Publication List
2D Photonic Crystals
"Photonic band tuning in two-dimensional photonic crystal slab waveguides by atomic layer deposition,"
E. Graugnard, D. P. Gaillot, S. N. Dunham, C. W. Neff, T. Yamashita, and C. J. Summers, Appl. Phys. Lett. 89,181108 (2006).
Selected for the Virtual Journal of Nanoscale Science & Technology, 14 November 13 (2006)."Polarization beam splitter based on a photonic crystal heterostructure,"
E. Schonbrun, Q. Wu, W. Park, T. Yamashita, and C. J. Summers, Optics Letters 31 (21), 3104-6 (2006)."Negative index imaging by index-matched photonic crystal slab,"
E. Schonbrun, T. Yamashita, W. Park and C. J. Summers, Phys. Rev. B 73, 195117, (2006)."Evaluation of Self-collimated beams in photonic crystals for optical interconnect,"
T. Yamashita and C. J. Summers, J. Selected Areas in Communication 23, No. 7 (2005)."A photonic crystal superlattice based on triangular lattice,"
C. W. Neff and C. J. Summers, Optics Express 13, no. 8, 3166-3173 (2005)."Photonic crystals fabricated using patterned nanorod arrays,"
X. D. Wang, C. Neff, E. Graugnard, Y. Ding, J.S. King, L.A. Pranger, R. Tannenbaum, Z.L. Wang, C.J. Summers, Adv. Mater. 17, 2103 (2005)."Optical Properties of Superlattice Photonic Crystal Waveguides,"
W. Park and C. J. Summers, Appl. Phys. Lett. 84, 2013 (2004)." Active Photonic Crystal Nano-Architectures,"
C. J. Summers, C. W. Neff, and W. Park, J. Nonlinear Optical Phys. and Materials 12(4), 587-97 (2003)."Extraordinary Refraction and Dispersion in 2D Photonic Crystal Slabs" W. Park and C. J. Summers, Optics Letters, 27, 1397 (2002).
3D Photonic Crystals
"Enhanced tunable Bragg diffraction in large-pore inverse opals using dual-frequency liquid crystal,"
E. Graugnard, S. N. Dunham, J. S. King, D. Lorang, S. Jain, and C. J. Summers, Appl. Phys. Lett. (in press)."Tunable Bragg peak response in liquid crystal infiltrated photonic crystals,"
D.P. Gaillot and C.J. Summers, J. Opt. Soc. Amer. B 24, 7 (2007)"Photonic band gaps in non-close-packed inverse opals,"
D.P. Gaillot and C.J. Summers, J. Appl. Phys. 100, 113118 (2006)"High filling fraction gallium phosphide inverse opals by atomic layer deposition,"
E. Graugnard, V. Chawla, D. Lorang, and C.J. Summers, Appl. Phys. Lett. 89, 211102 (2006)"Luminescent and tunable 3D photonic crystal structures,"
C.J. Summers, E. Graugnard, D. P. Gaillot, and J.S. King, J. Nonlinear Opt. Phys. Mater., 15, 203 (2006)."Liquid-Crystals for optical filters, switches and tunable negative index material development,"
I.C. Khoo, Y. Williams, A. Diaz, K. Chen, J. A. Bossard, L. Li, D. H. Werner, E. Graugnard, J. S. King, S. Jain, and C. J. Summers, Molecular Crystals and Liquid crystals, 453, 309 (2006)."Infiltration and inversion of holographically-defined polymer photonic crystal templates by atomic layer deposition,"
J. S. King, E. Graugnard, O. M. Roche, D. N. Sharp, J. Scrimgeour, R. G. Denning, A. J. Turberfield, and C. J. Summers, Adv. Mater. 18, 1561 (2006)."Sacrificial-layer atomic layer deposition for fabrication of non-close-packed inverse opal photonic crystals,"
E. Graugnard, J. S. King, D. P. Gaillot and C. J. Summers, Adv. Func. Mater. 16, 1187 (2006)."Conformally back-filled, non-close-packed inverse-opal photonic crystals,"
J. S. King, D. Gaillot, E. Graugnard, and C. J. Summers, Adv. Mater. 18, 1063 (2006)."Photoluminescence modification by high-order photonic bands in TiO2/ZnS:Mn multilayer inverse opals,"
J. S. King, E. Graugnard, and C. J. Summers, Appl. Phys. Lett. 88 081109 (2006)."Electric field tuning of the Bragg peak in non-close-packed TiO2 inverse shell opals,"
E. Graugnard, J. S. King, S. Jain, Y. Zhang-Williams, I. C. Khoo, C. J. Summers, Phys. Rev. B 72, 233105 (2005)."Photonic bandgaps in highly conformal inverse opal based photonic crystals,"
D. Gaillot, T. Yamashita, C.J. Summers, Phys. Rev. B. 72, 205109 (2005).
Selected for the Virtual Journal of Nanoscale Science & Technology, 12 November 21 (2005)."Atomic layer deposition in porous materials: 3D photonic crystals,"
J. S. King, D. Heineman, E. Graugnard, and C.J. Summers, Appl. Surf. Sci. 244 511 (2005)."TiO2 inverse opals fabricated using low temperature atomic layer deposition,"
J. S. King, E. Graugnard, and C.J. Summers, Adv. Mater. 17 1010 (2005)."ZnS-based photonic crystal phosphors fabricated using atomic layer deposition,"
J. S. King, C. W. Neff, S. Blomquist, E. Forsythe, D. Morton, and C. J. Summers, Phys. Stat. Sol. (b) 241 (2004)."Nonspherical ZnS colloidal building blocks for three-dimensional photonic crystals,"
C. M. Liddell and C. J. Summers, J. of Colloid and Interface Sci. 274, 103 (2004)."Monodispersed ZnS Dimers, Trimers, and Tetramers for Lower Symmetry Photonic Crystal Lattices,"
C. M. Liddell and C. J. Summers, Adv. Mater. 15, 1715 (2003)."High filling fraction inverted ZnS opals fabricated by atomic layer deposition,"
J. S. King, C.W. Neff, W. Park, D. Morton, E. Forsythe, S. Blomquist, and C. J. Summers, Appl. Phys. Lett. 83, 2566 (2003)."Stereological Estimation of Morphology Distribution of ZnS Colloidal Clusters for Photonic Crystal Applications,"
C. M. Liddell, C. J. Summers, A. M. Gokhale. Mater. Charac. 50, 69 (2003)."ZnS-Based Photonic Crystals,"
W. Park, J. S. King, C. W. Neff, C. Liddell, C. J. Summers, Phys. Stat. Sol. (b). 229, 949 (2002).
Conventional & Quantum Dot Phosphors
"Manganese-doped Zinc Silicate-bearing Phosphor Microparticles with Controlled 3-D Shapes Derived from Diatom Frustules,"
Y. Cai, M. B. Dickerson, M. S. Haluska, Z. Kang, C. J. Summers, and K. H. Sandhage, Submitted to J. Am. Ceram. Soc."Synthesis of silicon quantum dot buried SiOx films with controlled luminescent properties for solid-state lighting,"
Z. T Kang, B. Arnold, C. J. Summers, and B. K. Wagner, Nanotechnology, 17 (17), 4477-82 (2006)."Oxygen-doped ZnTe phosphors for synchrotron X-ray imaging detectors,"
Z. T. Kang, H. Menkara, B. K. Wagner, C. J. Summers, R. Durst, Y. Diawara, G. Mednikova, and T. Thorson, Journal of Electronic Materials, 35 (6), 1262-6 (2006)."Rapid, room-temperature formation of crystalline calcium molybdate phosphor microparticles via peptide-induced precipitation,"
G. Ahmad, M. B. Dickerson, B. C. Church, Y. Cai, S. E.Jones, E. Sharon, R. R. Naik, J. S. King, C. J. Summers, N. Kroger, and K. H. Sandhage, Advanced Materials, 18 (13), 1759-1763 (2006)."Luminescence properties of Mn2+ doped Zn2SiO4 phosphor films synthesized by combustion CVD,"
Z. T. Kang, Y. Liu, B. K. Wagner, R. Gilstrap, M. Liu, and C. J. Summers, Journal of Luminescence, 121 (2) SPEC. ISS., 595-600 (2006)."ZnTe:O phosphors development for X-ray imaging applications,"
Z. T. Kang, H. Menkara, B. K. Wagner,C. J. Summers, R. Durst, Y. Diawara, G. Mednikova, T. Thorson, Appl. Phys. Lett. 88, 111904 (2006).
Selected for the Virtual Journal of Biological Physics Research, 11 (6), 2006."Effects of annealing atmosphere on the luminescent efficiency of ZnTe:O phosphors,"
Z. T. Kang, H. Menkara, B. K. Wagner, C. J. Summers, R. Durst, Y. Diawara, G. Mednikova, T. Thorson, J. Lumin. 117, 156-162 (2006)."Phosphor microparticles of controlled three-dimensional shape from phytoplankton,"
M. R. Weatherspoon, M. S. Haluska, Cai Ye, J. S. King, C. J. Summers, R. L. Snyder, and K. H. Sandhage, Journal of the Electrochemical Society, 153 (2), H34-7 (2006)."Synthesis and characterization of oxygen doped ZnTe for powder phosphor application,"
Z. T. Kang, H. Menkara, B. K. Wagner et al., J. Mater. Research 20 (9), 2510-2515 (2005)." Second-order luminescent saturation effects in SrGa2S4:Eu,"
P. Manigault, C. J. Summers and C. Stoffers, Appl. Phys. Lett. 81 (20), 3753-3755 (2002)." Photoluminescence properties of red emitting BaGdB(9)O(1)6:Eu phosphor,"
W. Park, C. J. Summers, Y. R. Do, et al., J. Mater. Sci. 37 (18), 4041-4045 (2002)." Uniform nanoscale SiO2 encapsulation of ZnS phosphors for improved aging properties under low voltage electron beam excitation,"
Y. R. Do, D. H. Park, H. G.Yang, W. Park, B. K. Wagner, K. Yasuda, and C. J. Summers, J. Elec. Soc. 148 (10), G548-G551 (2001)." Synthesis and photoluminescence enhancement of Mn2+-doped ZnS nanocrystals,"
S. W. Lu, B. I. Lee, Z. L. Wang, W. S. Tong, B. K. Wagner, W. Park, and C. J. Summers, J. Lumin. 92 (1-2), 73-78 (2000)." Photoluminescence properties of A1(3)GdB(4)O(12):Eu phosphors,"
W. Park, R. Y. Lee, C. J. Summers, et al., Mater. Sc. Eng. B 78 (1), 28-31 (2000)."Thin SiO2 coating on ZnS phosphors for improved low-voltage cathodoluminescence properties,"
W. Park, B. K. Wagner, G. Russell, K. Yasuda, C. J. Summers, et al. J. Mater. Res. 15 (11), 2288-2291 (2000)." The Fifth IUMRS International Conference on Advanced Materials, Display Materials Symposium,"
X. R. Xu, A. C. Lowe, H. J.Gao, and C. J. Summers, Displays 21 (2-3), 45-45 (2000)." Codoping studies of physical vapor phase deposition of SrS:Cu,"
W. Tong, Y. B. Xin, T. C. Jones, W. Park, C. J. Summers, Displays 21 (2-3), 83-87 (2000)." Oxidation and diffusion of Cu in SrS:Cu grown by MBE for blue phosphors,"
Y. B. Xin, W. Tong, Z. L. Wang, W. Park, C. J. Summers, et al., Displays 21 (2-3), 89-92 (2000)." Recent progress in the development of full color SrS-based electroluminescent phosphors,"
C. J. Summers, B. K. Wagner, W. Tong, et al., J. Crystal Growth 214, 918-925 (2000)." Uniform and continuous Y2O3 coating on ZnS phosphors,"
W. Park, K. Yasuda, B. K. Wagner, C. J. Summers, et al., Mater. Sc. Eng. B 76 (2),122-126 (2000)." Cathodoluminescent properties of coated SrGa2S4:Eu2+ and ZnS:Ag,Cl phosphors for field emission display applications,"
J. C. Souriau, Y. D. Jiang, J. Penczek, and C. J. Summers, Mater. Sc. Eng. B 76 (2), 165-168 (2000)." A spectroscopic study on SrS:Cu,Ag two-component electroluminescent phosphors,"
W. Park, T. Jones, C. J. Summers, J. Lumin. 87-9, 1267-1270 (2000)." Saturation effects in Y2SiO5:Tb under low-voltage excitation,"
C. Stoffers, R. Y. Lee, J. Penczek, B. K. Wagner, C. J. Summers, et al., Appl. Phys. Lett. 76 (8), 949-951 (2000)." Synthesis and properties of green phosphor SrGa2S4:Eu2+ for field emission displays by an environmentally clean technique,"
Y. D. Jiang, G. Villalobos, J. C. Souriau, H. Paris, C. J. Summers, et al., Solid State Comm. 113 (8), 475-478 (2000)."Recent developments in low voltage cathodoluminescent phosphors,"
B. K. Wagner, F. Zhang, P. Manigault, W. Park, C. J. Summers, P. N. Yocom, A. Zarimba, Proceedings of the Seventh International Display Workshops, 833-836 (2000).
Nanotechnology & Spintronics
"Shape-Preserving Reduction of 3-D Silica Micro-Assemblies into Microporous Silicon,"
Z. Bao, M. R. Weatherspoon, Y. Cai, G. Ahmad, M. B. Dickerson, B. C. Church, Z. Kang, C. J. Summers, H. W. Abernathy, III, M. Liu, and K. H. Sandhage. Submitted to Nature."Optical studies of MOCVD-grown GaN-based ferromagnetic semiconductor epilayers and devices,"
M. H. Kane, M. Strassburg, W. E. Fenwick, A. Asghar, J. Senawiratne, D. Azamat, Z. Hu, E. Malguth, S. Graham, U. Perera, W. Gehlhoff, A. Hoffmann, N. Dietz, C. J. Summers, and I. T. Ferguson, Physica Status Solidi C 3 (6), 2237-40 (2006)."Density-controlled growth of aligned ZnO nanowires sharing a common contact: a simple, low-cost, and mask-free technique for large-scale applications,"
X. Wang, J. Song, C. J. Summers, J. H. Ryou, P. Li, R. D. Dupuis, and Z. L. Wang, Journal of Physical Chemistry B, 110 (15), 7720-4 (2006)."The Fermi level dependence of the optical and magnetic properties of Ga1-xMnxN grown by metal-organic chemical vapour deposition,"
M. Strassburg, M. H. Kane, A. Asghar, Q. Song, Z. J. Zhang, J. Senawiratne, M. Alevli, N. Dietz, C. J. Summers, and I. T. Ferguson, Journal of Physics: Condensed Matter, 18 (9), 2615-22 (2006)."Correlation of the structural and ferromagnetic properties of Ga1-xMnxN grown by metalorganic chemical vapor deposition,"
M. H. Kane, M. Strassburg, W. E. Fenwick, A. Asghar, A. M. Payne, S. Gupta, Q. Song, Z. John, Z. Zhang, N. Dietz, C. J. Summers, and I. T. Ferguson, Journal of Crystal Growth, 287 (2), 591-595 (2006)."Growth of uniformaly aligned ZnO nanowire heterojunction arrays on GaN, AIN, and Al0.5Ga0.5N substrates,"
X. D. Wang, J. H. Song, P. Li, et al., J. Amer. Chem. Soc. 127 (21), 7920-7923 (2005)."Large-size liftable inverted-nanobowl sheets as reusable masks for nanolithiography,"
X. D. Wang, C. S. Lao, E. Graugnard, C.J. Summers, and Z. L. Wang, Nano Lett. 5 (9), 1784-1788 (2005)."Magnetic and optical properties of Ga1-xMnxN grown by metalorganic chemical vapour deposition,"
M. H. Kane, A. Asghar, C. R. Vestal, et al., Semic. Sc. Techno. 20 (3), L5-9 (2005)."Magnetic properties of bulk Zn1-xMnxO and Zn1-xCoxO single crystals,"
M. H. Kane, K. Shalini, C. J. Summers, et al., J. Appl. Phys. 97 (2), 023906 (2005)." Self-attraction among aligned Au/ZnO nanorods under electron beam,"
X. Wang, C. J. Summers, and Z. L. Wang, Appl. Phys. Lett. 86 (2005)."Large-scale Fabrication of Ordered Nano-Bowl Arrays,"
X. D. Wang, E. Graugnard, J. S. King, Z. L. Wang and C. J. Summers, Nano. Lett. 4, 2223 (2004)."Large-scale synthesis of six-nanometer-wide ZnO nanobelts,"
X. Wang, C. J. Summers and Z. L. Wang, J. Phys. Chem. B 108, 8773 (2004)."Mesoporous Single-Crystal ZnO Nanowires Epitaxially Sheathed with Zn2SiO4,"
Xudong Wang, C. J. Summers and Zhong L. Wang, Adv. Mater. 16, 1215-1218 (2004)."Large-Scale Hexagonal-Patterned Growth of Aligned ZnO Nanorods for Nano-Optoelectronics and Nanosensor Arrays,"
X. D. Wang, C. J. Summers and Z. L. Wang, Nano Lett. 4, 423-426 (2004)."Rectangular Porous ZnO-ZnS Nanocables and ZnS Nanotubes,"
X. Wang, P. Gao, J. Li, C. J. Summers and Z.L. Wang, Adv. Mater. 14, 1732, (2002).
Atomic Layer Deposition
"Photonic band tuning in two-dimensional photonic crystal slab waveguides by atomic layer deposition,"
E. Graugnard, D. P. Gaillot, S. N. Dunham, C. W. Neff, T. Yamashita, and C. J. Summers, Appl. Phys. Lett. 89,181108 (2006).
Selected for the Virtual Journal of Nanoscale Science & Technology, 14 November 13 (2006)."Infiltration and inversion of holographically-defined polymer photonic crystal templates by atomic layer deposition,"
J. S. King, E. Graugnard, O. M. Roche, D. N. Sharp, J. Scrimgeour, R. G. Denning, A. J. Turberfield, and C. J. Summers, Adv. Mater. 18, 1561 (2006)."Sacrificial-layer atomic layer deposition for fabrication of non-close-packed inverse opal photonic crystals,"
E. Graugnard, J. S. King, D. P. Gaillot and C. J. Summers, Adv. Func. Mater. 16, 1187 (2006)."Conformally back-filled, non-close-packed inverse-opal photonic crystals,"
J. S. King, D. Gaillot, E. Graugnard, and C. J. Summers, Adv. Mater. 18, 1063 (2006)."Large-size liftable inverted-nanobowl sheets as reusable masks for nanolithiography,"
X. D. Wang, C. S. Lao, E. Graugnard, C.J. Summers, and Z. L. Wang, Nano Lett. 5 (9), 1784-1788 (2005)."Photonic crystals fabricated using patterned nanorod arrays,"
X. D. Wang, C. Neff, E. Graugnard, Y. Ding, J.S. King, L.A. Pranger, R. Tannenbaum, Z.L. Wang, C.J. Summers, Adv. Mater. 17, 2103 (2005)."Atomic layer deposition in porous materials: 3D photonic crystals,"
J. S. King, D. Heineman, E. Graugnard, and C.J. Summers, Appl. Surf. Sci. 244 511 (2005)."TiO2 inverse opals fabricated using low temperature atomic layer deposition,"
J. S. King, E. Graugnard, and C.J. Summers, Adv. Mater. 17 1010 (2005)."Large-scale Fabrication of Ordered Nano-Bowl Arrays,"
X. D. Wang, E. Graugnard, J. S. King, Z. L. Wang and C. J. Summers, Nano. Lett. 4, 2223 (2004)."ZnS-based photonic crystal phosphors fabricated using atomic layer deposition,"
J. S. King, C. W. Neff, S. Blomquist, E. Forsythe, D. Morton, and C. J. Summers, Phys. Stat. Sol. (b) 241 (2004)."High filling fraction inverted ZnS opals fabricated by atomic layer deposition,"
J. S. King, C.W. Neff, W. Park, D. Morton, E. Forsythe, S. Blomquist, and C. J. Summers, Appl. Phys. Lett. 83, 2566 (2003).