Zhao Research Group

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• Y.-P. Zhao, D.-X. Ye, Pei-I Wang, G.-C. Wang, and T.-M. Lu, “Fabrication Si nano-columns and square springs on self-assembly colloid substrates,” International Journal of Nanoscience 1, 87 (2002).

• Y.-P. Zhao, D.-X. Ye, G.-C. Wang, and T.-M. Lu, “Novel nano-column and nano-flower arrays by glancing angle deposition,” Nano Letters 2, 351–354 (2002).

• D.-X. Ye, Y.-P. Zhao, G.-R. Yang, Y.-G. Zhao, G.-C. Wang, and T.-M. Lu, “Manipulating the column tilt angles of nanocolumnar films by glancing angle deposition,” Nanotechnology 13, 615–618 (2002).

• F. Tang, D.-L. Liu, D.-X. Ye, Y.-P. Zhao, T.-M. Lu, G.-C. Wang, and A. Vijayaraghavan, “Magnetic properties of Co nanocolumns fabricated by oblique-angle deposition,” J. Appl. Phys. 93, 4194–4200 (2003).

• T. Karabacak, J. P. Singh, Y.-P. Zhao, G.-C. Wang, and T.-M. Lu, “Scaling during shadowing growth of isolated nanocolumn,” Phys. Rev. B 68, 125408 (2003).

• J.-G. Fan and Y.-P. Zhao, “Direct deposition of aligned nanorod array onto cylindrical objects,” J. Vac. Sci. Technol. B 23, 947–953 (2005).

• Y.-P. Zhao, S.-H. Li, S. B. Chaney, S. Shanmukh, J.-G. Fan, R. A. Dluhy, and W. Kisaalita, “Designing nanostructures for sensor applications,” J. Electric Mater. 35, 846–851 (2006).

• Y. He, J. Fu, Y. Zhang, Y. Zhao, L. Zhang, A. Xia, and J. Cai, "Multilayered Si/Ni nanosprings and their magnetic properties," Small 3, 153–160 (2007).

• W. Smith, Z.-Y. Zhang, and Y.-P. Zhao, “Structural and optical characterization of WO3 nanorods/films prepared by oblique angle deposition,” J. Vac. Sci. Technol. B 25, 1875–1881 (2007).

• Y.-P. He, Y.-P. Zhao, and J.-S. Wu, “The effect of Ti doping on the growth of Mg nanostructures by oblique angle co-deposition,” Appl. Phys. Lett. 92, 063107 (2008).

• J.-X. Fu, Y.-P. He, and Y.-P. Zhao, “Fabrication of heteronanorod structures by dynamic shadowing growth,” IEEE Sensors 8, 989–997 (2008).

• J.-X. Fu, B. Park, G. Siragusa, L. Jones, R. A. Tripp,Y.-P. Zhao, and Y.-J. Cho, “Au/Si hetero-nanorod-based biosensor for Salmonella detection,” Nanotechnology 19, 155502 (2008).

• Y.-P. He, Z.-Y. Zhang, C. Hoffmann, and Y.-P. Zhao, “Embedding Ag nanoparticles into MgF2 nanorod arrays,” Advanced Functional Materials 18, 1676–1684 (2008).

• R. Blackwell and Y.-P. Zhao, “Metal nanoparticle embedded porous thin film prepared by oblique angle co-evaporation,” J. Vac. Sci. Technol. B 26, 1344–1349 (2008).

• W. Smith and Y.-P. Zhao, “Enhanced photocatalytic activity by aligned WO3/TiO2 two-layer nanorod array,” J. Phys. Chem. C 112, 19635–19641 (2008).

• W. Smith and Y.-P. Zhao, “Superior photocatalytic performance by vertically aligned core-shell TiO2/WO3 nanorod arrays,” Catalysis Communications 10, 1117–1121 (2009).

• Y.-P. He and Y.-P. Zhao, “Mg nanostructures tailored by glancing angle deposition,” Crystal Growth & Design 10, 440–448 (2010).

• Yuping He, Jianguo Fan, and Yiping Zhao, “Engineering a well-aligned composition-graded CuSi nanorod array by an oblique angle co-deposition technique,” Crystal Growth & Design 10, 4954–4958 (2010).

• Y.-P. He and Y.-P. Zhao, "Advanced multi-component nanostructures designed by dynamic shadowing growth," Nanoscale 3, 2361-2375 (2011).

• George Larsen, Robert Carl Fitzmorris, Jin Z. Zhang, and Yiping Zhao, "Structural, optical, and photocatalytic properties of Cr:TiO2 nanorod array fabricated by oblique angle co-deposition," J. Phys. Chem. C 115, 16892–16903 (2011).

• Y.-P. Zhao, Y.-P. He, and C. Brown, "Composition dependent nanocolumn tilting angle during the oblique angle co-deposition," Appl. Phys. Lett. 100, 033106 (2012).

• Yuping He, Bo Yang, Kaikun Yang,Cameron Brown,Ramaraja Ramasamy,Howard Wang,Cynthia Lundgren,and Yiping Zhao, "Designing Si-based nanowall arrays by dynamic shadowing growth to tailor the performance of Li-ion battery anodes," Journal of Materials Chemistry 22, 8294–8303 (2012).

• Qin Zhou, Xian Zhang, Yu Huang, Zhengcao Li,Yiping Zhao, and Zhengjun Zhang, "Enhanced SERS performance by folding Silver nanorods," Appl. Phys. Lett. 100, 113101 (2012).

• Hao Zhu, Wei Cao, George K. Larsen, Ryan Toole, and Yiping Zhao, “Tilting angle of nanocolumnar films fabricated by oblique angle deposition,”Journal of Vacuum Science and Technology B 30, 030606 (2012).

• George K. Larsen, Bob C. Fitzmorris, Claudia Longo, Jin Z. Zhang, and Yiping Zhao, "Nanostructured homogenous CdSe/TiO2 composite visible light photoanodes fabricated by oblique angle codeposition," Journal of Materials Chemistry 22, 14205–14218 (2012).

• Yuping He, Cameron Brown, Cynthia A. Lundgren, and Yiping Zhao, "The growth of CuSi composite nanorod arrays by oblique angle co-deposition, and their structural, electrical, and optical properties," Nanotechnology 23, 365703 (2012).

• R. C. Jayasinghe, A. G. U. Perera, H. Zhu, and Y. Zhao, "Optical properties of nanostructured TiO2 thin films and their application as antireflection coatings on infrared detectors," Opt. Lett. 37, 4302–4304 (2012).

• Pradip Basnet, George K. Larsen, Ravirajsinh P. Jadeja, Yen-Con Hung, and Yiping Zhao, "α-Fe2O3 nanocolumns and nanorods fabricated by electron beam evaporation for visible light photocatalytic and antimicrobial applications," ACS App. Mater. Interfaces 5, 2085–2095(2013).

• Yizhuo He, Pradip Basnet, Simona Murph, and Yiping Zhao, "Ag nanoparticle embedded TiO2 composite nanorod arrays fabricated by oblique angle deposition: toward plasmonic photocatalysis," ACS Applied Materials & Interfaces 5, 11818–11827 (2013).

• George K. Larsen, Yizhuo He, Jin Wang, and Yiping Zhao, "Scalable fabrication of composite Ti/Ag plasmonic helices: controlling morphology and optical activity by tailoring material properties," Adv. Opt. Mat. 2, 245–249 (2014).

• Kun Yao, Ryan Toole, Pradip Basnet, and Yiping Zhao, “Highly sensitive double-layered nanorod array gas sensors prepared by oblique angle deposition,” Appl. Phys. Lett. 104, 073110 (2014).

• Yizhuo He, George Larsen, Whitney Ingram, and Yiping Zhao, "Tunable three-dimensional helically stacked plasmonic layers on nanosphere monolayers," Nano Letters 14, 1976–1981 (2014).

• Yizhuo He, George Larsen, Xibo Li, Whitney Ingram, Funing Chen, and Yiping Zhao, "Nanoscale conical Swiss roll with broadband visible and near-IR circular dichroism," Advanced Optical Materials 3, 342–346 (2015).

• Pradip Basnet and Yiping Zhao, "Tuning the CuxO nanorod composition for efficient visible light induced photocatalysis," Catalysis Science & Technology 6, 2228 - 2238 (2016).

• Kun Yao, Pradip Basnet, Henry Sessions, Simona E. Hunyadi Murph, and Yiping Zhao, "Fe2O3-TiO2 core-shell nanorod arrays for visible light photocatalytic applications," Catalysis Today 270, 51 - 58 (2016).

• Steven Larson and Yiping Zhao, "Tuning the Composition of BixWyO nanorods towards zero bias PEC water splitting," Nanotechnology 27, 255401 (2016).

• Steven Larson, Weijie Huang, and Yiping Zhao, "Combinatorial fabrication of composite nanorods using oblique angle co-deposition," Nanotechnology 27, 365304 (2016).

• Caiqin Han, Dexian Ye, Yiping Zhao. and Junxue Fu, "Physical vapor deposition of Ag nanoparticles through shadowing and re-emission effects," Journal of Vacuum Science and Technology B 36, 051802 (2018).

• Yanfeng Wang, Zhengjun Zhang, and Yiping Zhao, "The IR plasmonic properties of sub-wavelength ITO rod arrays predicted by anisotropic effective medium theory," Nanotechnology 31, 075203 (2020).

• Weijie Huang, Xibo Li, Bin Ai, and Yiping Zhao, “Facile fabrication of composite Ag/Fe3O4 and porous Fe3O4 nanorods based on oblique angle co-deposition,” J. Phys. Chem. C 125, 11750–11755 (2021).

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