| Heterostructured Materials
| Carbon Nanotubes
| Nano Metals and Alloys
| Patents
J.Y. Zou, X.H. Zhang, J.N. Zhao, C.S. Lei, Y.H. Zhao, Y.T. Zhu, and Q.W. Li, “Strengthening and Toughening Effects by Strapping Carbon Nanotube Cross-links with Polymer Molecules,” Comp. Sci. Tech, 135, 123-127 (2016).
L.W. Zhang, X. Wang, R. Li, Q.W. Li, P.D. Bradford, and Y.T. Zhu, “Microcombing Enables High Performance Carbon Nanotube Composites,” Comp. Sci. Tech., 123, 92-98 (2016).
S. Faraji, K. Stano, O. Yildiz, A. Li, Y.T. Zhu, and P.D. Bradford, “Ultralight Anistropic Foams from Layered Aligned Carbon Nanotube sheets,” Nanoscale, 7 (40), 17038-17047 (2015).
L.W. Zhang, X. Wang, W.Z. Xu, Y.Y. Zhang, Q.W. Li, P.D. Bradford, and Y.T. Zhu, “Strong and Conductive Dry CNT Films by Micro-Combing,” Small, 11?3830-3836?2015).
J.T. Di, X. Wang, Y.J. Xing, Y.Y. Zhang, X.H. Zhang, W.B. Lu, Q.W. Li, Y.T. Zhu, “Dry-Processable Carbon Nanotubes for Functional Devices and Composites,” Small 10, 4606-4625 (2014).
S. Faraji, K. Stano, C. Rost, J.P. Maria, Y.T. Zhu and P.D. Bradford, “Structural Annealing of Carbon Coated Aligned Multi-Walled Carbon Nanotube Sheets,” Carbon, 79, 113-122 (2014).
Z. Zhou, X. Wang, S. Faraji, P.D. Bradford, Q.W. Li, and Y.T. Zhu, “Mechanical and Electrical Properties of Aligned Carbon Nanotube/Carbon Matrix Composites, “ Carbon, 75, 307-313 (2014).
X. Wang, Z.Z. Yong, Q.W. Li, P.D. Bradford, Q. Jiang, W. Liu, D.S. Tucker, H. Wang, F.G. Yuan, Y.T. Zhu, “Ultrastrong, Stiff and Multifunctional Carbon Nanotube Compsoites,” Mater. Res. Lett. 1, 19-25 (2013).
X. Wang, P.D. Bradford, W. Liu, H.B. Zhao, Y. Inoue, J.P. Maria, Q.W. Li, F.G. Yuan, Y.T. Zhu, “Mechanical and Electrical Property Improvement in CNT?NYlon Composites Through Drawing and Stretching,” Comp. Sci. Tech., 71, 1677-1683 (2011).
G. Zou , H. Luo, S. Baily, Y.Y. Zhang, J. Xiong, E. Bauer, T. McCleskey, A. Burrell, L. Vivale, Y.T. Zhu, J.L. MacManus-Driscoll, and Q.X. JIa, “Highly Aligned Carbon Nanotube Forests Coated by Superconducting NbC,”Nature Communications, DOI:10.1038/ncommms1438. Aug. 16 (2011).
W. Liu, X.H. Zhang, G. Xu, P.D. Bradford, X. Wang, H.B. Zhao, Y.Y. Zhang, Q.X. JIa, F.G. Yuan, Q.W. Li, Y.P. Qiu, and Y.T. Zhu, “Producing Superior Composites by Winding Carbon Nanotubes onto a Mandrel uner a Poly(vinyl alcohol) Spray ,”Carbon 49, 4786-4791 (2011).
P.D. Bradford, X. Wang, H.B. Zhao, and Y.T. Zhu, “Tuning the Compressive Mechanical Properties of Carbon Nanotube foam ,”Carbon 49, 2834-2841 (2011).
H.B. Zhao, Y.Y. Zhang, P.D. Bradford, Q. Zhou, Q.X. JIa, F.G. Yuan and Y.T. Zhu, “ Carbon Nanotube yarn strain sensors ,”Nanotechnology 21, 305502 (2010).
P.D. Bradford, X. Wang, H.B. Zhao, J.P. Maria, Q.X. Jia, and Y.T. Zhu, “ A Novel Approach to Fabricate High Volume Fraction Nanocomposites with LOng Aligned Carbon Nanotubes ,”Comp. Sci. Tech. 70, 1980-1985 (2010).
H.S. Peng, X.M. Sun, F.J. Cai, X.L. Chen, Y.C. Zhu, G.P. LIao, D.Y. Chen, Q.W. Li, Y.F. Lu, Y.T. Zhu, and Q.X. Jia, “Electrochromatic Carbon Nanotube/Polydiacetylene Nanocomposite Fibers,” Nature NanoTech. 4, 738-741 (2009).
H.S. Peng, D.Y. Chen, J.Y. Huang, S.B. Chikkannanavar, J. Hanisch, M. Jain, D.E. Peterson, S.K. Doorn, Y.F. Lu, Y.T. Zhu, and Q.X. Jia, “Strong and Ductile Colossal Carbon Tubes with Wall of Rectangular Macropores,” Phys. Rev. Lett. 101, 145501 (2008).
H.S. Peng, M. Jain, Q.W. Li, D.E. Peterson, Y.T. Zhu, and Q.X. Jia, “Vertically Aligned Pearl-Like Carbon Nantube Arrays,” J. Am. Chem. Soc. 130, 1130-1131 (2008).
H.S. Peng, Y.T. Zhu, D.E. Peterson and Y. Liu, “Nanolayered Carbon-Silica Superstructures via Organosilane Assembly,” Advanced Mater. 20, 1199-1204 (2008).
X.F. Zhang, Q.W. Li, T.G. Holesinger, P.A. Arendt, J.Y. Huang, T.G. Clapp, R.F. Depaula, X.Z. Liao, Y.H. Zhao, L.X. Zheng, D.E. Peterson, and Y.T. Zhu, “Ultrastrong, Stiff and Lightweight Carbon-Nanotube Fibers,” Advanced Mater. 19, 4198-4201 (2007).
Q.W. Li, Y. Li, S. Chikkannanavar, Y.H. Zhao, A. Dangelewicz, X.F. Zhang, L.X. Zheng, S.K. Doorn, Q.X. Jia, D.E. Peterson, P.A. Arendt, Y.T. Zhu, “Structure-Dependent Electronic Properties of Carbon Nanotube Fibers,” Advanced Mater. 19, 3358-3363 (2007).
L.X. Zheng, X.F. Zhang, Q.W. Li, Y. Li, Y.H. Zhao, Q.X. Jia, B.C. Satishkumar, S.K. Doorn, and Y.T. Zhu, “Carbon-Nanotube Cotton for Large-Scale Fibres,” Advanced Mater. 19, 2567-2570 (2007).
X.F. Zhang, Q.W. Li, Y. Tu, Y. Li, Y.H. Zhao, L.X. Zheng, Q.X. Jia, D.E. Peterson and Y.T. Zhu, “Strong Carbon Nanotube Fibers from Long Carbon Nanotube Arrays,” Small, 3, 244-248 (2007).
Q.W. Li, X.F. Zhang, R.F. Depaula, L.X. Zheng, Y.H. Zhao, L. Stan, T.G. Holesinger, P.N. Arendt, D.E. Peterson, Y.T. Zhu,“Sustained Growth of Ultralong Carbon Nanotube Arrays for Fiber Spinning,” Advanced Mater. 18, 3160-3163 (2006).
Q.W. Li, R.J. Groves, X.F. Zhang, L.X. Zheng, P.N. Arendt, F.M. Mueller, Y.T. Zhu, and Y. Tu,“Drying-Induced Upright Sliding and Reoganization of Carbon Nanotube Arrays,” Nanotechnology 17, 4533-4536 (2006).
S.K. Doorn, M.J. O’Connell, L.X. Zheng, Y.T. Zhu, S. Huang, and J. Liu, “Raman Spectral Imaging of a Carbon Nanotube Intramolecular Junction,” Phys. Rev. Lett. 94, 016802 (2005).
L.X. Zheng, M.J. O’Connel, X.Z. Liao, Y.H. Zhao, E.A. Akhadov, S.K. Doorn, B.J. Roop, Q.X. Jia, M.A. Hoffbauer, R.C. Dye, D.E. Peterson, Y.M. Huang, J. Liu, Y.T. Zhu, “Ultralong Single-Wall Carbon Nanotubes” Nature Materials 3, 673-676 (2004).
X.Z. Liao, A. Serquis, Q.X. Jia, D.E. Peterson, Y.T. Zhu, and H.F. Xu, “Effect of catalyst composition on carbon nanotube growth,” Appl. Phys. Lett. 82, 2694-96 (2003).