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2021

40.Xu S. C., Wen Y. Y., Chen Z, Ji N. N., Zou Z. G., Wu M. M., Qu L. T., Zhang J.*, “Vertical graphene arrays as electrodes for ultra-high energy density ac line-filtering capacitors” Angewandte Chemie-International Edition, 2021, 60(24). 24505-24509.

39.Sun Y. L., Ma H. Y., Zhang X. Q., Liu B., Liu L. Y., Zhang X., Feng J. Z.*, Zhang Q. N., Ding Y. X., Yang B. J., Qu L. T., Yan X. B.*, “Salty ice electrolyte with superior ionic conductivity towards low-temperature aqueous zinc ion hybrid capacitors”,

38.Deng C. S., Fan X. H., Tao Y. F., Jiao B. Z., Liu Y. C., Qu L. T., Zhao Y., Li X., Xiong W.*, “Femtosecond laser four-dimensional printing based on humidity responsive hydrogels”, Chinese Journal of Lasers, 2021, 48 (2), DOI10.3788/CJL202148.0202016.

37.Wang R. G., Zhang W. C., Jin F., Dong X. Z., Liu J., Qu L. T., Zheng M. L.*, “Fabrication of polyaniline microstructure via two-photon polymerization”, Chinese Journal of Lasers, 2021, 48 (2), 文献号0202006.

36.Zhang Q., Xiao X. F., Zhao G. M., Yang H. J., Cheng H. H., Qu L. T., Xu W. L., Wang X. B.*, “An all-in-one and scalable carbon fibre-based evaporator by using the weaving craft for high-efficiency and stable solar desalination”, Journal Of Materials Ch

35.Long J., Jiao B. Z., Fan X. H., Liu Y. C., Deng L. M., Qu L. T., Xiong W.*, “Femtosecond laser assembly of one-dimensional nanomaterials and their application, Chinese Journal of Lasers, 2021, 48 (2), DOI10.3788/CJL202118.0202017.

34.Chang J., Zhang M., Zhao Q., Qu L. T., Yuan J. Y.*, “Ultratough and ultrastrong graphene oxide hybrid films via a polycationitrile approach”, Nanoscale Horizons, 2021, 6 (4), 341-347.

33.Guo H., Yan J. F.*, Jiang L., Qu L. T., Yin J. G., Lu J. G., “Conductive writing with high precision by laser-induced point-to-line carbonization strategy for flexible supercapacitors”, Advanced Optical Materials, 2021, 9 (24), 文献号2100793.

32.Wang L. F., Zhang N. N., Li Y.*, Kong W. H., Gou J. Y., Zhang Y. J., Wang L. N., Yu G. H., Zhang P., Cheng H. H., Qu L. T.*, “Mechanism of nitrogen-doped ti3c2 quantum dots for free-radical cavenging and the ultrasensitive H2O2 detection performance”,

31.Zhang M., Wang W., Tan L. X., Eriksson M., Wu M. M., Ma H. Y., Wang H., Qu L.T., Yuan J. Y.*, “From wood to thin porous carbon membrane: Ancient materials for modern ultrafast electrochemical capacitors in alternating current line filtering”, Energy St

30.Guo H., Yan J. F.*, Li X., Qu L.T., “Patterned graphene oxide by spatially-shaped femtosecond laser “, Chinese Journal of Lasers, 2021, 48 (2), DOI10.3788/CJL202118.0202018.

29.Li J. Q., Yan J. F.*, Li X., Qu L. T., “Research advancement on ultrafast laser microprocessing of transparent dielectrics”, Chinese Journal of Lasers, 2021, 48 (2), DOI10.3788/CJL202118.0202019.

28.Yu J.C., Yan J. F.*, Li X., Qu L.T., “Progress in ultrafast laser-induced nucleation and crystal growth”, Chinese Journal of Lasers, 2021, 48 (2), DOI10.3788/CJL202148.0202020.

27.Yin Y., Wu C. B., Yu G. H., Wang H. Z., Han Q.*, Qu L.T., “A hierarchical heterojunction polymer aerogel for accelerating charge transfer and separation”, Journal of Materials Chemistry A, 2021, 9(12), 7881-7887.

26.Wang Y., Zhao Y.*, Qu L.T.*, “Laser fabrication of functional micro-supercapacitors”, Journal of Energy Chemistry, 2021, 59，642-665.

25.Bai C.C., Zhang J.H., Gao C., Jin X.T., Li X., Xiong W., Yan J.F., Zhang Z.P., Zhao Y.*, Qu L.T.*, “Planar Micro-Supercapacitor Based on Laser Processing”, Chinese Journal of Lasers, 2021, 0202013.

24.Lu B., Lv L.X., Zhang X.Q., Zhao Y.*, Chen Q., Cheng H.H., Qu L.T.*, “Highly defective, doping-free graphene framework: A rapid one-step formation avenue”, Journal of Power Sources, 2021, 229881.

23.Li Z.L., Yang H.S., Lupi S., Li Y.Y., Sun X.T., Liu X.T., Chen N.*, Cheng H.H., Qu L.T.*, “Custom-Built Graphene Acoustic-Absorbing Aerogel for Audio Signal Recognition”, Advanced Materials Interfaces, 2021, 2100227.

22.Shao C.X., Zhao Y.*, Chen N., Zhu H.W., Wang L., Sun H.B., Qu L.T.*, “Application of Laser Micro-Nano-Fabrication in Sensing Field”, Chinese Journal of Lasers, 2021, 0202014.

21.Gao C., Huang J.C., Xiao Y.K., Zhang G.Q., Dai C.L., Li Z.L., Zhao Y.*, Jiang L., Qu L.T.*, “A seamlessly integrated device of micro-supercapacitor and wireless charging with ultrahigh energy density and capacitance”, Nature Communications, 2021, 2647.

20.Dai C.L., Hu L.Y., Jin X.T., Zhao Y.*, Qu L.T.*, “The Emerging of Aqueous Zinc-Based Dual Electrolytic Batteries”, Small, 2021, 2008043.

19.Huang J., Jiang L.*, Li X.W., Zhou S.P., Gao S., Li P., Huang L.L., Wang K., Qu L.T., “Controllable Photonic Structures on Silicon-on-Insulator Devices Fabricated Using Femtosecond Laser Lithography”, ACS Applied Materials & Interfaces, 2021, 13, 36, 4

18.Dai C.L., Jin X.T., Ma H.Y., Hu L.Y., Sun G.Q., Chen H., Yang Q.J., Xu M.W., Liu Q.W., Xiao Y.K., Zhang XQ., Yang H.S., Guo Q., Zhang Z.P.*, Qu L.T.*, “Maximizing Energy Storage of Flexible Aqueous Batteries through Decoupling Charge Carriers”, Advance

17.Jin X.T., Song L., Yang H.S., Dai C.L., Xiao Y.K., Zhang X.Q., Han Y.Y., Bai C.C., Lu B., Liu Q.W., Zhao Y., Zhang J.T., Zhang Z.P.*, Qu L.T.*, “Stretchable supercapacitor at-30 degrees C”, Energy & Environmental Science, 2021, 14, 5, 3075-3085.

16.Lu B., Jin X.T., Han Q.*, Qu L.T.*, “Planar Graphene-Based Microsupercapacitors”, Small, 2021, 2006827.

15.Dai C.L., Hu L.Y., Jin X.T., Chen H., Zhang X.Q., Zhang S.H., Song L., Ma H.Y., Xu M.W., Zhao Y., Zhang Z.P.*, Cheng H.H., Qu L.T.*, “A Cascade Battery: Coupling Two Sequential Electrochemical Reactions in a Single Battery”, Advanced Materials, 2021, 2

14.Li Y.Y., Chen N.*, Li Z.L., Shao H.B., Sun X.T., Liu F.*, Liu X.T., Guo Q., Qu L.T.*, “Reborn Three-Dimensional Graphene with Ultrahigh Volumetric Desalination Capacity”, Advanced Materials, 2021, 2105853.

13.Guo Q., Liu J.J., Bai C.C., Chen N.*, Qu L.T.*, “2D Silicene Nanosheets for High-Performance Zinc-Ion Hybrid Capacitor Application”, ACS Nano, 2021, 15, 10, 16533–16541.

12.Li X.Y., Wang Y., Zhao Y.*, Zhang J., Qu L.T.*, “Graphene Materials for Miniaturized Energy Harvest and Storage Devices”, Small Structures, 2021, 2100124.

11.Gao K., Sun J.H., Lin X.Y., Li Y.Y., Sun X.T., Chen N.*, Qu L.T.*, “High-performance flexible and integratable MEG devices from sulfonated carbon solid acids containing strong Bronsted acid sites”, Journal of Materials Chemistry A, 2021, 9, 43, 24488-2

10.Wang Z., Li J.Z., Shao C.X., Lin X.Y., Yang Y., Chen N.*, Wang Y., Qu L.T.*, “Moisture power in natural polymeric silk fibroin flexible membrane triggers efficient antibacterial activity of silver nanoparticles”, Nano Energy, 2021, 106529.

9.Wang C.Z., Sun Z., Zhao Y.J.*, Wang B.Y., Shao C.X., Sun C., Zhao Y.*, Li J.B., Jin H.B., Qu L.T.*, “Grain Boundary Design of Solid Electrolyte Actualizing Stable All-Solid-State Sodium Batteries”, Small, 2021, 2103819.

8.Jin X.T., Song L., Dai C.L., Xiao Y.K., Han Y.Y., Zhang X.Q., Li X.Y., Bai C.C., Zhang J.T., Zhao Y., Zhang Z.P.*, Jiang L., Qu L.T.*, “An Aqueous Anti-Freezing and Heat-Tolerant Symmetric Microsupercapacitor with 2.3 V Output Voltage”, Advanced Energy

7.Guo Q., Han Y.Y., Chen N.*, Qu L.T.*, “Few-Layer siloxene as an electrode for superior high-rate zinc Ion hybrid capacitors”, ACS Energy Letters, 2021, 6, 5, 1786–1794.

6.Cheng Z.H., Xiao Y.K., Wu W.P., Zhang X.Q., Fu Q., Zhao Y.*, Qu L.T.*, “All-pH-tolerant in-plane heterostructures for efficient hydrogen evolution reaction”, ACS Nano, 2021, 15, 7, 11417–11427.

5.Huang Y.X., Wang C.Z., Shao C.X., Wang B.Y., Chen N., Jin H.B., Cheng H.H., Qu L.T.*, “Graphene oxide assemblies for sustainable clean-water harvesting and green-electricity generation”, Accounts of Materials Research , 2021,2 (2), 97-107.

4.Yao H.Z., Zhang P.P., Yang C., Liao Q.H., Hao X.Z., Huang Y.X., Zhang M., Wang X.B., Lin T.Y., Cheng H.H., Yuan J.Y., Qu L.T.*, “Janus-interface engineering boosting solar steam towards high-efficiency water collection “, Energy & Environmental Science,

3.Wang H.Y., Sun Y.L., He T.C., Huang Y.X., Cheng H.H., Li C., Xie D., Yang P.F., Zhang Y.F., Qu L.T.*, “Bilayer of polyelectrolyte films for spontaneous power generation in air up to an integrated 1,000 V output”, Nature Nanotechnology, 2021, 16 (7), 811

2.Yang C., Cheng H.H., Qu L.T., “Research advancement on laser micro-nano processing of new energy devices”, Chinese Journal of Lasers, 2021, 48(15), 文献号1502004.

1.Huang Y, X., Cheng H. H.*, Qu L.T.*, “Emerging materials for water-enabled electricity generation”, ACS Materials Letters, 2021,3 (2), 193-209.

2020

33.Qiao M., Yan J. F., Qu L. T., Zhao B. Q., Yin J. G., Cui T. H., Jiang L.*, "Femtosecond Laser Induced Phase Transformation of TiO2 with Exposed Reactive Facets for Improved Photoelectrochemistry Performance". ACS Applied Materials & Interfaces, 2020, 1

32.Shao H., Xu K., Wu Y.-C., Iadecola, A., Liu, L., Ma, H. Y., Qu, L. T., Raymundo-Pinero, E., Zhu, J. X., Lin, Z. F., Taberna, P.-L., Simon, P.*, "Unraveling the charge storage mechanism of ti3c2tx mxene electrode in acidic electrolyte", ACS Energy Lette

31.Pan C. J., Jiang L.*, Sun J. Y, Wang Q. S., Wang F. F., Wang K., Lu Y. F., Wang Y. L., Qu L. T., Cui T. H., "Ultrafast optical response and ablation mechanisms of molybdenum disulfide under intense femtosecond laser irradiation", Light-Science & Applic

30.Geng H. Y., Peng Y., Qu L. T.*, Zhang H. J.*, Wu M. H.*, “Structure design and composition engineering of carbon-based nanomaterials for lithium energy storage”, Advanced Energy Materials, 2020, 10 (10), 1903030.

29.Qiao M., Wang H. M., Lu H. J., Li S., Yan J. F.*, Qu L. T., Zhang Y. Y.*, Jiang L., LuY. F."Micro/nano processing of natural silk fibers with near-field enhanced ultrafast laser." Science China Materials, 2020,63,1300-1309.

28.Yuan Y.J., Jiang L.*, Li X., Zuo P., Xu C.Y., Tian M.Y., Zhang X.Q., Wang S.M., Lu B., Shao C.X., Zhao B.Q., Zhang J.T., Qu L.T., Cui T.H., “Laser photonic-reduction stamping for graphene-based micro-supercapacitors ultrafast fabrication”, Nature Commi

27.Bai C.C., Zhang J.H., Gao C., Zhao Y.*, Qu L.T.*, “Graphene-based microsupercapacitors manufactured by laser dire-ct writing”, Scientia Sinica Chimica, 2020, 50, 1093-1106.

26.Chen L., Wang Y.Z., Wu C.B., Yu G.H., Yin Y., Su C.L., Xie J.J., Han Q.*, Qu L.T., “Synergistic oxygen substitution and heterostructure construction in polymeric semiconductors for efficient water splitting”, Nanoscale, 2020, 12, 25,13484-13490.

25.Zhang X.Q., Gao J., Xiao Y.K., Wang J.Q., Sun G.Q., Zhao Y.*, Qu L.T.*, “Regulation of 2D Graphene Materials for Electrocatalysis”, Chemistry-An Asian Journal, 2020, 15, 15, 2271-2281.

24.Gao C., Chen K.Y., Wang Y., Zhao Y.*, Qu L.T.*, “2D Graphene-Based Macroscopic Assemblies for Micro-Supercapacitors”, Chemsuschem, 2020, 13, 6, 1255-1274.

23.Liu Q.W., Zhang G.F., Chen N.*, Feng X.X., Wang C.Z., Wang J.Q., Jin X.T., Qu L.T.*, “The First Flexible Dual-Ion Microbattery Demonstrates Superior Capacity and Ultrahigh Energy Density: Small and Powerful”, Advanced Functional Materials, 2020, 200208

22.Yang H.S., Jin X.T., Sun G.Q., Li Z.L., Gao J., Lu B., Shao C.X., Zhang X.Q., Dai C.L., Zhang Z.P.*, Chen N., Lupi S., Marcelli A., Qu L.T.*, “Retarding Ostwald Ripening to Directly Cast 3D Porous Graphene Oxide Bulks at Open Ambient Conditions”, ACS N

21.Lu B., Liu F., Sun G.Q., Gao J., Xu T., Xiao Y.K., Shao C.X., Jin X.T., Yang H.S., Zhao Y., Zhang Z.P., Jiang L., Qu L.*,“Compact Assembly and Programmable Integration of Su-percapacitors”, Advanced Materials, 2020, 32，1907005.

20.Duan X.Y., Yu J.Y., Zhu Y.X., Zheng Z.Q., Liao Q.H., Xiao Y.K., Li Y.Y., He Z.P., Zhao Y.*, Wang H.P., Qu L.T., “Large-Scale Spinning Approach to Engineering Knittable Hydrogel Fiber for Soft Robots”, ACS Nano, 2020, 14, 11, 14929-14938.

19.Dai C.L., Sun G.Q., Hu L.Y., Xiao Y.K., Zhang Z.P.*, Qu L.T.*, “Recent progress in graphene-based electrodes for flexible batteries”, Infomat, 2020, 2, 3, 509-526.

18.Gao C., Bai C.C., Gao J., Xiao Y.K., Han Y.Y., Shaista A., Z-hao Y.*, Qu L.T.*, “A directly swallowable and ingestible micro-supercapacitor”, Journal of Materials Chemistry A, 2020, 8, 7, 4055-4061.

17.Guo Q., Chen N.*, Qu L.T.*, “Two-dimensional materials of group-IVA boosting the development of energy storage and conversion”, Carbon Energy, 2020, 2, 1, 54-71.

16.Shao C.X., Zhao Y.*, Qu L.T.*, “Tunable Graphene Systems for Water Desalination”, Chemnanomat, 2020, 6, 7, 1028-1048.

15.Sun G.Q., Xiao Y.K., Lu B., Jin X.T., Yang H.S., Dai C.L., Zhang X.Q., Zhao Y.*, Qu L.T.*, “Hybrid Energy Storage Device: Combination of Zinc-Ion Supercapacitor and Zinc-Air Battery in Mild Electrolyte”, ACS Applied Materials & Interfaces, 2020, 12, 6,

14.Wu C.B., Han Q.*, Qu L.T.*, “Functional group defect design in polymeric carbon nitride for photocatalytic application”, APL Materials, 2020, 120703.

13.Ye M, Jin X, Nan X, Gao J, Qu L.T.*, “Paraffin wax protecting 3D non-dendritic lithium for backside-plated lithium metal anode”, Energy Storage Mater., 2020, 24, 153-159.

12.Wang Y, Xu R, Chen L, Wu C, Qiu L, Windle CD, Han Q*, Qu L.T., “Hierarchical ZnO@Hybrid Carbon Core-Shell Nanowire Array on a Graphene Fiber Microelectrode for Ultrasensitive Detection of 2,4,6-Trinitrotoluene”, ACS Appl. Mater. Interfaces, 2020, 12(7)

11.Liu Q, Sun J, Gao K, Chen N*, Sun X, Ti D, Bai C, Cui R, Qu L.T.*, “Graphene quantum dots for energy storage and conversion: from fabrication to applications”, Mater. Chem. Front., 2020,4, 421-436.

10.Cheng H. W., Wen Y. Y., Qi Y. Y., Zhao Q., Qu L. T., Li C. *, “Pristine titanium carbide mxene films with environmentally stable conductivity and superior mechanical strength”. Advanced Functional Materials,2019, 30(5), 1906996.

9.Cheng H. H., Ma H. Y., Zhang P. P., Wen Y. Y., Qu L. T. , Li C. *, “Pristine titanium carbide mxene hydrogel matrix”, ACS Nano, 2020,14(8), 10471–10479.

8.Zhang P. P., Xu Q., Liao Q. H., Yao H. Z., Wang D. B., Geng H. Y., Cheng H. H., Li C., Ma T. B., Qu L. T. *, “Interface-enhanced distillation beyond tradition based on well-arranged graphene membrane”, Science China Materials, 2020, 63, 1948–1956.

7.Geng H. Y., Lv C. J., Wu M. M., Cheng H. H., Li C., Yuan J. Y. *, Qu L. T. *, "Biomimetic antigravity water transport and remote harvesting powered by sunlight (global challenges 11/2020)", Global Challenges, 2020, 4, 2010111.

6.Zhang P. P., Liao Q. H., Zhang T., Cheng H. H., Huang Y. X., Yang C., Li C., Qu L. T. *, “High throughput of clean water excluding ions, organic media, and bacteria from defect-abundant graphene aerogel under sunlight”, Nano Energy 2018, 46,415-422.

5.Ma H. Y., Chen H. H., Wu M. M., Chi F. Y., Qu L T. "Maximization of spatial charge density: an approach to ultrahigh energy density of capacitive charge storage", Angewandte Chemie International Edition, 2020, 59(34), 14541-14549.

4.Yao H. Z., Zhang P.P., Huang Y.X., Cheng H.H., Li C., Qu L.T.*,“Highly efficient clean water production from contaminated air with a wide humidity range”, Advanced Materials, 2020, 32(6), 1905875.

3.Gao T.T., Xu G.C., Wen Y.Y., Cheng H.H.,Li C.*, Qu L.T.*, “An intelligent film actuator with multi-level deformation behavior”, Nanoscale Horizons, 2020, 5(8), 1226-1232.

2.Wang H.Y., Cheng H.H., Huang Y.X., Yang C., Wang D.B., Li C., Qu L.T.*, “Transparent, self-healing, arbitrary tailorable moist-electric film generator”, Nano Energy, 2020, 67, 104238.

1.Liao Q.H., Zhang P.P., Yao H.Z., Cheng H.H.*, Li C., Qu L.T.*, “Reduced graphene oxide-based spectrally selective absorber with an extremely low thermal emittance and high solar absorptance”, Advanced Science, 2020, 1903125.

2019

27.Zeng J.F., Ding X.T., Chen L.W., Jiao L, Wang Y.Z. ,Windle C.D. , Han Q , Qu L.T.*， “ Ultra-small dispersed CuxO nanoparticles on graphene fibers for miniaturized electrochemical sensor applications”，Rsc Adv., 2019,9(48):28207-28212.

26.Jin X.T., Zhang G.F., Sun G.Q., Yang H.S , Xiao Y.K , Gao J, Zhang Z.P.*, Jiang L, Qu L.T.*, “Flexible and high-performance microsupercapacitors with wide temperature tolerance”，Nano Energy, 2019,64(UNSP 103938).

25.Gao X, Xu T, Shao C.X.,Lu B, Zhang Z.P, Qu L.T.*,“Electric power generation using paper materials”，J Mater. Chem. A, 2019,7(36):20574-20578.

24.Zeng J.F., Xu R.Y., Jiao L, Wang Y.Z. , Chen L.W. , Windle C.D., Ding X.T., Zhang Z.P.,Han Q , Qu L.T. *，“A 3D-graphene fiber electrode embedded with nitrogen-rich-carbon-coated ZIF-67 for the ultrasensitive detection of adrenaline”，J Mater. Chem. B, 2

23.Shao, C.; Ji, B.; Xu, T.; Gao, J.; Gao, X.; Xiao, Y.; Zhao, Y.; Chen, N.; Jiang, L.; Qu, L.*, Large-Scale Production of Flexible, High-Voltage Hydroelectric Films Based on Solid Oxides. ACS Appl. Mater. Interfaces, 2019, 11 (34), 30927-30935.

22.Xu, T.; Zhang, Z.*; Qu, L.*, Graphene‐Based Fibers: Recent Advances in Preparation and Application. Adv. Mater., 2019, 32 (5), 1901979.

21.Gao, J.; Shao, C.; Shao, S.; Bai, C.; Khalil, U. R.; Zhao, Y.*; Jiang, L.; Qu, L.*, Laser-Assisted Multiscale Fabrication of Configuration-Editable Supercapacitors with High Energy Density. ACS nano 2019, 13 (7), 7463-7470.

20.Xu, T., Ding, X., Huang, Y., Shao, C., Song, L., Gao, X., Zhang, Z., Qu, L., An Efficient Polymer Moist-Electric Generator. Energy Environ. Sci. 2019, 12 (3), 972-978.

19.Jin, X., Sun, G., Zhang, G., Yang, H., Xiao, Y., Gao, J., Zhang, Z., Qu, L., A Cross-Linked Polyacrylamide Electrolyte with High Ionic Conductivity for Compressible Supercapacitors with Wide Temperature Tolerance. Nano Res.2019, 12 (5), 1199-1206.

18.Ji, B., Chen, N., Shao, C., Liu, Q., Gao, J., Xu, T., Cheng, H., Qu, L., Intelligent Multiple-Liquid Evaporation Power Generation Platform Using Distinctive Jaboticaba-Like Carbon Nanosphere@Tio2 Nanowires. J Mater. Chem. A 2019, 7 (12), 6766-6772.

17.Han, Y., Zhang, Z., Qu, L., Laser-Induced Structured Biomimetic Surface. Chinese Sci. Bull., 2019, 64 , 1238-1253.

16.Wang J.Q., Xiao Y.K., Cecen V., Shao C.X., Zhao Y.*, Qu L.T.* 2019. “Tunable-Deformed Graphene Layers for Actuation”, Front.Chem., 2019, DOI:10.3389/fchem.2019.00725.

15.Lu B., Liu F., Sun G.Q., Gao J., Xu T., Xiao Y.K., Shao C.X., Jin X.T., Yang H.S., Zhao Y., Zhang Z.P., Jiang L.,Qu L.T.* “Compact Assembly and Programmable Integration of Supercapacitors”, Adv. Mater., 2019,32(6): 1907005.

14.Liang H.X., Liao Q.H., Chen N.*, Liang Y., Lv G.Q.*, Zhang P.P., Lu B., Qu L.T.* “Thermal Efficiency of Solar Steam Generation Approaching 100 % through Capillary Water Transport”, Angew. Chem. Int. Ed., 2019,58(52): 19041-19046.

13.Chen N.*, Liu Q.W., Liu C., Zhang G.F., Jing J., Shao C.X., Han Y.Y., Qu L. T.*“MEG actualized by high-valent metal carrier transport”, Nano Energy,2019, DOI:10.1016/j.nanoen.2019.104047.

12.Yang H.S., Li Z.L., Sun G.Q., Jin X.T., Lu B., Zhang P.P., Lin T.Y., Qu L.T.*, “Superplastic Air-Dryable Graphene Hydrogels for Wet-Press Assembly of Ultrastrong Superelastic Aerogels with Infinite Macroscale”, Adv. Funct. Mater., 2019, 29(26), 1901917

11.Lu B., Lv L.X., Yang H.S., Gao J., Xu T., Sun G.Q., Jin X.T., Shao C.X., Qu L.T.*, Yang J., “High performance broadband acoustic absorption and sound sensing of a bubbled graphene monolith”, J. Mater. Chem. A, 2019, 7(18), 11423-11429.

10.Yu G.H., Han Q., Qu L.T.*, “Graphene Fibers: Advancing Applications in Sensor, Energy Storage and Conversion”, Chinese J. Polym. Sci., 2019, 37(6), 535-547.

9.Chen L.W., Ding X.T., Zeng J.F., Jiao L., Wu C.B., Wang Y.Z., Han Q., Qu L.T.*, “A three-dimensional hollow graphene fiber microelectrode with shrink-effect-enabled enzyme immobilization for sensor applications”, Sci. Bull., 2019, 64(11), 718-722.

8.Yang C., Huang Y.X., Cheng H.H.*, Jiang L., Qu L.T.*, “Rollable stretchable and reconfigurable graphene hygroelectric generators”, Advanced Materials, 2019, 31 (2), 5705.

7.Zhang P.P., Liao Q.H., Yao H.Z., Huang Y.X., Cheng H.H., Qu L.T.*, “Direct solar steam generation system for clean water production”, Energy Storage Materials”, 2019, 18, 429-446.

6.Geng H.Y., Xu Q., Wu M.M., Ma H.Y., Zhang P.P., Gao T.T., Qu L.T.*, Ma T.B.*, Li C.*, “Plant leaves inspired sunlight-driven purifier for high-efficiency clean water production”, Nature Communications, 2019, 10, 1512.

5.Huang Y.X., Cheng H.H.*, Yang C., Yao H.Z., Li C., Qu L.T.*, “All-region-applicable, continuous power supply of graphene oxide composite”, Energy & Environmental Science, 2019, 12 (16), 1848-1856.

4.Wang L.F., Li Y.*, Wang Y.M., Kong W.H., Lu Q.P., Liu X.G., Zhang D.W., Qu L.T., “Chlorine-doped graphene quantum dots with enhanced anti- and pro-oxidant properties”, ACS Applied Materials & Interfaces, 2019, 11 (24), 21822-21829.

3.Wu M.M., Chi F.Y., Geng H.Y., Ma H.Y., Zhang M, Gao T.T., Li C, Qu L.T.*, “Arbitrary waveform AC line filtering applicable to hundreds of volts based on aqueous electrochemical capacitors”, Nature Communications, 2019, 10, 2855.

2.Yao H.Z., Zhang P.P., Huang Y.X., Cheng H.H.*, Li C, Qu L.T.*, “Highly Efficient Clean Water Production from Contaminated Air with a Wide Humidity Range”, Advanced Materials, 2019, 32 (6), 1905875.

1.Bai J.X., Huang Y.X., Cheng H.H.*, Qu L.T.*, “Moist-electric generation”, Nanoscale, 2019, 11 (48), 23083-23091.

2018

33.Cheng Z.H., Fu Q, Han Q, Xiao Y.K., Liang Y, Zhao Y*, and Qu L.T.*, “A Type of 1 nm Molybdenum Carbide Confined within Carbon Nanomesh as Highly Efficient Bifunctional Electrocatalyst”, Adv. Funct. Mater., 2018, 1705976.

32.Wang P.B., Cheng Z.H., Lv G.Q.*, Zhao Y*, and Qu L.T.*, “Coupling interconnected MoO3/WO3 nanosheets with a graphene framework as a highly efficient anode for lithium-ion batteries”, Nanoscale, 2018, 10, 396–402.

31.Li J, Ji B.X., Jiang R, Zhang P.P., Chen N*, Zhang G.F., and Qu L.T.*, “Hierarchical hole-enhanced 3D graphene assembly for highly efficient capacitive deionization”, Carbon, 2018, 129, 95-103.

30.He D, Song L, Lv L.X., Zhang Z.P.*, and Qu L.T.*, “Superelastic air-bubbled graphene foam monoliths as structural buffer for compressible high-capacity anode materials in lithium-ion batteries”, Chemical Engineering Journal, 2018, 331, 704-711.

29.Ye M.H., Zhang Z.P.*, Zhao Y, and Qu L.T.*, “Graphene platforms for smart energy generation and storage”, Joule, 2018, 2, 245–268.

28.Nie X.W., Ji B.X., Chen N*, Liang Y, Han Q, and Qu L.T.*, “Gradient doped polymer nanowire for moistelectric nanogenerator”, Nano Energy, 2018, 46, 297-304.

27.Xu T, Ding X.T., Shao C.X., Song L, Lin T.Y., Gao X, Xue J.L., Zhang Z.P., and Qu L.T.*, “Electric Power Generation through the Direct Interaction of Pristine Graphene-Oxide with Water Molecules”, Small, 2018, 1704473.

26.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, 1706805.

25.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”, Nature Nanotechnology, 2018.

24.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.

23.Han Q*, Cheng Z.H., Wang B, Zhang H.M. * , Qu L.T.*, “Significant Enhancement of Visible-Light-Driven Hydrogen Evolution by Structure Regulation of Carbon Nitrides”, ACS Nano, 2018, 12(6), 5221-5227.

22.Sun G.Q., Jin X.T., Yang H.S., Gao J, Qu L.T. *, “An aqueous Zn-MnO2 rechargeable microbattery”, J. Mater. Chem. A, 2018, 6 (23) ,10926-10931.

21.Ye M.H., Xiao Y.K., Cheng Z.H., Cui L.F., Jiang L, Qu L.T. *, “A smart, anti-piercing and eliminating-dendrite lithium metal battery”, Nano Energy,2018, 49, 403-410.

20.Gao J, Shao C.X., Shao S.X., Wan F, Gao C , Zhao Y, Jiang L, Qu L.T. *, “Laser-Assisted Large-Scale Fabrication of All-Solid-State Asymmetrical Micro-Supercapacitor Array”, Small, 2018, DOI: 10.1002/smll.201801809.

19.Liang Y, Liu F, Deng Y.X., Zhou Q.H., Cheng Z.H., Zhang P.P., Xiao Y.K., Lv L.X., Liang H.X., Han Q*, Shao H.B.* ,Qu L.T.*, “A Cut-Resistant and Highly Restorable Graphene Foam”, Small, 2018, DOI: 10.1002/smll.201801916.

18.Gao C , Gao J, Shao C.X ., Xiao Y.K., Zhao Y*,Qu L.T.*, “Versatile origami micro- supercapacitors array as a wind energy harvester”, J. Mater. Chem. A, 2018, 6(40), 19750-19756.

17.Jin X.T., Sun G.Q., Yang H.S., Zhang G.F., Xiao Y.K., Gao J, Zhang Z.P.*, Qu L.T.*, “A graphene oxide-mediated polyelectrolyte with high ion-conductivity for highly stretchable and self-healing all-solid-state supercapacitors”, J. Mater. Chem. A, 2018,

16.Li C.X., Yu J.Y., Xue S.L., Cheng Z.H., Sun G.Q., Zhang J*, Huang R.D.*, Qu L.T.*, “Wood-inspired multi-channel tubular graphene network for high-performance lithium-sulfur batteries”, Carbon, 2018, 139, 522-530.

15.Shao C.X., Gao J, Xu T, Ji B.X., Xiao Y.K., Gao C, Zhao Y*, Qu L.T.*, “Wearable fiberform hygroelectric generator”, Nano Energy, 2018, 53, 698-705.

14.Yang H.S., Li Z.L., Lu B, Gao J, Jin X.T., Sun G.Q., Zhang G.F., Zhang P.P., Qu L.T.*, “Reconstruction of Inherent Graphene Oxide Liquid Crystals for Large-Scale Fabrication of Structure-Intact Graphene Aerogel Bulk toward Practical Applications”, ACS

13.Bai J.X., Han Q*, Cheng Z.H., Qu L.T.* , “Wall-Mesoporous Graphitic Carbon Nitride Nanotubes for Efficient Photocatalytic Hydrogen Evolution”, Chem. Asian J., 2018, 13(21), 3160-3164.

12.Bai J.X., Lu B.C., Han Q* , Li Q.S.*, Qu L.T.*, “(111) Facets-Oriented Au-Decorated Carbon Nitride Nanoplatelets for Visible-Light-Driven Overall Water Splitting”,ACS Appl. Mater. Interfaces., 2018,10(44), 38066-38072.

11.Sun G.Q., Yang H.S., Zhang G.F., Gao J, Jin X.T. Zhao Y, Jiang L, Qu L.T.*, “A capacity recoverable zinc-ion micro-supercapacitor”,Energy Environ. Sci., 2018, 11(12), 3367-3374.

10.Gao K, Wang B, Tao L, Cunning B.V. , Zhang Z, Wang S*, Ruoff R.S.*, Qu L.T.*, “Efficient Metal-Free Electrocatalysts from N-Doped Carbon Nanomaterials: Mono-Doping and Co-Doping”, Adv. Mater., 2018, DOI: 10.1002/adma.201805121.

9.Xiao Y.K., Cheng H, Zhao Y*, Qu L.T.*, “Highly crumpled nanocarbons as efficient metal-free electrocatalysts for zinc-air batteries”, Nanoscale, 2018, 10 (33), 15706-15713.

8.Cheng H.H., Huang Y.X., Qu L.T., Cheng Q.L.*, Shi G.Q., Jiang L*, Flexible in-plane graphene oxide moisture-electric converter for touchless interactive panel", Nano Energy, 2018, 45, 37-43.

7.Zhang M, Yu X.W., Ma H.Y., Du W.C., Qu L.T., Li C*, Shi G.Q.*, “Robust graphene composite films for multifunctional electrochemical capacitors with an ultrawide range of areal mass loading toward high-rate frequency response and ultrahigh specific capac

6.Zhang P.P., Liao Q.H., Zhang T, Cheng H.H., Huang Y.X., Yang C, Li C, Jiang L, Qu L.T.*, “High throughput of clean water excluding ions, organic media, and bacteria from defect-abundant graphene aerogel under sunlight”, Nano Energy,2018, 46, 415-422.

5.Zhang P.P., Liao Q.H., Yao H.Z., Cheng H.H., Huang Y.X., Yang C, Jiang L, Qu L.T.*, “Three-dimensional water evaporation on a macroporous vertically aligned graphene pillar array under one sun”, Journal of Materials Chemistry A, 2018, 6 (31), 15303-1530

Generic placeholder image 4.Cheng H.H.*, Huang Y.X., Zhao F, Yang C, Zhang P.P., Jiang L, Shi G.Q., Qu L.T.*, “Spontaneous power source in ambient air of a well-directionally reduced graphene oxide bulk”, Energy & Environmental Science, 2018, 11 (10),

3.Huang Y.X., Cheng H.H.*, Yang C, Zhang P.P., Liao Q.H., Yao H.Z., Shi G.Q., Qu L.T.*, “Interface-mediated hygroelectric generator with an output voltage approaching 1.5 volts”, Nature Communications, 2018 9, 4166.

2.Geng H.Y., Zhou K, Zhou J.J., Ma H.Y., Lv C.J., Li C*, Xu Z.P.*, Qu L.T.*, “Sunlight-driven water transport via a reconfigurable pump”, Angewandte Chemie-International Edition, 2018, 57 (47), 15435-15440.

1.Zhang P.P., Liu F, Liao Q.H., Yao H.Z., Geng H.Y., Cheng H.H., Li C, Qu L.T.*, “A microstructured graphene/poly(n-isopropylacrylamide) membrane for intelligent solar water evaporation”, Angewandte Chemie-International Edition, 2018, 57 (50), 16343-16347

2017

21.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.

20.Liang Y, Zhao F, Cheng Z.H., Zhou Q.H., Shao H.B.*, Jiang L, and Qu L.T.*, “Self-powered wearable graphene fiber for information expression”, Nano Energy, 2017, 32, 329-335.

19.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.

18.Han Q, Cheng Z.H., Gao J, Zhao Y*, Zhang Z.P.*, Dai L.M., and Qu L.T.*, “Mesh-on-Mesh Graphitic-C3N4@Graphene for Highly Efficient Hydrogen Evolution”, Adv. Funct. Mater., 2017, 27, 1606352.

17.Zhang P.P., Li J, Lv L.X., Zhao Y, and Qu L.T.*, “Vertically Aligned Graphene Sheets Membrane for Highly Efficient Solar Thermal Generation of Clean Water”, ACS nano, 2017, 11, 5087-5093.

16.Gao J, Xu C.Y., Hu Y, Zhao F, Shao C.X., Zhao Y*, Chen S.L., and Qu L.T.*, “Unusual Assembly and Conversion of Graphene Quantum Dots into Crystalline Graphite Nanocapsules”, Chem. Asian J., 2017, 12, 1272-1276.

15.Gao J, Cheng Z.H., Shao C.X., Zhao Y*, Zhang Z.P., and Qu L.T.*, “2D Free-standing Film-Inspired Electrocatalyst for Highly Efficient Hydrogen Production”, Journal of Materials Chemistry A, 2017, 5, 12027-12033.

14.Li C.X., Li Z.L., Cheng Z.H., Ding X.T., Zhang J.*, Huang R.D.*, Qu L.T.*, “Functional Carbon Nanomesh Clusters”, Adv. Funct. Mater., 2017, 27, 1701514.

13.Cui L.F., Wang, X.P., Chen N*, Ji B.X., Qu L.T. *, “Trash to treasure: converting plastic waste into a useful graphene foil”, Nanoscale, 2017, 9, 9089-9094.

12.Cui L.F., Wang X.P., Chen N*, Zhang G.F., Qu L.T. *, “A versatile graphene foil”, Journal of Materials Chemistry A, 2017, 5, 14508-14513.

11.Cheng Z.H., Gao J, Fu Q, Li C.X., Wang X.P., Xiao Y.K., Zhao Y*, Zhang Z.P., and Qu L.T.*, “Interconnected Molybdenum Carbide-Based Nanoribbons for Highly Efficient and Ultrastable Hydrogen Evolution”, ACS Appl. Mater. Interfaces., 2017, 9 , 24608–2461

10.Lv L.X., Zhang P.P., Xu.T, and Qu L.T.*, “Ultrasensitive Pressure Sensor Based on an Ultralight Sparkling Graphene Block”, ACS Appl. Mater. Interfaces., 2017, 9, 22885-22892.

9.Li J, Zhang G.F., Chen N*, Nie X.W., Ji B.X., and Qu L.T.*, “Built Structure of Ordered Vertically Aligned Codoped Carbon Nanowire Arrays for Supercapacitors”, ACS Appl. Mater. Interfaces., 2017, 9, 24840-24845.

8.Ding X.T., Xu T, Gao J, Qi Y.M., Zhang H.M.* and Qu L.T.*, “Dimensional confinement of graphene in a polypyrrole microbowl for sensor applications”, J. Mater. Chem. B, 2017, 5, 5733-5737.

7.Han Q*, Chen N*, Zhang J, and Qu L.T.*, “Graphene/graphitic carbon nitride hybrids for catalysis”, Materials Horizons, 2017, 4, 832-850.

6.Shao C.X., Xu T, Gao J, Liang Y, Zhao Y*, and Qu L.T.*, “Flexible and Integrated Supercapacitor with Tunable Energy Storage”, Nanoscale, 2017, 9, 12324-12329.

5.Hu C.G., Chen X.Y., Dai Q.B., Wang M, and Qu L.T.*, Dai L.M.*, “Earth-abundant carbon catalysts for renewable generation of clean energy from sunlight and water”, Nano Energy, 2017, 41, 367-376.

4.Ye M.H., Gao J, Xiao Y.K, Xu T, Zhao Y, and Qu L.T.*, “Metal/graphene oxide batteries”, Carbon, 2017, 125, 299-307.

3.Cheng H.H., Huang Y.X., Shi G.Q., Jiang L, Qu L.T.*, “Graphene-Based Functional Architectures: Sheets Regulation and Macrostructure Construction toward Actuators and Power Generators”, Accounts of Chemical Research, 2017, 50 (7), 1663-1671.

2.Huang Y.X., Cheng H.H., Shi G.Q., Qu L.T.*, “Highly Efficient Moisture-Triggered Nanogenerator Based on Graphene Quantum Dots”, ACS Applied Materials & Interfaces, 2017, 9 (44), 38170-38175.

1.Cheng H.H.*, Huang Y.X., Cheng Q.L., Shi G.Q., Jiang L, Qu L.T.*, “Self-Healing Graphene Oxide Based Functional Architectures Triggered by Moisture”, Advanced Functional Materials, 2017, 27 (42), 1703096.

2016

22.Zhang P.P.,Lv L.X.,Cheng Z.H.,Liang Y,Zhou Q.H.,Zhao Y*, and Qu L.T.*, “Superelastic, Macroporous Polystyrene-mediated Graphene Aerogels for Active Pressure Sensing”, Chem-Asian J., 2016, 11,1071-1075.

21.Ye M.H., Hu C.G., Lv L.X., and Qu L.T.*, “Graphene-winged carbon nanotubes as high-performance lithium-ion batteries anode with super-long cycle life”, J. Power Sources, 2016, 305, 106-114.

20.Li J, Huang X.K., Cui L.F., Chen N., and Qu L.T.*, “Preparation and supercapacitor performance of assembled graphene fiber and foam”, Progress in Natural Science: Materials International, 2016, 26(3), 212-220.

19.Li C.X., Cheng Z.H., Gao J, Han Q., Ye M.H., Zhang J.*, Huang R.D.*, and Qu L.T.*, “Oxidation degree of graphene reflected by morphology-tailored ZnO growth”, Carbon, 2016, 107, 583-592.

18.Ye M.H., Li C.X., Zhao Y., Qu L.T.*, “Graphene decorated with bimodal size of carbon polyhedrons for enhanced lithium storage”, Carbon, 2016, 106, 9-19.

17.Cui L.F., Gao J., Xu T., Zhao Y,* and Qu L.T.*, “Polymer/Graphene Hybrids for Advanced Energy-Conversion and -Storage Materials”, Chem-Asian J., 2016, 11, 1151-1168.

16.Zhang P.P., Lv L.X., Liang Y., Li J., Chen H.H., Zhao Y.*, and Qu L.T.*, “A Versatile, Superelastic Polystyrene/Graphene Capsule-like Framework”, Journal of Materials Chemistry A, 2016, 4, 10118-10123.

15.Xu T., Ding X.T., Liang Y., Zhao Y., Chen N., and Qu L.T.*, “Direct spinning of fiber supercapacitor”, Nanoscale, 2016, 8, 12113-12117.

14.Jiang Y., Hu C.G., Cheng H.H., Li C.X., Xu T., Zhao Y.*, Shao H.B.*, and Qu L.T.*, “Spontaneous, Straightforward Fabrication of Partially Reduced Graphene Oxide–Polypyrrole Composite Films for Versatile Actuators”, ACS nano, 2016, 10(4), 4735-4741.

13.Lv L.X., Zhang P.P., Cheng H.H., Zhao Y., Zhang Z.P., Shi G.Q., and Qu L.T.*, “Solution-Processed Ultraelastic and Strong Air-Bubbled Graphene Foams”, Small, 2016, 12(24), 3229-3234.

12.Cheng H.H., Zhao F., Xue J.L., Shi G.Q., Jiang L., and Qu L.T.*, “One Single Graphene Oxide Film for Responsive Actuation”, ACS Nano, September 16, 2016 (Article), DOI: 10.1021/acsnano.6b04769.

11.Han Q, Wang B, Gao J, Cheng Z.H., Zhao Y, Zhang Z.P., and Qu L.T.*, “Atomically Thin Mesoporous Nanomesh of Graphitic C3N4 for High-Efficiency Photocatalytic Hydrogen Evolution”, ACS Nano, 2016, 10 (2), 2745-2751.

10.Dong L.Y., Hu C.G., Song L, Huang X.K., Chen N, and Qu L.T.*, “A large-area, flexible, and flame retardant graphene paper”, Adv. Func. Mater., 2016, 26(9), 1470-1476.

9.Wang X.P., Lv L.X., Cheng Z.H., Gao J, Dong L.Y., Hu C.G., and Qu L.T.*, “High-Density Monolith of N-Doped Holey Graphene for Ultrahigh Volumetric Capacity of Li-Ion Batteries”, Adv. Energy. Mater., 2016, DOI: 10.1002/aenm.201502100.

8.Hu C.G., Xue J.L., Dong L.Y., Jiang Y, Wang X.P., Qu L.T.*, and Dai L.M.*, “Scalable Preparation of Multifunctional Fire-Retardant Ultralight Graphene Foams”, ACS Nano, 2016, 10 (1), 1325-1332.

7.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.

6.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.

5.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.

4.Ye M.H., Cheng H.H., Gao J, Li C.X., Qu L.T.*, “A respiration-detective graphene oxide/lithium battery”, Journal of Materials Chemistry A, 2016, 4, 19154-19159.

3.Cheng Z.H., Fu Q, Li C.X., Wang X.P., Gao J, Ye M.H., Zhao Y*, Dong L.J., Luo H.X., Qu L.T.*,“Controllable localization of carbon nanotubes on the holey edge of graphene: an efficient oxygen reduction electrocatalyst for Zn-air batteries ”, Journal of M

2.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.

1.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.

2015

22.Wang L.X., Zhao F, Han Q, Hu C.G., Lv L.X., Chen N and Qu L.T.*, “Spontaneous formation of Cu2O–g-C3N4 core–shell nanowires for photocurrent and humidity responses”, Nanoscale, 2015, 7, 9694–9702.

21.Li K, Jiang J.Y., Dong Z.L., Luo H.X.*, Qu L.T.*, “ Linear Graphene Edge Nanoelectrode”, Chem. Commun., 2015, 51, 8765–8768.

20.Han Q, Zhao F, Hu C.G., Lv L.X., Zhang Z.P.*, Chen N, Qu L.T.*, “Facile production of ultrathin graphitic carbon nitride nanoplatelets for efficient visible-light water splitting”, Nano Research,2015, 8(5), 1718–1728.

19.Chen Q, Zhao Y, Huang X.K., Chen N*, and Qu L.T.*, “Three-Dimensional Graphitic Carbon Nitride Functionalized Graphene-Based High-Performance Supercapacitors”, Journal of Materials Chemistry A, 2015, 3, 6761–6766.

18.Hu C.G., Han Q, Zhao F, Yuan Z.Y., Chen N and Qu L.T.*, “Graphitic C3N4-Pt nanohybrids supported on a graphene network for highly efficient methanol oxidation”, SCIENCE CHINA Materials, 2015, 58, 21–27.

17.Xu C.Y., Han Q, Zhao Y*, Wang L.X., Li Y, and Qu L.T.*,” Sulfur doped Graphitic Carbon Nitride Decorated with Graphene Quantum Dots for Efficient Metal-free Electrocatalyst”, Journal of Materials Chemistry A, 2015, 3, 1841–1846.

16.Liang Y, Wang Z*, Huang J, Cheng H.H., Zhao F, Hu Y, Jiang L, and Qu L.T.*, “Series of In-Fiber Graphene Supercapacitors for Flexible Wearable Devices”,Journal of Materials Chemistry A, 2015, 3, 2547–2551.

15.Wang X.P., Wang L.X., Zhao F, Hu C.G., Zhao Y, Zhang Z.P.,* Chen S.L.,* Shi G.Q. and Qu L.T.*, “Monoatomic-thick Graphitic Carbon Nitride Dots on Graphene Sheets as An Efficient Catalyst in Oxygen Reduction Reaction”, Nanoscale, 2015, 7, 3035–3042.

14.Han Q, Hu C.G., Zhao F, Zhang Z.P.,* Chen N and Qu L.T.*, “One-step Preparation of Iodine-doped Graphitic Carbon Nitride Nanosheets as Efficient Photocatalysts for Visible Light Water Splitting”, Journal of Materials Chemistry A, 2015, 3, 4612–4619.

13.Zhao Y*, Zhang J, and Qu L.T.*, “Graphitic Carbon Nitride/Graphene Hybrids as New Active Materials for Energy Conversion and Storage”, Chem. Nano. Mat., 2015, 1(5), 298–318.

12.Zhao F, Li Z, Wang L.X., Hu C.G., Zhang Z. P.*, Li C*, and Qu L.T.*, “Supramolecular Quantum Dots as Biodegradable Nano-Probes for Upconversion-Enabled Bioimaging”, Chem. Commun., 2015, 51(67), 13201–13204.

11.Hu C.G., Lv L.X., Xue J.L., Ye M.H., Wang L.X., and Qu L.T.*, “Branched Graphene Nanocapsules for Anode Material of Lithium-Ion Batteries”, Chem. Mater., 2015, 27 (15), 5253–5260.

10.Chen N*, Huang X.K., and Qu L.T.*, “Heteroatoms Substituted and Decorated Graphene: Preparation and Applications”, Phys. Chem. Chem. Phys.,2015, 17(48), 32077–32098.

9.Zhao F, Zhao Y, Chen N, and Qu L.T. *, “Stimuli-deformable Graphene Materials: from Nanosheet to Macroscopic Assembly”, Mater. Today, 2015, DOI:10.1016/j.mattod.2015.10.010.

8.Xue J.L., Hu C.G., Lv L.X., Dai L.M.*, and Qu L.T.*, “Re-shaping Graphene Hydrogels for Effectively Enhancing Actuation Responses”, Nanoscale, 2015, 7(29), 12372–12378.

7.Dong L.Y., Hu C.G., Huang X.K., Chen N*, and Qu L.T.*, “One-pot Synthesis of Nitrogen and Phosphorus Co-doped Graphene and Its Use as High-performance Electrocatalyst for Oxygen Reduction Reaction”, Chem-Asian J., 2015, 10(12), 2609–2614.

6.Chen L.L., Liu Y, Zhao Y*, Chen N, and Qu L.T.*, “Graphene-based Fibers for Supercapacitor Applications”, Nanotechnology, 2015, 27(3), 032001.

5.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.

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

3.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.

2.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.

1.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.

2014

22.Li C.X., Hu C.G., Zhao Y, Song L, Zhang J*, Huang R.D.*, and Qu L.T.*, “Decoration of graphene network with metal–organic frameworks for enhanced electrochemical capacitive behavior”, Carbon, 2014, 78, 231–242.

21.Gao S.Y.*, Chen Y.L., Fan H, Wei X.J., Hu C.G., Wang L.X., and Qu L.T.*, “A Green One-arrow-two-hawks Strategy for Nitrogen-Doped Carbon Dots as Fluorescent Ink and Oxygen Reduction Electrocatalyst”, J. Mater. Chem. A, 2014, 2, 6320–6325.

20.Gao S.Y.*, Chen Y.L., Fan H, Wei X.J., Hu C.G., Luo H.X., and Qu L.T.*, “Large scale production of biomass-derived N-doped porous carbon spheres for oxygen reduction and supercapacitors”, J. Mater. Chem. A, 2014, 2, 3317–3324. (Cover page).

19.Hu C.G., Wang L.X., Zhao Y, Ye M.H., Chen Q, Feng Z.H., and Qu L.T.*, “Designing Nitrogen-Enriched Echinus-like Carbon Capsules for Highly Efficient Oxygen Reduction Reaction and Lithium Ion Storage”, Nanoscale, 2014, 6(14), 8002–8009.

18.Ding X.T.,? ZhaoY,? Hu C.G., Hu Y, Dong Z.L., Chen N, Zhang Z.P. and Qu L.T.*, “Spinning fabrication of graphene/polypyrrole composite fibers for all-solid-state, flexible fibriform Supercapacitors”, J. Mater. Chem. A, 2014, 2(31), 12355–12360.

17.Wang L.X., Hu C.G., Zhao Y., Hu Y., Zhao F., Chen N., and Qu L.T.*, “A dually spontaneous reduction and assembly strategy for hybrid capsules of graphene quantum dots with platinum-copper nanoparticles for enhanced oxygen reduction reaction”,Carbon, 20

16.Lv L.X., Fan Y.Q., Chen Q, Zhao Y, Hu Y, Zhang Z.P.*, Chen N and Qu L.T.*, “Three-dimensional multichannel aerogel of carbon quantum dots for high-performance supercapacitors”, Nanotechnology , 2014, 25, 235401 (9pp).

15.Hu Y, Cheng H.H., Zhao F, Chen N, Jiang L, Feng Z.H., and Qu L.T.*, “All-in-One Graphene Fiber Supercapacitor”, Nanoscale, 2014, 6, 6448–6451.

14.Chen Q., Meng Y.N., Hu C.G., Zhao Y., Shao H.B.*, Chen N., Qu L.T.*, “MnO2-Modified Hierarchical Graphene Fiber Electrochemical Supercapacitor”, J. Power Sources, 2014, 247, 32–39.

13.Hu C.G., Zhai X.Q., Zhao Y, Bian K, Zhang J, Qu L.T.*, Zhang H.M.*, and Luo H.X.*, “Small-sized PdCu nanocapsules on 3D graphene for high-performance ethanol oxidation”, Nanoscale, 2014, 6(5), 2768–2775.

12.Zhang J, Zhang Z.P.*, Chen N, and Qu L.T.*, “Environmentally responsive graphene systems”, Small, 2014, 10(11), 2151–2164. (Review)

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

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

9.Chen Q, Hu Y, Hu C.G., Cheng H.H., Zhang Z.P.,* Shao H.B., and Qu L.T.*, “Graphene Quantum Dots/Three-Dimensional Graphene Composites for High-Performance Supercapacitors”, Phys. Chem. Chem. Phys., 2014, 16 (36), 19307–19313.

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

7.Ye M.H., Dong Z.L., Hu C.G., Cheng H.H., Shao H.B., Chen N, and Qu L.T.*, “Uniquely Arranged Graphene-on-Graphene Structure as a Binder-Free Anode for High-Performance Lithium Ion Batteries”, Small, 2014, 10(24), 5035–5041.

6.Cheng H.H., Liang Y, Zhao F, Hu Y, Dong Z.L., Jiang L, and Qu L.T.*, “Functional Graphene Springs for Responsive Actuation”, Nanoscale, 2014, 6(19), 11052–11056.

5.Cheng H.H., Hu C.G., Zhao Y and Qu L.T.*, “Graphene fiber: a new material platform for unique applications”, NPG Asia Materials, 2014, 6(7), e113; DOI: 10.1038/am.2014.48. (Review).

4.Zhao F, Cheng H.H., Hu Y, Song L, Zhang Z.P., Jiang L, and Qu L.T.*, “Functionalized Graphitic Carbon Nitride for Metal-free, Flexible and Rewritable Nonvolatile Memory Device via Direct Laser-Writing”, Sci. Rep. 2014, 4, 5882; DOI:10.1038/srep05882.

3.Yan J, Ding Y, Hu C.G., Cheng H.H., Chen N,* Feng Z.H., Zhang Z.P., and Qu L.T.*, “Preparation of Multifunctional Microchannel-Network Graphene Foams”, J. Mater. Chem. A, 2014, 2 (39), 16786–16792.

2.Chen N, Hu Y, Zhao Y, Qu L.T.*, “Progress in Controllable Preparation and Electrochemical Applications of Graphene/Poly (pyrrole) Composites”, Acta Polymerica Sinica, 2014, (6), 752–760.

1.Zhao Y, Zhao F, Wang X.P., Xu 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.

101.Wu X.F., Shi G.Q., Qu L.T., Chen F.E., Hong X.Y., “A novel route to poly(2-methoxy-5-(2 ‘-ethyl-hexyloxy)-p-phenylene)”, Acta Polym. Sin., 2003, (1), 147–149.

100.Wu X.F., Shi G.Q., Qu L.T., Zhang J.X., Chen F.E., “Novel route to poly (p-phenylene vinylene) polymers”, J. Polym. Sci. A Polym. Chem., 2003, 41(3), 449–455.

99.Chen F., Shi G.Q., Fu M.X., Qu L.T., Hong X.Y., “Raman spectroscopic evidence of thickness dependence of the doping level of electrochemically deposited polypyrrole film”, Synth. Met., 2003, 132(2), 125–132.

98.Huang Z.M., Shi G.Q., Qu L.T., Hong X.Y., “Electrochemical polymerization of beta-naphthalene sulfonic acid in the mixed electrolyte of boron trifluoride diethyl etherate and trifluoroacetic acid”, J. Electroanalyt. Chem., 2003, 544, 41–46.

97.Xu J.K., Shi G.Q., Qu L.T., Zhang J.X., “Electrosyntheses of high quality polypyrrole films in isopropyl alcohol solution of boron trifluoride diethyl etherate”, Synth. Met., 2003, 135(1-3), 221–222.

96.Zhang J.X., Shi G.Q., Liu C., Qu L.T., Fu M.X., Chen F.E., “Electrochemical fabrication of polythiophene film coated metallic nanowire arrays”, J. Mater. Sci., 2003, 38(11), 2423-2427.

95.Liu C., Zhang J.X., Shi G.Q., Qu L.T., Chen F.E., “Proton-conducting gel polyelectrolytes based on Lewis acid”, J. Appl. Polym. Sci., 2003, 90(5), 1267–1272.

94.Yuan J.Y., Qu L.T., Shi G.Q., Hong X.Y., “Novel polypyrrole microstructures generated by direct electrochemical oxidation of pyrrole on p-type silicon substrate”, Chin. J. Polym. Sci., 2003, 21(4), 399–403.

93.Qu L.T., Sun S.Q., Liu C., Chen F.E., Hong X.Y., Shi G.Q., “Environmental stability of the polyene prepared by dehydrochlorination of poly(vinyl chloride)”, Chin. J. Polym. Sci., 2003, 21(1), 71–75.

92.Qu L.T., Shi G.Q., Chen F.E., Zhang J.X., Fu M.X., Sun S.Q., “High-quality polyene prepared by liquid/solid two-phase dehydrochlorination of poly(vinyl chloride)”, Synth. Met., 2003, 135(1–3), 219–220.

91.Huang Z.M., Qu L.T., Shi G.Q., Chen F., Hong X.Y., “Electrochemical polymerization of naphthalene in the electrolyte of boron trifluoride diethyl etherate containing trifluoroacetic acid and polyethylene glycol oligomer”, J. Electroanalyt. Chem., 2003,

90.Zhang Z.P., Qu L.T., Shi G.Q., “Fabrication of highly hydrophobic surfaces of conductive polythiophene”, J. Mater. Chem., 2003, 13(12), 2858–2860.

89.Qu L.T., Shi G.Q., Chen F., Zhang J.X., “Electrochemical growth of polypyrrole microcontainers”, Macromolecules, 2003, 36(4), 1063–1067.

88.Qu L.T., Shi G.Q., “Electrochemical synthesis of novel polypyrrole microstructures”, Chem. Commun., 2003, (2), 206–207.

87.Yuan J.Y., Qu L.T., Zhang D.Q., Shi G.Q., “Linear arrangements of polypyrrole microcontainers”, Chem. Commun., 2004, (8), 994–995.

86.Zhang Z.P., Shi G.Q., Wu X.F., Qu L.T., “Electropolymerization of 2-phenylthiophene”, Acta. Polym. Sin., 2004, (1), 140–144.

85.Li E.H., Huang Z.M., Shi G.Q., Qu L.T., Zhang J.X., “Electrochemical polymerization of beta-naphthalene sulfonic acid”, J. Appl. Polym. Sci., 2004, 92(3), 1939–1944.

84.Han G.Y., Shi G.Q., Qu L.T., Yuan J.Y., Chen F.E., Wu P.Y., “Electrochemical polymerization of chiral pyrrole derivatives in electrolytes containing chiral camphor sulfonic acid”, Polym. Int., 2004, 53(10), 1554–1560.

83.Yuan J.Y., Zhang D.Q., Qu L.T., Shi G.Q., Hong X.Y., “Direct electrochemical generation of conducting polymer microcontainers on silicon substrate”, Polym. Int., 2004, 53(12), 2125–2129.

82.Qu L.T., Shi G.Q., Yuan J.Y., Han G.Y., Chen F., “Preparation of polypyrrole microstructures by direct electrochemical oxidation of pyrrole in an aqueous solution of camphorsulfonic acid”, J. Electroanalyt. Chem., 2004, 561(1–2), 149–156.

81.Qu L.T., Shi G.Q., “Hollow microstructures of polypyrrole doped by poly(styrene sulfonic acid)”, J. Polym. Sci. A Polym Chem., 2004, 42(13), 3170–3177.

80.Qu L.T., Shi G.Q., “Crystalline oligopyrene nanowires with multicolored emission”, Chem. Commun., 2004, (24), 2800–2801.

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

78.Qu L.T., Shi G.Q., Liu C., Yuan J.Y., Qian W.B., “Preparation, characterization and electrochemical properties of polypyrrole-polystyrene sulfonic acid composite film”, Chin. J. Polym. Sci., 2005, 23(1), 37–46.

77.Lu G.W., Chen F., Wu W.F., Qu L.T., Zhang J.X., Shi G.Q., “Micro- and nano-structured conducting polymeric materials”, Chin. Sci. Bull., 2005, 50(16), 1673–1682.

76.Fan B., Qu L.T., Shi G.Q., “Electrochemical polymerization of anthracene in boron trifluoride diethyl etherate”, J. Electroanalyt. Chem., 2005, 575(2), 287–292.

75.Lu G.W., Qu L.T., Shi G.Q., “Electrochemical fabrication of neuron-type networks based on crystalline oligopyrene nanosheets”, Electrochim. Acta, 2005, 51(2), 340–346.

74.Ma M.M., Qu L.T., Shi G.Q., “Glucose oxidase electrodes based on microstructured polypyrrole films”, J. Appl. Polym. Sci., 2005, 98(6), 2550–2554.

73.Qu L.T., Dai L.M., “Novel silver nanostructures from silver mirror reaction on reactive substrates”, J. Phys. Chem. B, 2005, 109(29), 13985–13990.

72.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.

71.Singh U., Prakash V., Abramson A.R., Chen W., Qu L.T., Dai L.M., “Mechanical characterization device for in situ measurement of nanomechanical properties of micro/nanostructures”, Appl. Phys. Lett., 2006, 89 (7), 073103 (1–3).

70.Hong Z.M., Shi G.Q., Wu X.F., Qu L.T., “Fabrication of highly hydrophobic films of poly(3-hexadecyl pyrrole) nanoparticles by Langmuir-Blodgett technique”, Chin. J. Polymer Sci., 2006, 24 (5), 457–462.

69.Qu L.T., Zhao Y., Dai L.M., “Carbon microfibers sheathed with aligned carbon nanotubes: Towards multidimensional, multicomponent, and multifunctional nanomaterials”, Small, 2006, 2(8–9), 1052–1059.

68.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.

67.Zhou X.L., El Khoury J.M., Qu L.T., Dai L.M., Li Q., “A facile synthesis of aliphatic thiol surfactant with tunable length as a stabilizer of gold nanoparticles in organic solvents”, J. Colloid & Interface Sci., 2007, 308(2), 381–384.

66.Qu L.T., Chen W., Dai L.M., Roy A., Tolle T.B., “Polymer and aligned carbon nanotube nanocomposites and nanodeives”, SAMPE Journal, 2007, 43(6), 38–46.

65.Yang J., Qu L.T., Zhao Y., Zhang Q., Dai, L.M., Baur J.W., Maruyama B., Vaia R.A., Shin E., Murray P.T., Luo H.X., Guo Z.X., “Multicomponent and multidimensional carbon nanotube micropatterns by dry contact transfer”, J. Nanosci. Nanotech., 2007, 7(4–5

64.Yang Y., Qu L.T., Dai L.M., Kang T.S., Durstock M., “Electrophoresis coating of titanium oxide on aligned carbon nanotubes for controlled syntheses of photoelectronic nanomaterials”, Adv. Mater., 2007, 19(9), 1239–1243.

63.Qu L.T., Dai L.M., “Direct growth of three-dimensional multicomponent micropatterns of vertically aligned single-walled carbon nanotubes interposed with their multi-walled counterparts on Al-activated iron substrates”, J. Mater. Chem., 2007, 17(32), 34

62.Qu L.T., Dai L.M., “Polymer-masking for controlled functionalization of carbon nanotubes”, Chem. Commun., 2007, (37), 3859–3861.

61.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(22), 3844–3849.

60.Chen W., Qu L.T., Chang D.W., Dai L.M., Ganguli S., Roy A., “Vertically-aligned carbon nanotubes infiltrated with temperature-responsive polymers: smart nanocomposite films for self-cleaning and controlled release”, Chem. Commun., 2008, (2), 163–165.

59.Wang H.X., Fang J., Cheng T., Ding J., Qu L.T., Dai L.M., Wang X., Lin T., “One-step coating of fluoro-containing silica nanoparticles for universal generation of surface superhydrophobicity”, Chem. Commun., 2008, (7), 877–879.

58.Bhushan B., Galasso B., Bignardi C., Nguyen C.V., Dai L.M., Qu L.T., “Adhesion, friction and wear on the nanoscale of MWNT tips and SWNT and MWNT arrays”, Nanotechnology, 2008, 19(12), 125702 (1–10).

57.Sihn S., Ganguli S., Roy A., Qu L.T., Dai L.M., “Enhancement of through-thickness thermal conductivity in adhesively bonded joints using aligned carbon nanotubes”, Composites Science and Technology, 2008, 68(3–4), 658–665.

56.Bergeson J.D., Etzkorn S.J., Murphey M.B., Qu L.T., Yang J.B., Dai L.M., Epstein A.J. “Iron nanoparticle driven spin-valve behavior in aligned carbon nanotube arrays”, Appl. Phys. Lett., 2008, 93(17), 172505 (1–3).

55.Heltzel A.J., Qu L.T., Dai L.M., “Optoelectronic property modeling of carbon nanotubes grafted with gold nanoparticles”, Nanotechnology, 2008, 19(24), 245702 (1–8).

54.Qu L.T., Peng Q., Dai L.M., Spinks G.M., Wallace G.G., Baughman R.H., “Carbon nanotube eaps: opportunities and challenges”, MRS Bulletin, 2008, 33(3), 215–224.

53.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(9), 2682–2687.

52.Peng Q., Qu L.T., Dai L.M., Park K., Vaia R., “Asymmetrically charged carbon nanotubes by controlled functionalization”, ACS Nano, 2008, 2(9), 1833–1840.

51.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(5899), 238–242.

50.El Khoury J.M., Zhou X.L., Qu L.T., Dai L.M., Urbas A., Li Q., “Organo-soluble photoresponsive azo thiol monolayer-protected gold nanorods”, Chem. Commun., 2009, (16), 2109–2111.

49.Lu W., Qu L.T., Henry K., Dai L.M., “High performance electrochemical capacitors from aligned carbon nanotube electrodes and ionic liquid electrolytes”, J. Power Sources, 2009, 189(2), 1270–1277.

48.Ganguli S., Sihn S., Roy A.K., Dai L.M., Qu L.T., “Metalized nanotube tips improve through thickness thermal conductivity in adhesive joints”, J. Nanosci. Nanotech., 2009, 9(3), 1727–1733.

47.Patton S.T., Zhang Q.H., Qu L.T., Dai L.M., Voevodin A.A., Baur J., “Electromechanical characterization of carbon nanotubes grown on carbon fiber”, J. Appl. Phy., 2009, 106(10), 104313(1–9).

46.Murphey M.B., Bergeson J.D., Etzkorn S.J., Qu L.T., Li L., Dai L.M., Epstein A.J., “Spin-valve behavior in porous alumina-embedded carbon nanotube array with cobalt nanoparticle spin injectors”, Synth. Met., 2010, 160(3), 235–237.

45.Qu L.T.*, Zhao Y., Hu Y., Zhang H., Li Y., Guo W., Luo H.X. Dai L.M.*, “Controlled removal of individual carbon nanotubes from vertically aligned arrays for advanced nanoelectrodes”, J. Mater. Chem., 2010, 20(18), 3595–3599.

44.Qu L.T.*, Zhang H., Zhu J., Dai L.M.*, “Tunable assembly of carbon nanospheres on single-walled carbon nanotubes”, Nanotechnology, 2010, 21(30), 305602(1–8).

43.Li Y., Zhou C., Xie X.J., Shi G.Q. Qu L.T.*, “Spontaneous, catalyst-free formation of nitrogen-doped graphitic carbon nanocages”. Carbon, 2010, 48(14), 4190–4196.

42.Zhao Y., Hu Y., Li Y., Zhang H., Zhang S.W., Qu L.T.*, Shi G.Q., Dai L.M.*, “Super-long aligned TiO2/carbon nanotube arrays”, Nanotechnology, 2010, 21(50), 505702(1–7).

41.Qu L.T., Liu Y., Baek J.B., Dai L.M., “Nitrogen-doped graphene as efficient metal-free electrocatalyst for oxygen reduction in fuel cells”, ACS Nano, 2010, 4 (3), 1321–1326.

40.Xie X.J., Qu L.T.*, Zhou C., Li Y., Zhu J., Bai H., Shi G.Q.*, Dai L.M.*, “An asymmetrically surface-modified graphene film electrochemical actuator”, ACS Nano, 2010, 4(10), 6050–6054.

39.Welna D.T., Qu L.T., Taylor B.E., Dai L.M., Durstock M.F., “Vertically aligned carbon nanotube electrodes for lithium-ion batteries”, J. Power Sources, 2011, 196(3), 1455–1460.

38.Lu W., Hartman R., Qu L.T., Dai L.M., “Nanocomposite electrodes for high-performance supercapacitors”, J. Phys. Chem. Lett., 2011, 2(6), 655–660.

37.Yang W.Y., Qu L.T., Zheng R.K., Liu Z.W., Ratinac K.R., Shen L., Yu D.S., Yang L., Barrow C.J., Ringer S.P., Dai L.M., Braet F., “Self-assembly of gold nanowires along carbon nanotubes for ultrahigh-aspect-ratio hybrids”, Chem. Mater., 2011, 23(11), 27

36.Du F., Qu L.T., Xia Z.H., Feng L.F., Dai L.M., “Membranes of vertically aligned superlong carbon nanotubes”, Langmuir, 2011, 27(13), 8437–8443.

35.Ye Y.M., Mao Y., Wang F., Lu H.B., Qu L.T., Dai L.M., “Solvent-free functionalization and transfer of aligned carbon nanotubes with vapor-deposited polymer nanocoatings”, J. Mater. Chem., 2011, 21(3), 837–842.

34.Zhao Y., Bai H., Hu Y., Li Y., Qu L.T.*, Zhang S.W., Shi G.Q.,* “Electrochemical deposition of polyaniline nanosheets mediated by sulfonated polyaniline functionalized graphenes”, J. Mater. Chem., 2011, 21(36), 13978–13983.

33.Xie X.J., Bai H., Shi G.Q., Qu L.T.*, “Load-tolerant, highly strain-responsive graphene sheets”, J. Mater. Chem., 2011, 21(7) 2057–2059.

32.Qu L.T.*, Vaia R.A., Dai L.M.*, “Multilevel, multicomponent microarchitectures of vertically-aligned carbon nanotubes for diverse applications”, ACS Nano, 2011, 5(2), 994–1002.

31.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(6), 776–780.

30.Hu Y., Zhao Y., Li Y., Xie X.J., Li H., Dai L.M., Qu L.T.*, “Electrochemical Introduction of Active Sites into Super-long Carbon Nanotubes for Enhanced Capacitance”, Chem. Res. Chin. Univ., 2012, 28(2), 302–307.

29.Wang X., Bai H., Jia Y., Zhi L.J., Qu L.T., Xu Y.X., Li C., Shi G.Q., “Synthesis of CaCO3/graphene composite crystals for ultra-strong structural materials”, RSC Adv., 2012, 2(5), 2154–2160.

28.Fan Y.Q., Cheng H., Zhou C., Xie X.J., Liu Y., Dai L.M., Zhang J., Qu L.T.*, “Honeycomb architecture of carbon quantum dots: a new efficient substrate to support gold for stronger SERS”, Nanoscale, 2012, 4 (5), 1776–1781.

27.Liu J., Wang Z.,* Xie X.J., Cheng H., Zhao Y., Qu L.T.*, “A rationally-designed synergetic polypyrrole/graphene bilayer actuator”, J. Mater. Chem., 2012, 22(9), 4015–4020.

26.Hu Y., Zhao Y., Li Y., Li H., Shao H.B., Qu L.T.*, “Defective super-long carbon nanotubes and polypyrrole composite for high-performance supercapacitor electrodes”, Electrochim. Acta, 2012, 66, 279–286.

25.Zhang L.L., Cheng H., Zhang H.M.*, Qu L.T.*, “Direct electrochemistry and electrocatalysis of horseradish peroxidase immobilized in graphene oxide–Nafion nanocomposite film”, Electrochim. Acta, 2012, 65, 122–126.

24.Cheng H., Zhao Y., Fan Y.Q., Xie X.J., Qu L.T.*, Shi G.Q.*, “Graphene-quantum-dot assembled nanotubes: a new platform for efficient Raman enhancement”, ACS Nano, 2012, 6(3), 2237–2244.

23.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.

22.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.

21.Ding Y., Cheng H.H., Zhou C., Fan Y.Q., Zhu J., Shao H.B., Qu L.T.*, “Functional microspheres of graphene quantum dots”, Nanotechnology, 2012, 23(25), 255605 (7pp).

20.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.

19.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(10), 8869–8890. (Review).

18.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.

17.Liu J., Wang Z., Zhao Y., Cheng H.H., Hu C.G., Jiang L., Qu L.T.*, “Three-dimensional Graphene/polypyrrole Hybrid Electrochemical Actuator”, Nanoscale, 2012, 4(23), 7563–7568.

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

15.Hu C.G., Zhao Y., Cheng H.H., Hu Y., Shi G.Q., Dai L.M., Qu L.T.*, “Ternary Pd2/PtFe networks supported by 3D graphene for efficient and durable electrooxidation of formic acid”, Chem. Commun., 2012, 48(97), 11865–11867.

14.Wang Y.H., Bian K., Hu C.G., Zhang Z.P.*, Chen N., Zhang H.M., Qu L.T.*, “Flexible and Wearable Graphene/Polypyrrole Fibers towards Multifunctional Actuator Applications”, Electrochem. Commun., 2013, 35, 49–52.

13.Dong Z.L., Zhou C., Cheng H.H., Zhao Y., Hu C.G., Chen N., Zhang Z.P., Luo H.X., Qu L.T.*, “Carbon nanotube-nanopipe composite vertical arrays for enhanced electrochemical capacitance”, Carbon, 2013, 64, 507–515.

12.Hu C.G., Mou Z.Y., Lu G.W., Chen N.*, Dong Z.L., Hu M.J., Qu L.T.*, “3D Graphene-Fe3O4Nanocomposites with High-Performance Microwave Absorption”, Phys. Chem. Chem. Phys., 2013, 15(31), 13038–13043.

11.Hu Y, Zhao Y, Lu G.W., Chen N, Zhang Z.P.*, Li H, Shao H.B. and Qu L.T.*, “Graphene quantum dots-carbon nanotube hybrid arrays for supercapacitors”, Nanotechnology, 2013, 24(19), 195401–195407.

10.Xue J.L., Zhao Y, Cheng H.H., Hu C.G., Hu Y, Meng Y.N., Shao H.B., Zhang Z.P. and Qu L.T.*, “An all-cotton-derived, arbitrarily foldable, high-rate, electrochemical supercapacitor”, Phys. Chem. Chem. Phys., 2013, 15(21), 8042–8045.

9.Cheng H.H., Dong Z.L., Hu C.G., Zhao Y., Hu Y., Qu L.T.*, Chen N., Dai L.M.*, “Textile Electrodes Woven by Carbon Nanotube/Graphene Hybrid Fibers for Flexible Electrochemical Capacitors”, Nanoscale, 2013, 5(8), 3428–3434.

8.Zhang J., Zhao F., Zhang Z.P.*, Chen N., Qu L.T.*, “Dimension-tailored Functional Graphene Structures for Energy Conversion and Storage”, Nanoscale, 2013, 5(8), 3112–3126. (Review).

7.Hu C.G., Xiao Y., Zhao Y., Chen N., Zhang Z.P., Cao M.H., Qu L.T.*, “Highly Nitrogen-Doped Carbon Capsules: Scalable Preparation and High-Performance Applications in Fuel Cells and Lithium Ion Batteries”, Nanoscale, 2013, 5(7), 2726–2733.

6.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.

5.Zhao Y., Jiang C.C., Hu C.G., Dong Z.L., Xue J.L., Meng Y.N., Zheng N., Chen P.W., Qu L.T.*, “Large-Scale Spinning Assembly of Neat, Morphology-Defined, Graphene-Based Hollow Fibers”, ACS Nano, 2013, 7(3), 2406–2412.

4.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.

3.Hu C.G.?, Zhai X.Q.?, Liu L.L., Zhao Y., Jiang L., Qu L.T.*, “Spontaneous Reduction and Assembly of Graphene oxide into Three-Dimensional Graphene Network on Arbitrary Conductive Substrates”, Sci. Rep. 2013, 3, 2065; DOI:10.1038/srep02065.

2.Cheng H.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(40), 10482–10486.

1.Zhao Y., Song L., Zhang Z.P.* and Qu L.T.*,“Stimulus-responsive Graphene Systemstowards Actuator Applications”, Energy Environ. Sci., 2013, 6(12), 3520–3536. (Review).