98. Fangqian Hana#, Linhai Li#, Liu Qian, Yan Gao, Qianru Wu, Zhen Wang, Huaping Liu*, Jin Zhangd, Maoshuai He*, High-Temperature Growth of Chirality-Enriched, Highly Crystalline Carbon Nanotubes for Efficient Single-Chirality Separation, Advanced Functional Materials, 2024, Accepted.
97. Linhai Li, Dehua Yang, Xiao Li, Wenke Wang, Xiaojun Wei, Weiya Zhou, Huaping Liu*, High-efficiency Separation of Near-zigzag Single-Chirality Carbon Nanotubes by Gel Chromatography, Physica Status Solidi (b) , 2024, DOI: 10.1002/pssb.202400322, In Press
96. J. L. Sun, X. Zhang*, Y.C. Wang, M.M. Li, X.J. Wei, H. Liu, W.Y. Zhou*, Experimental determination of the Young's modulus of individual single-walled carbon nanotubes with single chirality, Nano Research, 2024: 12821-12829. DOI: 10.1007/s12274-024-6722-2.
95. Y. Yue, D. Zhang, P.Y. Wang, X.G. Xia, X. Wu, Y.J. Zhang, J. Mei, S.Q. Li, M.M. Li, Y.C. Wang, X. Zhang, X.J. Wei, H. Liu, W.Y. Zhou*, Large-area Flexible Carbon Nanofilms with Synergistically Enhanced Transmittance and Conductivity Prepared by Reorganizing Single-walled Carbon Nanotube Networks, Advanced Materials, 2024, 2313971
94. Y.H. Li, L.H. Li, H. Jiang, L. Qian, M.S. He*, D.L. Zhou, K.L. Jiang, H. Liu*, X.F. Qin, Y. Gao, Q.R. Wu, X.Y. Chi, Z.B. Li*, J. Zhang*, An Efficient Approach Towards Production of Near-Zigzag Single-Chirality Carbon Nanotubes, Sciecne Advances, 2024, 10, eadn6519
93. Shuang Ling, Xiaojun Wei,* Xin Luo, Xiao Li, Shilong Li, Feibing Xiong,* Weiya Zhou, Sishen Xie, and Huaping Liu*, Surfactant Micelle-Driven High-Efficiency and High-Resolution Length Separation of Carbon Nanotubes for Electronic Applications, Small, 2024, 20, 2400303 (Cover Picture)
92.Y. Yue, D. Zhang, P.Y. Wang, X. Wu, Y.J. Zhang, Y.C. Wang, X. Zhang, X.J. Wei, H. Liu, and W.Y. Zhou*, Wide temperature range, air stable, transparent, and self-powered photodetectors enabled by a hybrid film of graphene and single-walled carbon nanotubes, Nano Research, 2024, Just accepted.
91. L.H. Li, J.M. Cui, C.J. Shi, D.H. Yang, W.K. Wang, X.J. Wei, Y.L. Li, W.Y. Zhou, H. Liu*, Cholic acid tuning the binary surfactant system for one-step separation of the enantiomers of (5, 4) carbon nanotubes, Carbon, 2024, 222, 119000.
90. X Li, W.K. Wang, H.S. Xiao, Y.J. Zhang, C. Liu, S.L. Li, L.H. Li, W. Su, Y.C. Wang, X.J. Wei, Y.L. Li, H.G. Liu, W.Y. Zhou, H. Liu*, Order of magnitude improvement in the transport performance of carbon nanotube films by completely removing surfactants, Carbon, 2024, 218, 118750.
89. L.T Xin, C. Ma, Q.R. Wu, S.K Liu, L.H. Li, X.Y. Zhang, L. Qian, M.S. He*, D. Li, F.Q. Han, S.L. Hao, L.H. Feng, Y.H. Li, H. Liu, L.L.i Zhang*, C. Liu, J. Zhang*, Highly Selective Growth of (6, 5) Single-Walled Carbon Nanotubes from Sigma Phase Alloy Catalyst, Nano Research, 2024, 17(3), 1999-2003.
88. X. Zhang*, W. Tan, T. Carey, B. Wen, D.L. He, A. Arbab, A. Groombridge, F. Smail, J. de La Verpilliere, C. Yao, Y. Wang, X. Wei, H. Liu, S.S. Xie, F. Torrisi, M. De Volder*, W.Y. Zhou* & A. Boies*, Enhanced composite thermal conductivity by percolated networks of in-situ confined-grown carbon nanotubes, Nano Research, 2023, 16, 12821−12829.
87. Y.Y. Yu, W.K. Wang, X. Li, L.H. Li, S.L. Li, X.J. Wei, W.Y. Zhou, J. Lin, Y. Huang*, H. Liu*, Diameter-dependent photoelectric performances of semiconducting carbon nanotubes/perovskite heterojunctions, Nano Research, 2023, 16, 12662-12669
86. Z.B. Wang, Z.J. Xiao, J. Mei, Y.C. Wang, X. Zhang, X.J. Wei, H. Liu, S.S. Xie, and W.Y. Zhou*, Graphene aerogel-based vibration sensor with high sensitivity and wide frequency response range, Nano Research, 2023, 16, 11342-11349
85. X.J. Wei*, X. Luo, S.L. Li, W.Y. Zhou, S.S. Xie, and H. Liu*, Length-Dependent Enantioselectivity of Carbon Nanotubes by Gel Chromatography, ACS Nano, 2023, 17, 8393.
84. D.H. Yang, L.H. Li, X. Li, W. Xi, Y.J. Zhang, Y.M. Liu, X.J. Wei, W.Y. Zhou, F. Wei, S.S. Xie, H. Liu*, Preparing high-concentration individualized carbon nanotubes for industrial separation of multiple single-chirality species, Nature Communications, 2023, 14, 2491.(Times cited 12)
83. W. Su, X. Li, L.H. Li, D. Yang, F.T. Wang, X. Wei, W.Y. Zhou, H. Kataura, S.S. Xie, H. Liu*, Chirality-dependent electrical transport properties of carbon nanotubes obtained by experimental measurement, Nature Communications, 2023, 14, 1672.(Times cited 24)
82. X. Luo, X. Wei*, L. Liu, Z.H. Yao, F. Xiong, W.Y. Zhou, S.S. Xie, H. Liu*, One-step separation of high-purity single-chirality single-wall carbon nanotubes using sodium hyodeoxycholate, Carbon, 2023, 207, 129-135.
81. S.L Li, L.L. Li, X.J. Wei,* W.Y. Zhou, S.S. Xie, and H. Liu,* Chirality-dependent concentration boundaries of single-wall carbon nanotubes for photoluminescence characterization and applications, Nano Research, 2023, 16, 1820-1825.
80. X. Zhang, M. De Volder*, W. B. Zhou, L. Issman, X.J. Wei, A. Kaniyoor, J. P. Terrones, F. Smail, Z.B. Wang, Y.C. Wang, H. Liu, W.Y. Zhou, J. Elliott*, S.S. Xie*, A. Boies*; Simultaneously Enhanced Tenacity, Rupture Work, and Thermal Conductivity of Carbon Nanotubes Fibers by Raising Effective Tube Portion, Science Advances, 2022, 8, eabq3515.
79. C. Ma, Y. M. Liu, L.L. Zhang, L. Qian, Y. M. Zhao, Y. Tian, Q.R. Wu, D. Li, N. Zhao, X.T. Zhang, L. T. Xin, H. Liu,* P. X. Hou, C. Liu, M. S. He,* and J. Zhang,* Bulk growth and separation of single-walled carbon nanotubes from rhenium catalyst, Nano Research, 2022, 15, 5775
78. X.Y. Liu, B. Sun*, X. Li, Z. Zhang, W.K. Wang, X.G. Zhang, Z. Huang, H. Liu, H.D. Chang, R. Jia*, and H.G. Liu*, Floating Gate Carbon Nanotube Dual-Gate Field-Effect Transistor for Reconfigurable AND/OR Logic Gates, ACS Appl. Electron. Mater. 2022, 4, 1684-1691
77. X.Y. Liu, B. Sun*, K.L. Huang, C. Feng, X. Li, Z. Zhang, W.K. Wang, X.G. Zhang, Z. Huang, H. Liu, H.D. Chang, R. Jia*, and H.G. Liu*,Use of Ambipolar Dual-Gate Carbon Nanotube Field-Effect Transistor to Configure Exclusive-OR Gate, ACS Omega 2022, 7, 8819−8823
76.L. Liu, X. J. Wei,* Z. H. Yao, X. Li, W. K. Wang, Y.C. Wang, W.Y. Zhou, F. B. Xiong,* H. Kataura, S. S. Xie, and H. Liu*, Separation of Metallic and Semiconducting Single-Wall Carbon Nanotubes Using Sodium Hyodeoxycholate Surfactant, J. Phys. Chem. C 2022, 126, 3787−3795
75.X. J. Wei,* S.L. Li, W.K. Wang, X. Zhang, W.Y. Zhou, S.S. Xie, and H. Liu*, Recent Advances in Structure Separation of Single-Wall Carbon Nanotubes and Their Application in Optics, Electronics and Optoelectronics, Advanced Science 2022, 9, 2200054(Times cited 60)
74. F.T. Wang, D.H. Yang, L.H. Li, Y.M. Liu, X.J. Wei,* W.Y. Zhou, H. Kataura, H. Liu* and S.S. Xie, Electronic type and diameter dependence of the intersubband plasmons of single-wall carbon nanotubes,Adv. Funct. Mater. 2022, 32, 2107489
73. Q. Wu, L. Qiu, L.L. Zhang, H. Liu, R.X. Ma, P. Xie, R.L. Liu, P.X. Hou, F. Ding,* C. Liu,* M.S. He,* Temperature-dependent selective nucleation of single-walled carbon nanotubes from stabilized catalyst nanoparticles, Chemical Engineering Journal 2022, 431, 133487
72. D.H. Yang, L.H. Li, X.J Wei, Y.C. Wang, W.Y. Zhou, H. Kataura, S.S. Xie, H. Liu*, Sub-Milligram-Scale Separation of Near-Zigzag Single-Chirality Carbon Nanotubes by Temperature Controlling a Binary Surfactant System, Sciemce Advances 7 (2021) eabe0084 (Times cited 47)
71. K. Cong, W. Jiang, B. E. Anthonio, G. Timothy Noe, H. Liu, H. Kataura, M. Kira*, and J. Kono, Quantum-Memory-Enabled Ultrafast Optical Switching in Carbon Nanotubes, ACS Photonics 7(2020)1382-1387.
70. S. Li, X. Wei,* L. Li, J. Cui, D. Yang,
Y. Wang, W. Zhou, S.S. Xie, A. Hirano,
T. Tanaka, H. Kataura, H. Liu,* Quantitative analysis of the effect of reabsorption on the Raman spectroscopy of distinct (n, m)
carbon nanotubes, Anal. Methods 12 ( 2020)
2376
69. W. Su, D. Yang, J. Cui, F. Wang, X. Wei, W. Zhou, H. Kataura, S. S. Xie, H. Liu,* Ultrafast wafer-scale assembly of uniform and highly dense semiconducting carbon nanotube films for optoelectronics, Carbon 163 (2020) 370. Highlight by Lab Motif.
68. S. Li, D. Yang, J. Cui, Y. Wang, X. Wei, W. Zhou, H. Kataura, S.S. Xie, and H. Liu,* Quantitative analysis of the intertube coupling effect on the photoluminescence characteristics of distinct (n, m) carbon nanotubes dispersed in solution, Nano Research 13 (2020) 1149
67. X. Wei, T. Tanaka, S. Li, M. Tsuzuki, G. Wang, Z. Yao, L. Li, Y. Yomogida, A. Hirano, H. Liu, and H. Kataura, Photoluminescence Quantum Yield of Single-Wall Carbon Nanotubes Corrected for the Photon Reabsorption Effect, Nano Lett. 20 (2020) 410 (Times cited 40)
66. J. Cui, W. Su, D. Yang,S. Li, X. Wei, N. Zhou,
W Zhou, S. S. Xie, H. Kataura, and H. Liu,* Mass Production of High-Purity Semiconducting Carbon Nanotubes by Hydrochloric Acid Assisted Gel Chromatography, ACS Appl. Nano Mater. 2 (2019) 343−350
65. H. Wang, Z. Liu, H. Liu, L.i Guan, X. Cao, Z. Zhang,
Y. Huang,* C.H. Jin,* Probing the degradation of carbon nanotubes in aqueous solution by liquid cell transmission electron microscopy, Carbon, 148 (2019) 481
64. Tian, Q Gu, J. Duan, R Chen, H. Liu, Y. Hou, J Chen, Improving Luttinger-liquid plasmons in carbon nanotubes by chemical doping, Nanoscale 10 (2018) 6288
63. S. Xiao, Q. Fan, X. Xia, Z. Xiao, H. Chen,
W. Xi, P. H. Chen, J. J. Li, Y. Wang, H. Liu, W. Y. Zhou,* Dependence of the solar cell performance on nanocarbon/Si heterojunctions, Chinese Physics B 27 (2018) 078801
62. Kankan Cong, G. Timothy Noe, Huaping Liu, Hiromichi Kataura, Junichiro Kono*, Dressed Excitons in Carbon Nanotubes, Cleo: Qels_fundamental Science, 2018, FM2F.7
61. X. Zeng, D. H. Yang, H. Liu,* N. G. Zhou, Y. Wang,
W. Y. Zhou, S. S. Xie, and H. Kataura, Detecting and Tuning the Interactions between Surfactants and Carbon Nanotubes for Their High-Efficiency Structure Separation, Adv. Mater. Interfaces 5 (2018) 1700727 (Times cited 45)
60. Y. Liu, J. Zhang,* H. Liu, S. Wang, L.-M. Peng,* Electrically driven monolithic subwavelength plasmonic
interconnect circuits, Sci. Adv. 3 (2017) e1701456.(Times cited 38)
59. J. Cui, D. H. Yang, X. Zeng, N. G. Zhou,* H. Liu,* Recent progress on the structure separation of single-wall carbon nanotubes, Nanotechnology 28 (2017) 452001 (Topical Review)
58. Q. Li, S. Li, D. Yang , W. Su, Y. Wang , W. Y. Zhou, H. Liu,* and S. S. Xie,* Designing Hybrid Gate Dielectric for Fully Printing High-Performance Carbon Nanotube Thin Film Transistors, Nanotechnology 28 (2017) 435203.
57. D. Yang, J. Hu, H. Liu,* S. Li, W. Su, Q. Li, N. Zhou, Y. Wang,
W. Y. Zhou, S. S. Xie, H. Kataura, Structure Sorting of Large-diameter Carbon Nanotubes by NaOH Tuning the Interactions
between Nanotubes and Gel, Adv. Funct. Mater. 2017, 1700278, Published online
56. Y. Liu, S. Wang, H. Liu, L. M. Peng,* Carbon nanotube-based three-dimensional
monolithic optoelectronic integrated system, Nature Communications8(2017)15649. (Times cited 76)
55. W. B. Zhou, Q. Fan, Q. Zhang, L. Cai, K. Li, X. Gu, F. Yang,
N. Zhang, Y. Wang, H. Liu, W. Y. Zhou,* S. S. Xie,* High-performance and compact-designed flexible
thermoelectric modules enabled by a reticulate
carbon nanotube architecture, Nature Communications8(2017)14886. (Times cited 318)
54. Q. Fan, Q. Zhang, W. B. Zhou, X. Xia, F. Yang,
N. Zhang, S. Xiao, K. Li, X. Gu, Z. Xiao, H. Chen,
Yanchun Wang, H. Liu, W. Y. Zhou,* S. S. Xie,* Novel approach to enhance efficiency of hybrid silicon-based solar cells via synergistic effects of polymer and carbon nanotube composite film, Nano Energy 33 (2017) 436.(Times cited 56)
53. Q. Zhang, K. Li, Q. Fan, X. Xia,
N. Zhang, Z. Xiao, W. B. Zhou, F. Yang,
Y. Wang, H. Liu, W. Y. Zhou,* Performance improvement of continuous carbon nanotube fibers by acid treatment, Chin. Phys. B 26 (2017) 028802(Times cited 32)
52. Q. Fan, Q. Zhang, W. B. Zhou, F. Yang, N. Zhang, S. Xiao, X. Gu, Z. Xiao, H. Chen, Y. Wang, H. Liu, and W. Y. Zhou,* Highly conductive and transparent carbon nanotube-based electrodes for ultrathin and stretchable organic solar cells, Chin. Phys. B 26 (2017) 028801
51. S. Liang, N. Wei, Z. Ma, F. Wang. H. Liu, S. Wang,* and L. M. Peng*, Microcavity-Controlled Chirality-Sorted Carbon Nanotube Film
Infrared Light Emitters, ACS Photonics4 (2017) 435
50. S. Liang, F. Wang, Z. Ma, N. Wei, G. Wu, Gang Li, H. Liu,
X. Hu, S. Wang,* and L. M. Peng*, Asymmetric Light Excitation for
Photodetectors Based on Nanoscale
Semiconductors, ACS Nano 11(2017) 549.
49. W. B. Zhou, Q. Fan, Q. Zhang, K. Li, L. Cai, X. Gu, F. Yang,
N. Zhang, Z. Xiao, H. Chen, S. Xiao, Y. Wang, H. Liu,
W. Y. Zhou,* and Sishen Xie,* Ultrahigh-Power-Factor Carbon Nanotubes and an
Ingenious Strategy for Thermoelectric Performance
Evaluation, Small 12 (2016) 3407.(Times cited 82)
48. S. Liang, Z. Ma, G. Wu, N. Wei, L. Huang, H. Huang, H. Liu,
S. Wang,* and L. M. Peng*, Microcavity-Integrated Carbon Nanotube
Photodetectors, ACS Nano 10 (2016) 6963−6971. (Times cited 43)
47. P. Luan, N. Zhang, W. Zhou,* Z. Niu,* Q. Zhang, L. Cai,
X. Zhang, F. Yang, Q. Fan, W. Zhou, Z. Xiao, X. Gu,
H. Chen, K. Li, S. Xiao, Y. Wang, H. Liu, and S.S. Xie*, Epidermal Supercapacitor with High Performance, Adv. Funct. Mater. 26 (2016) 8178–8184 (Times cited 56)
46. S. Liang, Z. Ma, N. Wei, H. Liu, S. Wang* and
L. M. Peng*, Solid state carbon nanotube device for controllable
trion electroluminescence emission, Nanoscale, 8 (2016) 6761
45. X. Zeng, J.W. Hu, X. Zhang, N.G. Zhou,* W. Zhou, H. Liu* and S.S. Xie, Ethanol-assisted gel chromatography for single-chirality separation of carbon nanotubes, Nanoscale, 7 (2015) 16273.
44. N. Zhang, W. Zhou,* Q. Zhang, P. Luan, L. Cai, F. Yang, X. Zhang, Q. Fan, W. Zhou, Z. Xiao, X. Gu, H. Cheng, K. Li, S. Xiao, Y. Wang, H. Liu, S.S. Xie*, Biaxially stretchable supercapacitors based on the buckled hybrid fiber electrode array, Nanoscale, 7 (2015) 12492. (Times cited 57)
43. D. Nakamura, T. Sasaki, W. Zhou, H. Liu, H. Kataura, S Takeyama*, Exciton splitting in semiconducting carbon nanotubes in ultrahigh magnetic fields above 300 T, Phys. Rev. B, 91(2015) 235427.
42. X. Zhang, L. Song*, L. Cai, X. Tian, Q. Zhang, X. Qi, W. Zhou,
N. Zhang, F. Yang, Q. Fan, Y. Wang, H. Liu, X.D. Bai, W.Y.
Zhou, S.S. Xie*, Optical visualization and polarized light absorption of single-wall
carbon nanotube for verifying intrinsic thermal applications, Light: Science& Applications 4 (2015) e318 .(Times cited 48)
41. D. Yu, H. Liu*, L.-M. Peng, S. Wang*. Flexible Light-Emitting Devices Based on Chirality-Sorted Semiconducting Carbon Nanotube Films. ACS Appl. Mater. Interfaces, 7 (2015) 3462−3467.
40. H. Liu, T. Tanaka, H. Kataura*, Optical Isomer Separation of Single-Chirality Carbon Nanotubes Using Gel Column Chromatography. Nano Lett. 14(2014)6237.(Times cited 68)
39. W. Zhou, D. Nakamura, H. Liu, H. Kataura, S. Takeyama*. Relative ordering between bright and dark excitons in single-walled carbon nanotubes. Sci. Rep. 4(2014)6999.
38. Y. S. Lim, A. R. T Nugraha, S. J. Cho, M.Y. Noh, E.J. Yoon, H. Liu, et al., Ultrafast generation of fundamental and multiple-order phonon excitations in highly-enriched (6, 5) single-Wall carbon nanotubes, Nano Lett. 14(3) (2014) 1426-1432. (Times cited 33)
37. X. Zhang, F. Yang, D. Zhao, L.Cai, PS Luan, Q Zhang, WB Zhou, N Zhang, QX Fan, YC Wang, H. Liu, WY Zhou, SS Xie*, Temperature dependent Raman spectra of isolated suspended single-walled carbon nanotubes, Nanoscale, 6(8) (2014) 3949-3953.(Times cited 36)
36. H. Liu, T. Tanaka, Y. Urabe, H. Kataura*, High-efficiency single-chirality separation of carbon nanotubes using temperature-controlled gel chromatography, Nano Lett., 13(5) (2013) 1996-2003. (Times cited 175)
35. W. Zhou, T. Sasaki, D. Nakamura, H. Liu, H. Kataura, S. Takeyama*, Band-edge exciton states in a single-walled carbon nanotube revealed by magneto-optical spectroscopy in ultrahigh magnetic fields, Phys. Rev. B, 87(24) (2013) 1406.
34. W. Zhou, T. Sasaki, D. Nakamura, H. Saito, H. Liu, H. Kataura, S. Takeyama*, Exciton-phonon bound complex in single-walled carbon nanotubes revealed by high-field magneto-optical spectroscopy, Appl. Phys. Lett., 103(23) (2013) 233101.
33. W. Zhou, T. Sasaki, D. Nakamura, H. Saito, H. Liu, H. Kataura, S. Takeyama*, Survey of exciton-phonon sidebands by magneto-optical spectroscopy using highly specified (6, 5) single-walled carbon nanotubes, Appl. Phys. Lett., 103(2) (2013) 21117.
32. H. Kataura*, H. Liu, Y. Ito, M. Shimizu, Y. Urabe, A. Hirano, S. Fujii and T. Tanaka, Structure Sorting of Single-Wall Carbon Nanotubes Using Gel Column Chromatography. ECS Meeting Abstracts, 2013 Meet. Abstr. MA2013-01 1103, DOI: 10.1149/MA2013-01/32/1103 (Invited)
31. T. Takeshi*, H. Liu, F. Shunjiro, H. Kataura, From metal/semiconductor separation to single-chirality separation of single-wall carbon nanotubes using gel. Phys. Status Solidi RRL, 5 (2011) 301-306 (Cover picture) (Times cited 63)
30. H. Liu, T. Tanaka, H. Kataura*. One-step separation of high-purity (6, 5) carbon nanotubes by multicolumn gel chromatography. Phys. Status Solidi B, 248 (2011) 2524-2527. (Times cited 30)
29. C.L. Liang, G.A. Cheng*, R. Zheng, H. Liu, Fabrication and performance of TiN/TiAlN nanometer modulated coatings. Thin Solid Films, 520 (2011) 813-817
28. H. Liu, D. Nishide, T. Tanaka, H. Kataura*, Large-scale single-chirality separation of single-wall carbon nanotubes by simple gel chromatography. Natre Communications 2 (2011) 309-1-8 (Times cited 893)
27. H. Liu, T. Tanaka, Y. Feng, H. Kataura*, Diameter-selective desorption of semiconducting single-wall carbon nanotubes from agarose gel, Phys. Status Solidi B 247 (2010) 2649-2652.
26. T. Tanaka*, Y. Urabe, D. Nishide, H. Liu, S. Asano, S. Nishiyama, H. Kataura. Metal/semiconductor separation of single-wall carbon nanotubes by selective adsorption and desorption by agarose gel, Phys. Status Solidi B 247 (2010) 2867-2870.
25. D. Nishide, H. Liu, T. Tanaka, H. Kataura*, Sorting single-wall carbon nanotubes combining gel chromatography and density gradient ultracentrifugation, Phys. Status Solidi B 247 (2010) 2746-2749.
24. H. Liu, Y. Feng, T. Tanaka, Y. Urabe, H. Kataura*, Diameter-Selective Metal/Semiconductor Separation of Single-Wall Carbon Nanotubes by Agarose Gel, J. Phys. Chem. C 114 (2010) 9270-9276. (Times cited 111)
23. H. Liu, D. Takagi, S. Chiashi, Y. Homma*. Transfer and alignment of random single-walled carbon nanotube films by contact printing. ACS Nano 4(2010) 933-938. (Times cited 46)
22. H. Liu, D. Takagi, S. Chiashi, T. Chokan, Y. Homma*. Investigation of catalystic properties of Al2O3 particles in the growth of single-walled carbon nanotubes. J. Nanosci. Nanotechnol. 10 (2010) 4068-4073.
21. H. Liu, D. Takagi, S. Chiashi, Y. Homma*. The growth of single-walled carbon nanotubes on a silica substrate without using a metal catalyst. Carbon48(2010)114-122. (Times cited 54)
20. Y. Homma*, H. Liu, D. Takagi, Y. Kobayashi, Single-walled carbon nanotube growth with non-iron-group “catalysts” by chemical vapor deposition. Nano Res. 2 (2009) 793-799 (Times cited 76)
19. H. Liu, D. Takagi, S. Chiashi, Y. Homma*. The controlled growth of horizontally aligned single-walled carbon nanotube arrays by a gas flow process. Nanotechnology 20 (2009) 345604.
18. H. Liu*, S. Chiashi, M. Ishiguro, Y. Homma*. Manipulation of single-walled carbon nanotubes with a tweezers tip. Nanotechnology 19 (2008) 445716.
17. H. Liu*, D. Takagi, H. Ohno, S. Chiashi, T. Chokan, Y. Homma*. Growth of single-walled carbon nanotubes from ceramic particles by alcohol chemical vapor deposition. Appl. Phys. Exp. 1(2008)014001.(Times cited 91)
16. H. Liu*, T. Chokan, D. Takagi, H. Ohno, S. Chiashi, Y. Homma, Effect of ambient gas on the catalytic properties of Au in single-walled carbon nanotube growth, Jpn. J. Applied physics 47 (2008) 1966-1970.
15. H. Liu*, G.A. Cheng*, C.L. Liang, R.T. Zheng, Fabrication of silicon carbide nanowires/ carbon nanotubes heterojunction arrays by high-flux Si ion implantation, Nanotechnology 19 (2008) 245606.
14. H. Liu*, G.A. Cheng*, R.T. Zheng, C.L. Liang, Dependence of carbon fiber morphology with deposition conditions. Diam. & Relat. Mater. 17 (2008) 313-317.
13. H. Liu*, G.A. Cheng*, R.T. Zheng, Y. Zhao, C.L. Liang, Effects of the restructuring of Fe catalyst films on chemical vapor deposition of carbon nanotubes. Surf. & Coat Tech. 202 (2008) 3157-3163.
12. G.A. Cheng*, H. Liu, R.T. Zheng, C.L. Liang, Microstructure control of Fe catalyst films for the growth of multiwalled carbon nanotube arrays. J Korean Phys Soc 52 (2008) S132-S137.
11. Y. Zhao, G.A. Cheng*, R.T. Zheng, H. Liu, C.L. Liang, Ni nano-films processed by ammonia. Solid State Phenom. 121-123 (2007) 921-927.
10. C.L. Liang, G.A. Cheng*, R.T. zheng, H. Liu, J.C. Li, H.F. Zhang, G.J. Ma, Y.L. Jiang. Composition and texture of TiN thin films fabricated by ECR enhanced sputtering deposition.Surf. & Coat Tech. 201 (2007) 5537-5540.
9. H. Liu, G.A. Cheng*, Y. Zhao, R.T. Zheng, C.L. Liang, F. Zhao & T.H. Zhang. Controlled growth of Fe catalyst film for synthesis of vertically aligned carbon nanotubes by glancing angle deposition. Surf. & Coat Tech. 201 (2006)938-942.
8. H. Liu, G.A. Cheng*, R.T. Zheng, Y. Zhao & C.L. Liang, Layered growth of aligned carbon nanotubes arrays on Silicon wafers. J Mol Catal A-Chem. 247(2006)52-57.
7. H. Liu, G.A. Cheng*, R.T. Zheng, Y. Zhao & C.L. Liang. Influence of synthesis process on preparation and properties of Ni/CNT catalyst. Diam. & Relat. Mater. 15(2006)15-21.
6. R.T. Zheng*, Y. Zhao, H. Liu, C.L. Liang & G.A. Cheng, Preparation, characterization and growth mechanism of platelet carbon nanofibers. Carbon 44(2006)742-746.
5. R.T. Zheng*, G.A. Cheng, Y. Zhao, H. Liu, A Comparative Raman study of carbon nanotubes allays. Spectrosc. Spect. Anal. 26(2006)1071-1075
4. H. Liu, G.A. Cheng*, R.T. Zheng, Y. Zhao & C.L. Liang. Influence of acid treatments of carbon nanotube precursors on Ni/CNT in the synthesis of carbon nanotubes. J Mol Catal A-Chem.230 (2005) 17–22.
3. H. Liu, G.A. Cheng*, R.T. Zheng &Y. Zhao. Controlled growth of Ni particles on carbon nanotubes for fabrication of carbon nanotubes. J Mol Catal A-Chem.225 (2005) 233–237.
2. R. Zheng*, G.A. Cheng, Y. Zhao, H. Liu & C.L. Liang, Preparation and characterization of carbon nanoribbons produced by the catalytic chemical vapor deposition of acetylene New Carbon Mater. 20(2005)355-359
1. R.T. Zheng*, G.A. Cheng, Y.B. Peng, Y. Zhao, H. Liu & C.L. Liang. Synthesis of vertically aligned carbon nanotube arrays on silicon substrates. Science in China Series E: Engineering & materials science. 47(2004) 616-624. |
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