George K. Larsen, Nicholas Stom, and Yiping Zhao, "Continuously tuning the spectral response of chiral plasmonic patchy particles through galvanic replacement reaction," RSC Advances 5, 101257 -101261 (2015).

Whitney Ingram, Caiqin Han, Qiuju Zhang, and Yiping Zhao, "Optimization of Ag Coated Polystyrene Nanosphere Substrates for Quantitative Surface Enhanced Raman Spectroscopy Analysis," Journal of Physical Chemistry C, DOI: 10.1021/acs.jpcc.5b06896.

Yizhuo He, Keelan Lawrence, Whitney Ingram, and Yiping Zhao, “Strong local chiroptical response in racemic patchy Silver films: enabling a large-area chiroptical device,” ACS Photonics 2, 1246-1252 (2015)

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).

George K. Larsen and Yiping Zhao, “Extracting the anisotropic optical parameters of chiral plasmonic nanostructured thin films using generalized ellipsometry,” Appl. Phys. Lett. 105, 071109 (2014).

George K. Larsen, Yizhuo He, Whitney Ingram, Ethan T. LaPaquette, Jing Wang, and Yiping Zhao, "The fabrication of three-dimensional plasmonic chiral structures by dynamic shadowing growth," Nanoscale 6, 9467–9476 (2014).

Yizhuo He, George Larsen, Whitney Ingram, and Yiping Zhao, "Tunable 3D helically stacked plasmonic layers on nanosphere monolayers," Nano Letters 14, 1976–1981 (2014).

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).

Yizhuo He, Junxue Fu, and Yiping Zhao, "Oblique angle deposition and its applications in plasmonics," Frontiers of Physics 9, 47–59 (2014).

George Larsen, Yizhuo He, Whitney Ingram, and Yiping Zhao, "Hidden chirality in superficially racemic patchy Silver films," Nano Lett. 13, 6228-6232 (2013).

Wei Cao, Chunyuan Song, Thomas E. Lanier, Ranjan Singh, John F. O’Hara, William M. Dennis, Yiping Zhao, and Weili Zhang, "Tailoring terahertz plasmons with silver nanorod arrays," Scientific Reports 3, doi:10.1038/srep01766 (2013).

Pradip Basneta, George K. Larsena, 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).

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).

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).

Yuping He, Cameron Brown, Yizhuo He, Jianguo Fan,Cynthia A. Lundgrenc and Yiping Zhao, "Porous three-dimensional nanorod arrays through selective chemical etching of nanocomposites," Chem. Com. 48, 7741-7743 (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).

X. J. Wang, J. L. Abell, Y.-P. Zhao, and Z. M. Zhang, "Angle-resolved reflectance of obliquely aligned silver nanorods," Applied Optics 51,  1521-1531 (2012).

X. J. Wang, A. M. Haider, J. L. Abell, Y.-P. Zhao, and Z. M. Zhang, "Anisotropic diffraction from inclined Silver nanorod arrays on grating templates," Nanoscale and Microscale Thermophysical Engineering 16, 18-36 (2012).

C.-Y. Song, J. Chen, J. L. Abell, Y.-P. Cui, and Y.-P. Zhao, "Ag-SiO2 core-shell nanorod arrays: morphological, optical, SERS, and wetting properties," Langmuir 28, 1488–1495 (2012).

C.-Y. Song, J. L. Abell, Y. -P. He, S. H. Murph, Y. -P. Cui, and Y. -P. Zhao, "Gold-modified Silver nanorod arrays: growth dynamics and improved SERS properties," Journal of Materials Chemistry 22, 1150-1159 (2012).

Qin Zhou, Yuping He, Justin Abell, Zhengjun Zhang, and Yiping Zhao, "Optical properties and surface enhanced Raman scattering of L-shaped silver nanorod arrays," J. Phys. Chem. C 115, 14131–14140 (2011).

J. L. Abell, J.M. Garren, and Y.-P. Zhao, "Dynamic rastering SERS measurements on silver nanorod substrates," Applied Spectroscopy 65, 734 -740 (2011).

Yu. Zhu, R. A. Dluhy, and Y.-P. Zhao, "Development of silver nanorod array based fiber optic probes for SERS detection," Sensors & Actuators B 157, 42-50 (2011).

Z.-Y. Zhang and Y.-P. Zhao, "The visible extinction peaks of Ag nano-helixes: a periodic effective dipole model," Appl. Phys. Lett. 98, 083102 (2011).

Qin Zhou, Yuping He, Justin Abell, Zhengjun Zhang, and Yiping Zhao, "Surface-enhanced Raman scattering from helical silver nanorod arrays," Chem. Comm. 47, 4466-4468 (2011).

Qin Zhou, Yongjun Liu, Yuping He, Zhengjun Zhang, and Yiping Zhao, “The effect of underlayer thin films on the surface-enhanced Raman scattering response of Ag nanorod substrates,” Appl. Phys. Lett 97, 121902 (2010).

Chien Y. Lin, Yun H. Wang, Jung Y. Huang, Yongjun Liu and Yiping Zhao, “Impact of electric quadrupolar coupling on the optical response of an array of nano-objects,” J. Phys.: Condens. Matter 22,  225301 (2010).

Yongjun Liu, Hsiao Chu, and Yiping Zhao, "Silver nanorod array substrates fabricated by oblique angle deposition: morphological, optical and SERS characterizations," J. Phys. Chem. C 114, 8176–8183 (2010).

J.-X. Fu and Y.-P. Zhao, "Au nanoparticle based localized surface plasmon resonancesubstrates fabricated by dynamic shadowing growth," Nanotechnology 21, 175303 (2010).

Y.-J. Liu, Z.-Y. Zhang, R. A. Dluhy, and Y.-P. Zhao, ‘‘The SERS response of semiordered Ag nanorod arrays fabricated by template oblique angle deposition,’’ Journal of Raman Spectroscopy 411112–1118(2010).

J.-X. Fu, B. Park, and Y.-P. Zhao, “Nanorod mediated surface plasmon resonance sensor based on effective medium theory,” Applied Optics 48, 4637–4649 (2009).

Y.-J. Liu, Z.-Y. Zhang, Q. Zhao, R. Dluhy, and Y.-P. Zhao, “The surface enhanced Raman scattering from Ag nanorod array substrate: the site dependent enhancement and layer absorbance effect,” J. Phys. Chem. C 113, 9664–9669 (2009).

Z.-Y. Zhang, Y.-J. Liu, Q. Zhao, and Y.-P. Zhao, “The effect of layer absorbance for complex SERS substrates,” Appl. Phys. Lett. 94, 143107 (2009).

Y.-J. Liu, Z.-Y. Zhang, Q. Zhao, R. A. Dluhy, and Y.-P. Zhao, “The role of the nano-spine in the nanocomb arrays for surface enhanced Raman scattering,” Appl. Phys. Lett. 94, 033103 (2009).

Y.-J. Liu, Z.-Y. Zhang, Q. Zhao, and Y.-P. Zhao, “Revisiting the separation dependent surface enhanced Raman scattering,” Appl. Phys. Lett. 93, 173106 (2008).

J.-X. Fu, A. Collins, and Y.-P. Zhao, “The optical properties and biosensor application of ultra thin Silver films prepared by oblique angle deposition,” J. Phys. Chem. C 112, 16784–16791(2008).

Y.-J. Liu and Y.-P. Zhao, “Simple model for surface-enhanced Raman scattering from tilted silver nanorod array substrates," Phys. Rev. B 78, 075436 (2008).

Y.-P. He, Z.-Y. Zhang, and Y.-P. Zhao, “Optical and photocatalytic properties of oblique angle deposited TiO2 nanorod array,” J. Vac. Sci. Technol. B 26, 1350–1358 (2008).

Z.-Y. Zhang and Y.-P. Zhao, “Optical properties of U-shaped Ag nanostructure,” J. Phys.: Condens. Matter 20, 345223 (2008).

Z.-Y. Zhang and Y.-P. Zhao, “Optical properties of helical and multi-ring Ag nanostructures: the effect of pitch height,” J. Appl. Phys. 104, 013517 (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).

Z.-Y. Zhang and Y.-P. Zhao, "The optical properties of helical Ag nanostructures calculated by discrete dipole approximation method," Appl. Phys. Lett. 90, 221501 (2007).

Y. Liu, J. Fan, S. Shanmukh, R. A. Dluhy, and Y.-P. Zhao, “Angle dependent surface enhanced Raman scattering obtained from a Ag nanorod array substrate,” Appl. Phys. Lett. 89, 173134 (2006).

Y.-P. Zhao, S. B. Chaney, and Z.-Y. Zhang, “ Absorbance spectra of aligned Ag nanorod arrays prepared by oblique angle deposition,” J. Appl. Phys. 100, 063527 (2006).

S. B. Chaney, Z.-Y. Zhang, and Y.-P. Zhao, “Anomalous polarized absorbance spectra of aligned Ag nanorod arrays,” Appl. Phys. Lett. 89, 053117 (2006).

Z.-Y. Zhang and Y.-P. Zhao, “Tuning the optical absorption properties of Ag nanorods by their topologic shapes: A discrete dipole approximation calculation,” Appl. Phys. Lett. 89, 023110 (2006).

Y.-P. Zhao, Stephen B. Chaney , Saratchandra Shanmukh, and Richard A. Dluhy, “Polarized surface enhanced Raman and absorbance spectra of aligned Silver nanorod arrays,” J. Phys. Chem. B 110, 3153–3157 (2006).

S. B. Chaney, S. Shanmukh, Y.-P. Zhao, and R. A. Dluhy, “Aligned silver nanorod arrays produce high sensitivity SERS substrates,” Appl. Phys. Lett. 87, 031908 (2005).