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PUBLICATIONS

PAPER

2016

1. Bin Liu, Guiju Liu, Honglei Feng, Chao Wang, Huaiwen Yang, Yiqian Wang*, Effect of oxygen vacancies on structural, electrical and magnetic properties of La0.67Sr0.33CoO3 thin films, Materials and Design, 89, 715-720 (2016). [PDF Download]
2. Chao Wang, Yiqian Wang*, Xuehua Liu, Huaiwen Yang, Jirong Sun, Lu Yuan, Guangwen Zhou, Federico Rosei, Structure versus properties in ¦Á-Fe2O3 nanowires and nanoblades, Nanotechnology, 27, 035702/1-7 (2016). [PDF Download]
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2015

1. Xinxin Cheng, Aiping Fu, Hongliang Li, Yiqian Wang, Peizhi Guo, Jingquan Liu, Jintao Zhang, Xiu Song Zhao, Sustainable preparation of copper particles decorated carbon microspheres and studies on their bactericidal activity and catalytic properties, ACS Sustainable Chemistry and Engineering, 3(10), 2414-2422 (2015). [PDF Download]
2. Dong Lin, Shengyu Jin, Feng Zhan, Chao Wang, Yiqian Wang, Chi Zhou, Gary J. Cheng, 3D stereolithography printing of graphene oxide reinforced complex architectures, Nanotechnolology, 26(43), 434003 (2015). [PDF Download]
3. G. X. Liu, A. Liu, H. H. Zhu, B. C. Shin, E. Fortunato, R. Martins, Y. Q. Wang, F. K. Shan, Low-temperature, nontoxic water-induced metal-oxide thin films and their application in thin-film transistors, Advanced Functional Materials, 25(17), 2564-2572 (2015).[PDF Download]
4. Dexian Wang, Aiping Fu, Hongliang Li, Yiqian Wang, Peizhi Guo, Jingquan Liu, Xiu Song Zhao, Mesoporous carbon spheres with controlled porosity for high-performance lithium-sulfur batteries, Journal of Power Sources, 285, 469-477 (2015). [PDF Download]
5. Feiyu Diao, Wenshuang Liang, Fenghui Tian, Yiqian Wang*, Paola Vivo, Alexander Efimov, Helge Lemmetyinen, Preferential attachments of organic dyes onto {101} facets of TiO2 nanoparticles, The Journal of Physical Chemistry C,.119, 8960-8965 (2015). [PDF Download]
6. H. W. Yang, C. Wang, R. S. Cai, F. X. Hu, Y. Q. Wang*, J. R. Sun*, Effect of substrate and orientation on charge ordering behaviors in epitaxial Pr0.5Ca0.35Sr0.15MnO3 films, Journal of Applied Physics, 117, 17E112 (2015).[PDF Download]
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2014

1. Laiying Jing, Aiping Fu, Hongliang Li, Jingquan Liu, Peizhi Guo, Yiqian Wang, Xiu Song Zhao, One-step solvothermal preparation of Fe3O4/grapheme composites at elevated temperature and their application as anode materials for lithium-ion batteries, RSC Advances, 4, 59981-59989 (2014). [PDF Download]
2. Chao Wang, Yiqian Wang*, Xuehua Liu, Feiyu Diao, Lu Yuan, Guangwen Zhou, Novel hybrid nanocomposites of polyhedral Cu2O nanoparticles-CuO nanowires with enhanced photoactivity, Physical Chemistry Chemical Physics, 16(33), 17487-17492 (2014). [PDF Download]
3. Peter K. Petrov, Bin Zou, Yiqian Wang, James M. Perkins, David W. McComb, Neil McN. Alford, STO/BTO modulated superlattice multilayer structures with atomically sharp interfaces, Advanced Materials Interfaces, 1(3), 1300116 (2014).[PDF Download]
4. R. S. Cai, Y. Q Wang*, Y. J. Zhang, X. H. Liu, L. Shang, G. G. Ross, D. Barba, Inhibitive formation of nanocavities by introduction of Si atoms in Ge nanocrystals produced by ion implantation, Journal of Applied Physics, 115(22), 204310 (2014). [PDF Download]
5. Minghuan Zhang, Fengyun Wang*, Chao Wang, Yiqian Wang*, SenPo Yip, Johnny C. Ho, Formation mechanisms for the dominant kinks with different angles in InP nanowires, Nanoscale Research Letters, 9, 211 (2014). [PDF Download]
6. M. H. Zhang, R. S. Cai, Y. J. Zhang, C. Wang, Y. Q. Wang*, G. G. Ross, D. Barba, Evolution of microstructural defects with strain effects in germanium nanocrystals synthesized at different annealing temperatures, Materials Characterization, 93, 1-9 (2014).[PDF Download]
7. Yiqian Wang*, Chao Wang, Lu Yuan, Rongsheng Cai, Xuehua Liu, Chunyan Li, Guangwen Zhou, Coincidence-site-lattice twist boundaries in bicrystalline ¦Á-Fe2O3 nanoblades, Journal of Physical Chemistry C, 118(11), 5796-5801 (2014).[PDF Download]
8. D. Barba, R. S. Cai, J. Demarche, Y. Q. Wang, G. Terwagne, F. Rosei, F. Martin, G. G. Ross, Influence of silicon dangling bonds on germanium thermal diffusion within SiO2 glass, Applied Physics Letters, 104(11), 111901 (2014).[PDF Download]
9. Qinchao Wang, Yiqian Wang, Peizhi Guo*, Qun Li, Ruixue Ding, Jingquan Liu, X. S. Zhao, Formic acid-assisted synthesis of palladium nanocrystals and their electrocatalytic properties, Langmuir, 30(1), 440-446 (2014). [PDF Download]
10. Yuefeng Zhao, Shulian Liu, Yiqian Wang, Feng Shi, Zongjuan Zang, Growth of regular-shaped ¦Â-Ga2O3 nanorods by Ni2+-ion-catalyzed chemical vapor deposition, Journal of Materials Science: Materials in Electronics, 25, 181-184 (2014).[PDF Download]
11. Lu Yuan, Chao Wang, Rongsheng Cai, Yiqian Wang, Guangwen Zhou, Temperature-dependent growth mechanism and microstructure of ZnO nanostructures grown from the thermal oxidation of zinc, Journal of Crystal Growth, 390, 101-108 (2014).[PDF Download]
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2013

1. Peizhi Guo*, Lijun Cui, Yiqian Wang*, Meng Lv, Baoyan Wang, X. S. Zhao, Facile synthesis of ZnFe2O4 nanoparticles with tunable magnetic and sensing properties, Langmuir, 29(28), 8997-9003 (2013). [PDF Download]
2. Lu Yuan, Chao Wang, Rongsheng Cai, Yiqian Wang, Guangwen Zhou, Spontaneous ZnO nanowire formation during oxidation of Cu-Zn alloy, Journal of Applied Physics, 114(2), 023512 (2013). [PDF Download]
3. Lu Yuan, Rongsheng Cai, Joon I. Jang, Wenhui Zhu, Chao Wang, Yiqian Wang*, Guangwen Zhou*, Morphological transformation of hematite nanostructures during oxidation of iron, Nanoscale, 5(16), 7581-7588 (2013). [PDF Download]
4. Cai Rong-Sheng, Shang Lei, Liu Xue-Hua, Wang Yi-Qian*, Yuan Lu, Zhou Guang-Wen, A new modulated structure in ¦Á-Fe2O3 nanowires, Chinese Physics B, 22(10), (2013).[PDF Download]
5. L. Shang, X. R. Li, Y. Q. Wang*, Application of high-resolution transmission electron microscopy and electron energy-loss spectroscopy in the characterization of polymer nanotubes, e-Polymers, 2013, 008/1-8 (2013). [PDF Download]
6. C.Y. Li, Y. Q. Wang*, R. S. Cai, W. W. Gao, Y. Z. Chen, J. R. Sun, Effect of substrate orientation on charge ordering behavior in Sm0.5Ca0.5MnO3 epitaxial films, Materials Letters, 95, 70-73 (2013). [PDF Download]
7. R. S. Cai, Y. Q. Wang*, X. H. Liu, W. W. Gao, Y. Z. Chen, J. R. Sun, Y. G. Wang, Origin of different growth modes for manganite epitaxial films, Journal of the American Ceramic Society, 96(5), 1660-1665 (2013).[PDF Download]
8. Ruili Zhang, Ping Yang, Yiqian Wang, Facile synthesis of CuInS2/ZnS quantum dots with highly near-infrared photoluminescence via phosphor-free process, Journal of Nanoparticle Research, 15(9): 1910 (2013). [PDF Download]
9. Feiyu Diao, Qingtian Du, Chunyan Li, Lei Shang, Yiqian Wang*, Facile synthesis of cuprous oxide nanooctahedra using electrodeless deposition, Chemical Physics Letters, 587, 45-49 (2013).[PDF Download]
10. Lu Yuan, Qiyue Yin, Yiqian Wang, Guangwen Zhou, CuO reduction induced formation of CuO/Cu2O hybrid oxides, Chemical Physics Letters, 590, 92-96 (2013).[PDF Download]
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2012
1. R. S. Cai, T. Li, Y. Q. Wang, C. Wang, L. Yuan, G. W. Zhou, Formation of modulated structures in single-crystalline hexagonal a-Fe
2O3 nanowires, Journal of Nanoparticle Research, 14(8), 1073 (2012). [PDF Download]
2. Li Chun-yan, Wang Jiang-bin, Wang Yi-qian, Microstructure and photocatalytic activities of titanium dioxide nanoparticles, Chinese Physics B, 21(9), 98102 (2012). [PDF Download]
3. Y. H. Ding, Y. Q. Wang, R. S. Cai, Y. Z. Chen, J. R. Sun, Charge ordering modulations in Bi
0.4Ca0.6MnO3 film with a thickness of 110 nm, Chinese Physics B, 21(8), 087502 (2012). [PDF Download]
4. Q. T. Du, J. S. Tan, Q. T. Wang, C. Y. Li, X. H. Liu, R. S. Cai, Y. H. Ding, Y. Q. Wang, Electrochemical deposition and formation mechanism of single-crystalline Cu2O octahedra on aluminum, Journal of Analytical Methods in Chemistry, 2012, 406162/1-8 (2012).[PDF Download]
5. Y. Q. Wang, W. S. Liang, W. J. Kong, P. K. Petrov, N. M. Alford, Structural engineering of Ba
0.5Sr0.5TiO3 epitaxial film, Thin Solid Films, 520(18), 5918-5921 (2012).[PDF Download]
6. Wuxia Li, J. C. Fenton, Ajuan Cui, Huan Wang, Yiqian Wang, Changzhi Gu, D.W. McComb, P. A. Warburton, Felling of individual freestanding nanoobjects using focused-ion-beam milling for investigations of structural and transport properties, Nanotechnology, 23(10), 105301 (2012).[PDF Download]
7. Lu Yuan, Yiqian Wang, Rongsheng Cai, Qike Jiang, Jianbo Wang, Boquan Li, Guangwen Zhou, The origin of hematite nanowire growth during the thermal oxidation of iron, Materials Science and Engineering B, 177(3), 327-336 (2012).[PDF Download]
8. Y. H. Ding, R. S. Cai, Y. Q. Wang, Y. Z. Chen, J. R. Sun, Dislocations in Bi
0.4Ca0.6MnO3 epitaxial film grown on (110) SrTiO3 substrate, Materials Letters, 67(1), 67-69 (2012).[PDF Download]
9. Li Chun-Yan£¬Liu Xue-Hua£¬Diao Fei-Yu, Liang Wen-Shuang, Wang Yi-Qian, Petrov Peter, Alford Neil, Microstructural defects and their formation mechanisms in Ba
0.75Sr0.25TiO3 epitaxial film, Journal of Inorganic Materials, 27(3), 285-290 (2012).[PDF Download]
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2011
1. Y. H. Ding, Y. Q. Wang, R. S. Cai, Y. Z. Chen, J. R. Sun, Effect of anisotropic strain on the charge ordering behavior in Bi
0.4Ca0.6MnO3 films, Applied Physics Letters, 99(19), 191914 (2011).[PDF Download]
2. Yajun Qi, Chuanwei Huang, Zuhuang Chen, Zhenlin Luo, Yiqian Wang, Jun Guo, Tim White, Junling Wang, Chen Gao, Thirumany Sritharan, Subodh G. Mhaisalkar, Lang Chen, Nanoscale phase separation in quasi-uniaxial and biaxial strained multiferroic thin films, Applied Physics Letters, 99(13), 132905 (2011).[PDF Download]
3. Rediola Mema, Lu Yuan, Qingtian Du, Yiqian Wang, Guangwen Zhou, Effect of surface stresses on CuO nanowire growth in the thermal oxidation of copper, Chemical Physics Letters, 512(1-3), 87-91 (2011).[PDF Download]
4. Lu Yuan, Yiqian Wang, Rediola Mema, Guangwen Zhou Driving force and growth mechanism for spontaneous oxide nanowire formation during the thermal oxidation of metals, Acta Materialia, 59(6), 2491-2500 (2011).[PDF Download]
5. Y. Q. Wang, W. S. Liang, G. G. Ross, Stacking faults energy of Si nanocrystals embedded in SiO
2, ISRN Nanotechnology, 2011, 639714/1-3 (2011).[PDF Download]
6. Y. Q. Wang, W. S. Liang, P. K. Petrov, N. M. Alford, Antiphase boundaries in Ba
0.75Sr0.25TiO3 epitaxial film grown on (001) LaAlO3 substrate, Applied Physics Letters, 98(9), 091910 (2011).[PDF Download]
7. Y. Q. Wang, W. S. Liang, P. K. Petrov, N. M. Alford, Dissociation of misfit and threading dislocations in Ba
0.75Sr0.25TiO3 epitaxial film, Materials Characterization, 62(3), 294-297 (2011).[PDF Download]
8. Y. H. Ding, R. S. Cai, Q. T. Du, Y. Q. Wang, Y. Z. Chen, J. R. Sun, Microstructure evolution of Bi
0.4Ca0.6MnO3 epitaxial films with different thickness, Journal of Crystal Growth, 317(1), 115-118 (2011).[PDF Download]
9. D. D. Jayaseelan, Y. Wang, G. E. Hilmas, W. Fahrenholtz, P. Brown, W. E. Lee, TEM investigation of hot-pressed 10vol.% SiC/ZrB
2 composite, Advances in Applied Ceramics, 110(1), 1-7 (2011).[PDF Download]
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2010
1. X. R. Li, Y. Q. Wang, G. J. Song, X. L. She, Z. Peng, S. L. Wang, and J. J. Li, Fabrication of Highly-Ordered Nanopatterned Copper Nanowire Arrays by Photolithography, Journal of Nanoscience and Nanotechnology, 10(7), 4363-4367 (2010).[PDF Download]
2. X. R. Li, Y. Q. Wang, G. J. Song, Z. Peng, Y. M. Yu, X. L. She, J. Sun, J. J. Li, P. D. Li, Z. F. Wang, X.F. Duan, Fabrication and magnetic properties of Ni/Cu shell/core nanocable arrays, The Journal of Physical Chemistry C, 114(15), 6914-6916 (2010).[PDF Download]
3. Y. Q. Wang, W. S. Liang, A. Satti, K. Nikitin, Fabrication and microstructure of Cu
2O nanocubes, Journal of Crystal Growth, 312(9), 1605-1609 (2010).[PDF Download]
4. G. J. Song, X. R. Li, Y. Q. Wang, Z. Peng, Y. M. Yu, P. D. Li, Patterned procedure for template-synthesis and microstructural characterization of copper nanowires, Materials Characterization, 61(3), 371-375 (2010).[PDF Download]
5. Y. Q. Wang, W. S. Liang, C. Y. Geng, Shape evolution of gold nanoparticles, Journal of Nanoparticle Research, 12(2), 655-661 (2010).[PDF Download]
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2009
1. X. R. Li, Y.Q. Wang, G. J. Song, Z. Peng, P. D. Li, Q. Lin, N. Zhang, Z. F. Wang, X. F. Duan, Fabrication of patterned polystyrene nanotube arrays in an anodic aluminum oxide template by photolithography and multiwetting mechanism, The Journal of Physical Chemistry B, 113(36), 12227-12230 (2009).[PDF Download]
2. Y. Q. Wang, T. Li, W. S. Liang, X. F. Duan, G. G. Ross, Dislocations in Si nanocrystals embedded in SiO
2, Nanotechnology, 20(31), 315704 (2009).[PDF Download]
3. X. R. Li, Y.Q. Wang, G. J. Song, Z. Peng, Y. M. Yu, X. L. She, Synthesis and growth mechanism of Ni nanotubes and nanowires, Nanoscale Research Letters, 4(9), 1015-1020 (2009).[PDF Download]
4. D. Lackner, O. J. Pitts, S. Najmi, P. Sandhu, K. L. Kavanagh, A. Yang, M. Steger, M. L. W. Thewalt, Y. Wang, D.W. McComb, C. R. Bolognesi, S. P. Watkins, Growth of InAsSb/InAs MQWs on GaSb for mid-IR photodetector applications, Journal of Crystal Growth, 311(14), 3563-3567 (2009).[PDF Download]
5. Y. Q. Wang, W. S. Liang, C. Y. Geng, Coalescence behavior of gold nanoparticles, Nanoscale Research Letters, 4(7), 684-688 (2009).[PDF Download]
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2008
1. Q. S. Kong, X. L. Wu, Y. G. Guo, Y. Q. Wang, Y. Z. Xia, J. Yu, H. H. Liu, X. F. Duan, Preparation of ZnO nanostructures by thermal decomposition of sodium alginate fibers, Acta Physico-Chimica Sinica, 24(12), 2179-2184 (2008).
2. U. Philipose, Ankur Saxena, Harry E. Ruda, P.J. Simpson, Y.Q. Wang, K.L. Kavanagh, Defect studies of ZnSe nanowires, Nanotechnology, 19(21), 215715 (2008).
3. Wuxia Li, J.C. Fenton, Yiqian Wang, D.W. McComb, P.A. Warburton, Tunability of the superconductivity of tungsten films grown by focused-ion-beam direct writing, Journal of Applied Physics, 104 (9), 093913 (2008).
4. Y.Q. Wang, K. Nikitin, D.W. McComb, Fabrication of Au-Cu
2O core-shell nanocube heterostructures, Chemical Physics Letters, 456 (4-6), 202-205 (2008).
5. Nicolas Schaeffer, Bien Tan, Calum Dickinson, Matthew J Rosseinsky, Anna Laromaine, David W McComb, Molly M Stevens, Yiqian Wang, Laure Petit, Catherine Barentin, David G. Spiller, Andrew I Cooper and Rapha?l L¨¦vy, Fluorescent or not? Size-dependent fluorescence switching for polymer-stabilized gold clusters in 1.1-1.7 nm size range, Chemical Communications, 34, 3986-3988 (2008).
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2007
1. J.M. Perkins, Y. Wang, B. Shollock, M. Ardakani, D.W. McComb, Initial results from the first monochromated FEI Titan 80/300 in the UK, Microsc. Microanal., 13 (Suppl. 2), 1244-1245 (2007).
2. G. G. Ross, D. Barba, C. Dahmoune, Y.Q. Wang, F. Martin, Erratum to ¡°Effect of implanted Si concentration on the Si nanocrystal size and emitted PL spectrum¡± [Nuclear Instruments and Methods in Physics Research, Section B, 256(1), 211 (2007)], Nuclear Instruments and Methods in Physics Research Section B, 259(2), 1004-1004, 2007.
3. V. Levitcharsky, R.G. Saint-Jacques, Y.Q. Wang, L. Nikolova, R. Smirani, G.G. Ross, Si implantation in SiO
2: structure of Si nanocrystals and composition of SiO2 layer, Surface & Coatings Technology, 201(19-20), 8547-8551 (2007).
4. Y. Q. Wang, U. Philipose, T. Xu, H. E. Ruda, K. L. Kavanagh, Twinning modulation in ZnSe nanowires, Semiconductor Science and Technology, 22 (3), 175-178 (2007).
5. R. Karmouch, Y. Anahory, J.F. Mercure, D. Bouilly, M. Chicoine, G. Bentoumi, R. Leonelli, Y.Q. Wang, F. Schiettekatte, Damage evolution in low-energy ion implanted silicon, Physical Review B, 75 (7), 075304 (2007).
6. G. G. Ross, D. Barba, C. Dahmoune, Y.Q. Wang, F. Martin, Effect of implanted Si concentration on the Si nanocrystal size and emitted PL spectrum, Nuclear Instruments and Methods B, 256 (1), 211-215 (2007).
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2006
1. Y. Q. Wang, R. Smirani, G. G. Ross The formation mechanism of Si nanocrystals in SiO
2, Journal of Crystal Growth, 294 (2), 486-489 (2006).
2. Y. Q. Wang, U. Philipose, H. E. Ruda, K.L. Kavanagh Planar defects and phase transformation in ZnSe nanosaws, Journal of Materials Science: Materials in Electronics, 17 (12), 1065-1070 (2006).
3. U. Philipose, T. Xu, S. Yang, P. Sun, H.E. Ruda, Y.Q. Wang, K.L. Kavanagh Enhancement of band edge luminescence in ZnSe nanowires, Journal of Applied Physics, 100 (8), 084316 (2006). Also selected for Virtual Journal of Nanoscale Science & Technology, November 6, 14(19), 2006.
4. H.E. Ruda, J.C. Polanyi, S.Y. Yang, Z.H. Wu, U. Philipose, T. Xu, S. Yang, K.L. Kavanagh, J.Q. Liu, L. Yang, Y. Wang, K. Robbie, J. Yang, K. Kaminska, D.G. Cooke, F.A. Hegmann, A.J. Budz, H.K. Haugen, Developing 1D nanostructure arrays for future nanophotonics (review article), Nanoscale Research Letters, 1 (2), 99-119 (2006).
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2005
1. Y. Q. Wang, R. Smirani, G. G. Ross, F. Schiettekatte Ordered coalescence of Si nanocrystals in SiO
2, Physical Review B (Rapid communications), 71 (16), 161310 (2005).
2. Y. Q. Wang, R. Smirani, G. G. Ross, Stacking faults in silicon nanocrystals, Applied Physics Letters, 86 (22), 221920 (2005). Also selected for Virtual Journal of Nanoscale Science and Technology 11 (23), 2005.
3. Y. Q. Wang, R. Smirani, F. Schiettekatte, G. G. Ross, Faceting of Si nanocrystals embedded in SiO
2, Chemical Physics Letters, 409 (1-3), 129-133 (2005).
4. R. Smirani, F. Martin, G. Abel, Y. Q. Wang, G. G. Ross, Modulation of the PL spectrum by depth selective excitation of an embedded Si-nc layer, Nanotechnology, 16 (1), 32-36 (2005).
5. G. G. Ross, R. Smirani, V. Levitcharsky, Y. Q. Wang, G. Veilleux, R. G. Saint-Jacques, Effect of Si implantation on the microstructure of silicon nanocrystals and surrounding SiO
2 layer, Nuclear Instruments and Methods B, 230, 198-202 (2005).
6. R. Smirani, F. Martin, G. Abel, Y. Q. Wang, M. Chicoine, G. G. Ross, The Effect of size and depth profile of Si-nc embedded in a SiO
2 layer on the photoluminescence spectra, Journal of Luminescence, 115 (1-2), 62-68 (2005).
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2004
1. Y. Q. Wang, R. Smirani, G. G. Ross, Effect of hydrogen passivation on the microstructure of silicon nanocrystals in SiO
2, Physica E, 23 (1-2), 97-101 (2004).
2. Y. Q. Wang, G. G. Ross, R. Smirani, The effect of implantation dose on the microstructure of silicon nanocrystals in SiO
2, Nanotechnology, 15(11), 1554-1560 (2004).
3. Y. Q. Wang, R. Smirani, G. G. Ross, Nanotwinning in silicon nanocrystals produced by ion implantation, Nano Letters, 4(10), 2041-2045 (2004).
4. S. Bysakh, K. Chattopadhyay, H. Ling, J. D. Wu, C. Dong, Y. Q. Wang, X. F. Duan, K.H. Kuo, A study of nanostructures of thin films in B-C-N system produced by pulsed laser deposition and nitrogen ion-beam-assisted pulsed laser deposition, Journal of Materials Research, 19 (3), 759-767 (2004).
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2003
1. Y. Q. Wang, X. F. Duan, Crystalline boron nanowires, Applied Physics Letters, 82(2), 272-274 (2003).
2. G. Q. Hu, X. Kong, Y. Q. Wang, L. Wan, X. F. Duan, Y. Lu, X. L. Liu, Formation mechanism of amorphous layer at the interface of Si (111) substrate and AlN buffer layer for GaN, Journal of Materials Science Letters, 22 (22), 1581-1583 (2003).
3. G. Q. Hu, X. Kong, L. Wan, Y. Q. Wang, X. F. Duan, Y. Lu, X. L. Liu, Microstructure of GaN films grown on Si (111) substrates by metalorganic chemical vapor deposition, Journal of Crystal Growth, 256 (3-4), 416-423 (2003).
4. G. Q. Hu, X. Kong, L. Wan, Y. Q. Wang, X. F. Duan, Y. Lu, X. L. Liu, Defects in GaN films grown on Si (111) substrates by metalorganic chemical vapor deposition, Chinese Physics Letters (in English), 20 (10), 1811-1814 (2003).
5. Y. Q. Wang, L. M. Cao, X. F. Duan, Amorphous feather-like boron nanowires, Chemical Physics Letters, 367 (3-4), 495-499 (2003).
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2002
1. D. Cherns, Y. Q. Wang, R. Liu, F. Ponce, Observation of coreless edge and mixed dislocation in Mg-doped Al
0.03Ga0.97N, Applied Physics Letters, 81(24), 4541-4543 (2002).
2. D. Cherns, M. Q. Baines, Y. Q. Wang, R. Liu, F. Ponce, H. Amano, I. Akasaki, Mg incorporation in AlGaN layers grown on grooved sapphire substrates, Physica Status Solidi B, 234(3), 850-854 (2002).
3. Y. Q. Wang, X. F. Duan, Z. H. Wang, B. G. Shen, TEM studies of an incommensurate charge ordering modulation in La
0.5Ca0.5MnO3, Materials Science & Engineering A, 333 (1-2), 80-84 (2002).
4. Y. Q. Wang, X. F. Duan, L. M. Cao, G. Li, W. K. Wang, Application of energy-filtering transmission electron microscopy to characterize the boron nanowires, Journal of Crystal Growth, 244 (1), 123-128 (2002).
5. Y. Q. Wang, X. F. Duan, L. M. Cao, W. K. Wang, One dimensional growth mechanism of amorphous boron nanowires, Chemical Physics Letters, 359(3-4), 273-277 (2002).
6. Y. Q. Wang, G. Q. Hu, X. F. Duan et al. Microstructure and formation mechanism of titanium dioxide nanotubes, Chemical Physics Letters, 365(5-6), 427-431 (2002).
7. X. Kong, Y. Q. Wang, H. Li, X. F. Duan, R. C. Yu, S. C. Li, C. Q. Jin, Electron energy-loss spectroscopy characterization of the boron p-like density of states in MgB
2, Applied Physics Letters, 80(5), 778-780 (2002).
8. G. Li, Y. Q. Wang, L. M. Zhang, Z. J. Zhan, L. L. Sun, J. Zhang, W. K. Wang, Wear behavior of bulk Zr
41Ti14Cu12.5Ni10Be22.5 metallic glasses, Journal of Materials Research, 17(8), 1877-1880 (2002).
9. J. Zhang, B.-G. Shen, S.-Y. Zhang, Y. Q. Wang, X. F. Duan, Structure and magnetic properties of nanostructured PrCo
7-xTix (x=0-0.4) prepared by mechanical milling and subsequent annealing, Applied Physics Letters, 80 (8), 1418-1420 (2002).
10. L. M. Cao, J. Liu, C. X. Gao, Y. C. Li, X. D. Li, Y. Q. Wang, et al., Synthesis of well-aligned boron nanowires and their structural stability under high pressure, Journal of Physics: Condensed Matter, 14(44), 11017-11021 (2002).
11. L. M. Cao, K. Hahn, Y. Q. Wang, et al. Featherlike boron nanowires arranged in large-scale arrays with multiple nanojunctions, Advanced Materials, 14 (18), 1294-1297 (2002).
12. L. M. Cao, K. Hahn, C. Scheu, M. Ruhle, Y. Q. Wang, et al. Template-catalyst-free growth of highly ordered boron nanowire arrays, Applied Physics Letters, 80 (22), 4226-4228 (2002). Also selected for Virtual Journal of Nanoscale Science and Technology 5 (22), 2002.
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2001
1. Y. Q. Wang, X. F. Duan, Z. H. Wang, B. G. Shen, Transmission electron microscopy studies of the effect of A-site cation size mismatch and disorder on charge ordering behavior in (La
1-xYx)0.5(Ca1-ySry)0.5MnO3, Applied Physics Letters, 78(15), 2157-2159 (2001).
2. Y. Q. Wang, X. F. Duan, Z. H. Wang, J. R. Sun, B. G. Shen, Charge ordering modulation observed in the (La
0.5Mn0.5)MnO3 phase of the multiphased manganite La0.9Sn0.1MnO3 at room temperature, Applied Physics Letters, 78(17), 2479-2481 (2001).
3. Y. Q. Wang, Ian Maclaren, X. F. Duan, Z. H. Wang, B. G. Shen, Effect of A-site cation size mismatch on charge ordering behavior in (La
1-xYx)0.5(Ca1-ySry)0.5MnO3, Journal of Applied Physics, 90(1), 488-492 (2001).
4. Y. Q. Wang, Ian Maclaren, X. F. Duan, EELS analysis of manganese valence states in rare-earth manganites (La
1-xYx)0.5(Ca1-ySry)0.5MnO3, Materials Science and Engineering A, 318(1-2), 259-263 (2001).
5. R. C. Yu, S. C. Li, Y. Q. Wang, X. Kong, J. L. Zhu, F. Y. Li, Z. X. Liu, X. F. Duan, Z. Zhang, C. Q. Jin, EELS studies of MgB
2 superconductor obtained under high pressure, Physica C, 363 (3), 184-188 (2001).
6. Z. T. Zhang, Y. Han, F.-S. Xiao, S. L. Qiu, L. Zhu, R. W. Wang, Z. Zhang , B. S. Zou, Y. Q. Wang, H. P. Sun, D. Y. Zhao, Y. Wei, Mesoporous aluminosilicates with ordered hexagonal structure, strong acidity and extraordinary hydrothermal stability at high temperatures, Journal of American Chemistry Society, 123 (21), 5014-5021 (2001).
7. L. M. Cao, Z. Zhang, L. L. Sun, C. X. Gao, M. He, Y. Q. Wang, et al., Well aligned boron nanowire arrays, Advanced Materials, 13 (22), 1701-1704 (2001).
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Before 2000
1. Z. H. Wang, T. H. Ji, Y. Q. Wang, X. Chen, R. W. Li, J. W. Cai, J. R. Sun, B. G. Shen, C. H. Yan, Magnetoresistance of La
0.5Sr0.5MnO3 nanoparticle compact, Journal of Applied Physics, 87 (9), 5582-5584 (2000).
2. G. W. Zhou, H. Li, H. P. Sun, D. P. Yu, Y. Q. Wang, X. J. Huang, L. Q. Chen, Z. Zhang, Controlled Li doping of Si nanowires by electrochemical insertion method, Applied Physics Letters, 75(16), 2447-2449 (1999).
3. Y. Q. Wang, J. Li, The sliding wear behavior and mechanism of ultra high molecular weight polyethylene, Materials Science and Engineering A, 266 (1-2), 155-160 (1999).
4. Y. Q. Wang, L. P. Huang, W. L. Liu, J. Li, The blast erosion behaviour of ultra high molecular weight polyethylene, Wear, 218(1), 128-133 (1998).
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