy density and capacitance”, Nat. Commun., 2021, 12:2647

23. Xuting Jin, Li Song, Hongsheng Yang, Chunlong Dai, Yukun Xiao, Xinqun Zhang, Yuyang Han, Congcong Bai, Bing Lu, Qianwen Liu, Yang Zhao, Jiatao Zhang, Zhipan Zhang*, and  Liangti Qu*, Stretchable Supercapacitor at -30 oC, Energy Environ. Sci., 2021, 14, 3075 - 3085

24. Yuanyuan Li, Nan Chen,* Zengling Li, Huibo Shao, Xiaotong Sun, Feng Liu,* Xiaoting Liu, Qiang Guo, and Liangti Qu*, “Reborn Three-Dimensional Graphene with Ultrahigh Volumetric Desalination Capacity”, Adv. Mater. 2021, 2105853.

25. Chunlong Dai, Linyu Hu, Xuting Jin, Hao Chen, Xinqun Zhang, Shaohua Zhang, Li Song, Hongyun Ma, Maowen Xu, Yang Zhao, Zhipan Zhang,* Huhu Cheng, and Liangti Qu*, “A Cascade Battery: Coupling Two Sequential Electrochemical Reactions in a Single Battery”, Adv. Mater. 2021, 33, 2105480.

26. Shichen Xu, Yeye Wen, Zhuo Chen, Nannan Ji, Zhigang Zou, Mingmao Wu,* Liangti Qu,* and Jin Zhang*, “Vertical Graphene Arrays as Electrodes for Ultra-High Energy Density AC Line-Filtering Capacitors”, Angew. Chem. Int. Ed. 2021, 60, 24505 –24509.

27. Houze Yao, Panpan Zhang, Ce Yang, Qihua Liao, Xuanzhang Hao, Yaxin Huang, Miao Zhang, Xianbao Wang, Tengyu Lin, Huhu Cheng,* Jiayin Yuan* and Liangti Qu*, “Janus-interface engineering boosting solar steam towards high-efficiency water collection”, Energy Environ. Sci., 2021, 14, 5330–5338.

28. Houze Yao, Panpan Zhang, Yaxin Huang, Huhu Cheng,* Chun Li, and Liangti Qu*, “Highly Efficient Clean Water Production from Contaminated Air with a Wide Humidity Range”, Adv. Mater. 2020, 32, 1905875.

29. Bing Lu, Feng Liu, Guoqiang Sun, Jian Gao, Tong Xu, Yukun Xiao, Changxiang Shao, Xuting Jin, Hongsheng Yang, Yang Zhao, Zhipan Zhang, Lan Jiang, and Liangti Qu*, “Compact Assembly and Programmable Integration of Supercapacitors”, Adv. Mater.2020, 32, 1907005.

30. Hanxue Liang, Qihua Liao, Nan Chen,* Yuan Liang, Guiqin Lv,* Panpan Zhang, Bing Lu, and Liangti Qu*, “Thermal Efficiency of Solar Steam Generation Approaching 100% through Capillary Water Transport”, Angew. Chem. Int. Ed. 2019, 58, 19041 – 19046.

31. Mingmao Wu, Fengyao Chi, Hongya Geng, Hongyun Ma, Miao Zhang, Tiantian Gao, Chun Li & Liangti Qu*, “Arbitrary waveform AC line filtering applicable to hundreds of volts based on aqueous electrochemical capacitors”, Nat. Commun. 2019, 10: 2855. https://doi.org/10.1038/s41467-019-10886-7.

32. Yaxin Huang, Huhu Cheng,* Ce Yang, Houze Yao, Chun Li and Liangti Qu*, “All-region-applicable, continuous power supply of graphene oxide composite”, Energy Environ. Sci., 2019, 12, 1848—1856.

33. Hongya Geng, Qiang Xu, Mingmao Wu, Hongyun Ma, Panpan Zhang, Tiantian Gao, Liangti Qu*, Tianbao Ma* & Chun Li*, “Plant leaves inspired sunlight-driven purifier for high-efficiency clean water production”, Nat. Commun. 2019, 10: 1512.https://doi.org/10.1038/s41467-019-09535-w.

34. Tong Xu, Zhipan Zhang,* and Liangti Qu*, “Graphene-Based Fibers: Recent Advances in Preparation and Application”, Adv. Mater.2019, 1901979.

35. Tong Xu, Xiaoteng Ding, Yaxin Huang, Changxiang Shao, Long Song, Xue Gao, Zhipan Zhang and Liangti Qu*, “An efficient polymer moist-electric generator”, Energy Environ. Sci., 2019, 12, 972 – 978.

36. Ce Yang, Yaxin Huang, Huhu Cheng*, Lan Jiang, Liangti Qu*, “Rollable, stretchable, and reconfigurable graphene hygroelectric generators”, Adv. Mater., 2019, 31, 1805705.

37. Panpan Zhang, Feng Liu, Qihua Liao, Houze Yao, Hongya Geng, Huhu Cheng, Chun Li, and Liangti Qu*, “A Microstructured Graphene/Poly(N-isopropylacrylamide) Membrane for Intelligent Solar Water Evaporation”, Angew. Chem. Int. Ed. 2018, 57, 16343 –16347.

38. Hongya Geng, Ke Zhou, Jiajia Zhou, Hongyun Ma, Cunjing Lv, Chun Li,* Zhiping Xu,* and Liangti Qu*, “Sunlight-Driven Water Transport via a Reconfigurable Pump”, Angew. Chem. Int. Ed. 2018, 57, 15435 –15440.

39. Yaxin Huang, Huhu Cheng*, Ce Yang, Panpan Zhang, Qihua Liao, Houze Yao, Gaoquan Shi, Liangti Qu*, “Interface-mediated hygroelectric generator with an output voltage approaching 1.5 volts”, Nat. Commun., 2018, 9, 4166.

40. Huhu Cheng,* Yaxin Huang, Fei Zhao, Ce Yang, Panpan Zhang, Lan Jiang, Gaoquan Shi, and Liangti Qu*, “Spontaneous power source in ambient air of a well-directionally reduced graphene oxide bulk”, Energy Environ. Sci., 2018, 11, 2839—2845.

41. Guoqiang Sun, Hongsheng Yang, Guofeng Zhang, Jian Gao, Xuting Jin, Yang Zhao, Lan Jiang and Liangti Qu*, “A capacity recoverable zinc-ion micro-supercapacitor”, Energy Environ. Sci., 2018, 11, 3367 – 3374.

42. Kun Gao, Bin Wang, Li Tao, Benjamin V. Cunning, Zhipan Zhang, Shuangyin Wang,* Rodney S. Ruoff,* and Liangti Qu*, “Efficient Metal-Free Electrocatalysts from N-Doped Carbon Nanomaterials: Mono-Doping and Co-Doping”, Adv. Mater. 2018, 1805121.

43. Liang Y, Zhao F, Cheng Z.H., Deng Y.X., Xiao Y.K., Cheng H.H., Zhang P.P., Huang Y.X., Shao H.B.*, and Qu L.T.*, “Electric Power Generation via Asymmetric Moisturizing of Graphene Oxide for Flexible, Printable and Portable   Electronics”, Energy Environ. Sci., 2018, 11, 1730 – 1735.

44. Zhao F, Zhou X.Y., Shi Y, Qian X, Alexander M, Zhao X.P., Mendez S, Yang R.G.*, Qu L.T.*, and Yu G.H.*, “Highly efficient solar vapour generation via hierarchically nanostructured gels”, Nat. Nanotechnol., 2018, 13, 489–495.

45. Cui L.F., Zhang P.P., Xiao Y.K., Liang Y, Liang H.X., Cheng Z.H., and Qu L.T.*, “High Rate Production of Clean Water Based on the Combined Photo-Electro-Thermal Effect of Graphene Architecture”, Adv. Mater., 2018, 30, 1706805.

46. Cheng H., Huang Y., Shi G., Jiang L., Qu L.T.*, “Graphene-Based Functional Architectures: Sheets Regulation and Macrostructure Construction toward Actuators and Power Generators”, Acc. Chem. Res., 2017, 50 (7), 1663–1671.

47. Yu X., Cheng H., Zhang M., Zhao Y., Qu L.T.*, Shi G.Q.*, “Graphene-based smart materials”, Nature Reviews Materials, 2017, 2, 17046.

48. Zhao Y*, Han Q, Cheng Z.H., Jiang L, and Qu L.T.*, “Integrated graphene systems by laser irradiation for advanced devices”, Nano Today, 2017, 12, 14-30.

49. Zhao F, Wang L.X., Zhao Y, Qu L.T.*, and Dai L.M.*, “Graphene Oxide Nanoribbon Assembly toward Moisture-Powered Information Storage”, Adv. Mater., 2017, 29(3), 1604972.

50. Wang X.P., Gao J, Cheng Z.H., Chen N, and Qu L.T.*, “A Responsive Battery with Controlled Energy Release”, Angew. Chem. Int. Ed., 2016, 128(47), 14863-14867.

51. Han Q., Wang B., Gao J., and Qu L.T.*, “Graphitic Carbon Nitride/Nitrogen-Rich Carbon Nanofibers: Highly Efficient Photocatalytic Hydrogen Evolution without Cocatalysts”, Angew. Chem. Int. Ed., 2016, 55, 10849-10853.

52. Jiang Y., Shao H.B., Li C.X., Xu T., Zhao Y., Shi G.Q., Jiang L., and Qu L.T.*,“Versatile Graphene Oxide Putty-Like Material”, Adv. Mater., 2016, 28(46), 10287-10292.

53. Zhao F, Liang Y, Cheng H.H., Jiang L, and Qu L.T.*, “Highly efficient moisture-enabled electricity generation from graphene oxide frameworks”, Energy Environ. Sci., 2016, 9(3), 912-916.

54. Cheng H.H., Ye M.H., Zhao F, Hu C.G., Zhao Y, Liang Y, Chen N, Chen S.L., Jiang L, and Qu L.T.*, “A General and Extremely Simple Remote Approach toward Graphene Bulks with In Situ Multifunctionalization”, Adv. Mater., 2016, 28(17), 3305-3312.

55. Zhao F, Zhao Y, Cheng H.H. and Qu L.T.*, “A Graphene Fibriform Responsor for Sensing Heat, Humidity, and Mechanical Changes”, Angew. Chem. Int. Ed., 2015, 54(49), 14951–14955.

56.  Han Q., Wang B., Zhao Y., Cheng H.H. and Qu L.T.*, “A Graphitic-C3N4 "Seaweed" Architecture for Enhanced Hydrogen Evolution”, Angew. Chem. Int. Ed., 2015, 54(39), 11433–11437.

57. Zhao F, Cheng H.H., Zhang Z.P., Jiang L and Qu L.T.*, “Direct Power Generation of a Graphene Oxide Film under Moisture”, Adv. Mater., 2015, 27(29), 4351–4357.

58. Dai L.M.*, Xue Y.H., Qu L.T.*, Choi H.J., and Baek J.B.*, “Metal-Free Catalysts for Oxygen Reduction Reaction”, Chem. Rev., 2015, 115(11), 4823–4892.

59. Hu C.G., Song L, Zhang Z.P.*, Chen N, Feng Z.H., and Qu L.T.*, “Tailored Graphene Systems for Unconventional Applications in Energy Conversion and Storage Devices”, Energy Environ. Sci., 2015, 8(1), 31–54.

60. Zhao Y, Zhao F, Wang X.P., X u C.Y., Zhang Z.P., Shi G.Q. and Qu L.T.*,“Graphitic Carbon Nitride Nanoribbons: Graphene-Assisted Formation and Synergic Function for Highly Efficient Hydrogen Evolution”, Angew. Chem. Int. Ed., 2014, 53, 13934–13939.

61.  Hu C.G., Zheng G.P., Zhao F, Shao H.B.*, Zhang Z.P., Chen N and Jiang L, Qu L.T.*, "A powerful approach to functional graphene hybrids for high performance energy-related applications”, Energy Environ. Sci., 2014, 7 (11), 3699–3708.

62. Zhao Y., Hu C.G., Song L., Wang L.X., Shi G.Q. and Dai L.M., Qu L.T.*, “Functional Graphene Nanomesh Foam”, Energy Environ. Sci., 2014, 7, 1913–1918.

63. Cheng H.H., Hu Y., Zhao F., Dong Z.L., Wang Y.H., Chen N., Zhang Z.P., Qu L.T.*, “Moisture-Activated Torsional Motor of Graphene Fiber”, Adv. Mater., 2014, 26, 2909–2913.

64. Zhao Y., Song L., Zhang Z.P.* Qu L.T.*, “Stimulus-responsive Graphene Systemstowards Actuator Applications”, Energy Environ. Sci., 2013, 6, 3520–3536.

65. Cheng H., Liu J., Zhao Y., Hu H.G., Zhang Z.P., Chen N., Jiang L., Qu L.T.*, “Graphene Fibers with Predetermined Deformation as Moisture-Triggered Actuators and Robots”, Angew. Chem. Int. Ed., 2013, 52, 10482–10486.

66. Meng Y.N., Zhao Y., Hu C.G., Cheng H.H., Hu Y., Zhang Z.P., Shi G.Q., Qu L.T.*, “All-Graphene Core-Sheath Microfibers for All-Solid-State, Stretchable Fibriform Supercapacitors and Wearable Electronic Textiles”, Adv. Mater., 2013, 25(16), 2326–2331.

67.  Zhao Y., Liu J., Hu Y., Cheng H., Hu C., Jiang C., Jiang L., Cao A.Y., Qu L.T.*, “Highly Compression-Tolerant Supercapacitor Based on Polypyrrole-mediated Graphene Foam Electrodes”, Adv. Mater., 2013, 25(4), 591–595.

68. Hu C.G., Zhao Y., Cheng H., Wang Y., Dong Z., Jiang C., Zhai X., Jiang L., Qu L.T.*, “Graphene Microtubings: Controlled Fabrication and Site-specific Functionalization”, Nano Lett., 2012, 12 (11), 5879–5884.

69. Zhao Y., Hu C.G., Hu Y., Cheng H.H., Shi G.Q., Qu L.T.*, “A Versatile, Ultralight, Nitrogen-doped Graphene Framework”, Angew. Chem. Int. Ed., 2012, 124(45), 11533–11537.

70. Zhang Z. P.*, Zhang J., Chen N., Qu L.T.*, “Graphene Quantum Dots: An Emerging Material for the Energy-Related Applications and Beyond”, Energy Environ. Sci., 2012, 5, 8869–8890.

71. Hu C.G., Cheng H.H., Zhao Y., Hu Y., Liu Y., Dai L.M., Qu L.T.*, “Newly-Designed Complex Ternary Pt/PdCu Nanoboxes Anchored on Three-Dimensional Graphene Framework for Highly Efficient Ethanol Oxidation”, Adv. Mater., 2012,24(40), 5493–5498.

72. Dong Z.L., Jiang C.C., Cheng H.H., Zhao Y., Shi G.Q., Jiang L., Qu L.T.*, “Facile fabrication of light, flexible and multifunctional graphene fibers”, Adv. Mater., 2012, 24 (14), 1856–1861.

73. Li Y., Zhao Y., Cheng H., Hu Y., Shi G.Q., Dai L.M., Qu L.T.*, “Nitrogen-doped graphene quantum dots with oxygen-rich functional groups”, J. Am. Chem. Soc., 2012 134 (1), 15–18.

74. Li Y., Hu Y., Zhao Y., Shi G. Q., Deng L., Hou Y. B., Qu L.T.*, An electrochemical avenue to green-luminescent graphene quantum dots as potential electron-acceptors for photovoltaics, Adv. Mater., 2011, 23, 776–780.

75. Qu L.T., Dai L. M., Stone M., Xia Z. H., Wang Z. L., Carbon nanotube arrays with strong shear binding-on and easy normal lifting-off, Science, 2008, 322, 238–242.

76. Qu L.T., Du F., Dai L. M., Preferential syntheses of semiconducting vertically-aligned single-walled carbon nanotubes for direct use in FETs, Nano Lett., 2008, 8, 2682–2687.

77. Qu L.T., Dai L. M., Gecko-Foot-Mimetic Aligned Single-Walled Carbon Nanotube Dry Adhesives with Unique Electrical and Thermal Properties, Adv. Mater., 2007, 19, 3844–3849.

78. Qu L.T., Dai L. M., Osawa E., Shape/size-controlled syntheses of metal nanoparticles for site-selective modification of carbon nanotubes, J. Am. Chem. Soc., 2006, 128 (16): 5523–5532.

79. Qu L.T., Dai L. M., Substrate-enhanced electroless deposition of metal nanoparticles on carbon nanotubes, J. Am. Chem. Soc., 2005, 127 (31): 10806–10807.

80. Qu L.T., Shi G. Q., Wu X. F., Fan B., Facile route to silver nanotubes, Adv. Mater., 2004, 16 (14): 1200–1203.