Joel Henzie Lab - Energy Capturing Nanomaterials



Lan, X.; Chen, Z.; Liu, B.-J.; Ren, B.; Henzie, J.; Wang, Q.; DNA-Directed Gold Nanodimers with Tunable Sizes and Interparticle Distances and Their Surface Plasmonic Properties; Small; 2013; 9, 2308-2315. [PDF]

Henzie, J; Andrews, S; Ling, X; Li, Z; Yang, P.; Oriented Assembly of Polyhedral Plasmonic Nanoparticle Clusters; Proc. Natl. Acad. Sci.; 2013; 110, 6640-6645. [PDF] [SI]

Henzie, J; Grünwald, M; Widmer-Cooper, A; Geissler, P; Yang, P.; Self-assembly of uniform polyhedral silver nanocrystals into densest packings and exotic superlattices; Nature Materials; 2012; 11, 131-137. [PDF] [SI] [Featured on Cover]

Wu, H.-J.; Henzie, J.; Lin, W.-C.; Rhodes, C.; Li, Z.; Thorner, J.; Yang, P.; Groves, J. T.; Membrane-Protein Binding Measured with Solution-Phase Plasmonic Nanocube Sensors; Nature Methods; 2012; 9, 1189-1191. [PDF] [SI]

Kichin, G.; Weiss, T; Gao, H.; Henzie, J; Odom, T.W.; Tikhodeev, S.G.; Giessen, H.;Metal-dielectric Photonic Crystal Superlattice: 1D and 2D Models and Empty Lattice ApproximationPhysica B: Condensed Matter; 2012; 407, 4037-4042. [PDF]

Deng, Y.; Tuysuz, H.; Henzie, J.; Yang, P.; Templated Synthesis of Shape-Controlled, Ordered TiO2 Cage Structures; Small; 2011; 7, 2037-2040. [PDF]

Mulvihill, M; Ling, X. Y.; Henzie, J; Yang, P; Anisotropic Etching of Silver Nanoparticles for Plasmonic Structures Capable of Single-Particle SERS; J. Am. Chem. Soc.; 2010; 132, 268-274. [PDF] [SI]

Odom, T. W.; Gao, H.; McMahon, J. M.; Henzie, J; Schatz, G. C; Plasmonic Superlattices: Heirarchical Subwavelength Hole ArraysChem. Phys. Lett.2009; 483, 187-192. [PDF]

Henzie, J.; Lee, J.; Lee, M. H.; Hasan, W.; Odom, T. W.; Nanofabrication of Plasmonic Structures; Ann. Rev. of Phys. Chem.; 200960, 147-165. [PDF]

Gao, H.; McMahon, J. M.; Lee, M. H.; Henzie, J; Gray, S. K.; Schatz, G. C.; Odom, T. W.; Rayleigh Anomaly-Surface Plasmon Polariton Resonances in Palladium and Gold Subwavelength Hole Arrays; Optics Express; 200917, 2334-2340. [PDF]

Gao, H.; Henzie, J; Lee, M. H.; Odom, T. W.; Screening Plasmonic Materials using Pyramidal Gratings; Proc. Natl. Acad. Sci.; 2008105, 20146-20151. [PDF]

McMahon, J. M.; Henzie, J.; Odom, T. W.; Schatz, G. C.; Gray, S. K.; Tailoring the Sensing Capabilities of Nanohole Arrays in Gold Films with Rayleigh Anomaly-Surface Plasmon Polaritons; Optics Express; 200715, 18119[PDF]

Lee, M. H.; Gao, H.; Henzie, J.; Odom, T. W.; Microscale Arrays of Nanoscale Holes; Small; 20073, 2029. [PDF]

Hasan, W.; Lee, J.; Henzie, J.; Odom, T. W.; Selective Fuctionalization and Spectral identification of Gold Nanopyramids; J. Phys. Chem. C; 2007111, 17176. [PDF]

Henzie, J.; Lee, M. H.; Odom, T. W.; Multiscale Patterning of Plasmonic Metamaterials; Nature Nanotech.; 2007; 2, 549. [PDF]  [Featured on the Cover]   [Editor’s Choice in Science] 

Price, S.; Henzie, J.; Odom, T. W.; Addressable, Large-Area Nanoscale Organic Light-Emitting Diodes; Small; 20073, 372. [PDF]

Gao, H.; Henzie, J.; Odom, T. W.; Direct Evidence for Surface-Plasmon Mediated Enhanced Light Transmission through Metallic Nanohole Arrays; Nano Lett.; 2006; 6, 2104. [PDF]

Henzie, J.; Shuford, K. L.; Kwak, E.-S.; Schatz, G. C.; Odom, T. W.; Manipulating the Optical Properties of Pyramidal Nanoparticle Arrays; J. Phys. Chem. B; 2006; 11014028-14031. [PDF]

Henzie, J.; Barton, J. B.; Stender, C. L.; Odom, T. W. Large-area Nanoscale Patterning: Chemistry meets Fabrication; Acct. Chem. Res.; 200639, 249-257. [PDF]

Henzie, J.*; Kwak, E.-S.*; Chang, S.-H.; Gray, S. K.; Schatz, G. C.; Odom, T. W.; Surface Plasmon Standing Waves in Large-Area Subwavelength Hole Arrays; Nano Lett.; 2005; 5; 1963. [PDF]

Odom, T. W., Henzie, J., Babayan, Y., Greyson, E. C., Kwak, E.-S.; Optical Properties of Surface-Patterned Nanostructures; Talanta; 2005; 67, 507. [PDF]

Henzie, J.; Kwak, E.-S.; Odom, T. W.; Mesoscale Metallic Pyramids with Nanoscale Tips; Nano Lett.; 2005; 5(7); 1199. [PDF]

Benderskii, A. V.; Henzie, J.; Basu, S.; Shang, X.; Eisenthal, K. B.; Femtosecond Aqueous Solvation at a Positively Charged Surfactant/Water Interface; J. Phys. Chem. B.; 2004; 108(37); 14017. [PDF]