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@article{RefWorks:19, author={Aravind Asthagiri and David S. Sholl}, year={2006}, month={March 15, 2006}, title={Pt thin films on the polar LaAlO[sub 3](100) surface: A first-principles study}, journal={Physical Review B}, volume={73}, number={12}, pages={125432}, keywords={platinum; lanthanum compounds; metallic thin films; ab initio calculations; density functional theory; interface structure; surface energy; adsorption},}@book{RefWorks:103, author={Marcel Bessis}, year={1974}, title={Corpuscles: Atlas of red blood cell shapes}, publisher={Springer-Verlag}, address={Berlin and New York}, pages={121}}@article{RefWorks:45, author={I. Beszeda and E. G. Gontier-Moya and Á. W. Imre}, year={2005}, title={Surface Ostwald-ripening and evaporation of gold beaded films on sapphire}, journal={Applied Physics A: Materials Science & Processing}, volume={81}, number={4}, pages={673-677}}@article{RefWorks:92, author={L. Billot and M. Lamy de la Chapelle and A. S. Grimault and A. Vial and D. Barchiesi and J. L. Bijeon and P. M. Adam and P. Royer}, year={2006}, month={5/10}, title={Surface enhanced Raman scattering on gold nanowire arrays: Evidence of strong multipolar surface plasmon resonance enhancement}, journal={Chemical Physics Letters}, volume={422}, number={4-6}, pages={303-307}, isbn={0009-2614}}@article{RefWorks:70, author={Geoffrey C. Bond and David T. Thompson}, year={1999}, title={Catalysis by Gold}, journal={Catalysis Reviews: Science and Engineering}, volume={41}, number={3}, pages={319}, isbn={0161-4940},}@article{RefWorks:62, author={Kenneth A. Brakke}, year={1992}, title={The Surface Evolver}, journal={Experimental Mathematics}, volume={1}, number={2}}@article{RefWorks:43, author={P. Buffat and J. P. Borel}, year={1976}, title={Size effect on the melting temperature of gold particles}, journal={Physical Review A (General Physics)}, volume={13}, number={6}, pages={2287-2298}}@article{RefWorks:68, author={Mark J. Davies and Stephen C. Parker and Graeme W. Watson}, year={2005}, title={Atomistic simulation of the surface structure of spinel}, journal={Journal of Materials Chemistry}, number={4}, pages={813}}@article{RefWorks:94, author={P. Babu Dayal and F. Koyama}, year={2007}, month={10 September 2007}, title={Polarization control of 0.85 mu m vertical-cavity surface-emitting lasers integrated with gold nanorod arrays}, journal={Applied Physics Letters}, volume={91}, number={11}, pages={111107}, keywords={gold; laser modes; nanowires; polarisation; surface emitting lasers; surface plasmons},}@article{RefWorks:30, author={M. Degawa and K. Thurmer and E. D. Williams}, year={2006}, month={October 15, 2006}, title={Constrained evolution of nanocrystallites}, journal={Physical Review B}, volume={74}, number={15}, pages={155432}, keywords={lead; nanostructured materials; crystallites; free energy; adhesion; diffusion},}@article{RefWorks:46, author={Amir Fahmi and Anthony D'Aleo and Rene M. Williams and Luisa De Cola and Nabil Gindy and Fritz Vogtle}, year={2007}, month={07/01}, title={Converting Self-Assembled Gold Nanoparticle/Dendrimer Nanodroplets into Horseshoe-like Nanostructures by Thermal Annealing}, journal={Langmuir}, volume={23}, number={14}, pages={7831-7835}, doi={doi: 10.1021/la700651m},}@article{RefWorks:72, author={Hong Jin Fan and Peter Werner and Margit Zacharias}, year={2006}, title={Semiconductor Nanowires: From Self-Organization to Patterned Growth}, journal={Small}, volume={2}, number={6}, pages={700-717}, isbn={1613-6829},}@article{RefWorks:59, author={Sylvain Ferrero and Agnes Piednoir and Claude R. Henry}, year={2001}, month={05/01}, title={Atomic Scale Imaging by UHV-AFM of Nanosized Gold Particles on Mica}, journal={Nano Letters}, volume={1}, number={5}, pages={227-230}, doi={10.1021/nl010014i}}@article{RefWorks:18, author={Q. Fu and T. Wagner}, year={2007}, title={Interaction of nanostructured metal overlayers with oxide surfaces}, journal={Surface Science Reports}, volume={62}, number={11}, pages={431-498}}@book{RefWorks:101, author={Gerhard Gompper and Michael Schick}, year={2008}, month={09-09}, title={Soft Matter: Volume 4: Lipid Bilayers and Red Blood Cells}, publisher={Wiley-VCH}, pages={265}, isbn={3527315020}, language={English},}@article{RefWorks:47, author={W. Helfrich}, year={1973}, month={Nov-Dec}, title={Elastic properties of lipid bilayers: theory and possible experiments}, journal={Zeitschrift fur Naturforschung.Teil C: Biochemie, Biophysik, Biologie, Virologie}, volume={28}, number={11}, pages={693-703}, keywords={Elasticity; Lipids; Magnetics; Mathematics; Membranes, Artificial}, isbn={0341-0471}, language={eng}}@article{RefWorks:14, author={C. R. Henry}, year={2005}, month={2005}, title={Morphology of supported nanoparticles}, journal={Progress in Surface Science}, volume={80}, number={3-4}, pages={92-116}, abstract={An short review of the shape of supported nanoparticles is presented. In the first part of this review the basic theoretical concepts governing the shape of crystals are given. The validity of the concepts of equilibrium shape for crystals with nanometer dimensions is discussed as well as the influence of the support. The effect of the growth kinetics on the particle shape is also discussed. In the second part, several examples of metal (Au and Pd) nanoparticles supported on MgO, mica and graphite substrates are given to demonstrate the utility of the main experimental techniques (TEM, STM, AFM, GISAXS) used to observe the morphology of nanocrystals. NO From Ontario Scholars Portal (OXM04960)}, keywords={Morphology; Nanoparticles; Size effects; Equilibrium shape}, isbn={0079-6816}, language={en},}@article{RefWorks:64, author={Xiaohua Huang and S. Neretina and Mostafa El-Sayed}, year={2009}, title={Gold Nanorods: From Synthesis and Properties to Biological and Biomedical Applications}, journal={Advanced Materials}, number={21}, pages={1-31}}@article{RefWorks:34, author={D. S. Humphrey and G. Cabailh and C. L. Pang and C. A. Muryn and S. A. Cavill and H. Marchetto and A. Potenza and S. S. Dhesi and G. Thornton}, year={2009}, month={Jan}, title={Self-assembled metallic nanowires on a dielectric support: Pd on rutile TiO2(110)}, journal={Nano letters}, volume={9}, number={1}, pages={155-159}, abstract={Palladium nanoparticles supported on rutile TiO(2)(110)-1 x 1 have been studied using the complementary techniques of scanning tunneling microscopy and X-ray photoemission electron microscopy. Two distinct types of palladium nanoparticles are observed, namely long nanowires up to 1000 nm long, and smaller dotlike features with diameters ranging from 80-160 nm. X-ray photoemission electron microscopy reveals that the nanoparticles are composed of metallic palladium, separated by the bare TiO(2)(110) surface.}, isbn={1530-6984}, language={eng}}@article{RefWorks:32, author={Hakim Iddir and Vladimir Komanicky and Serdar Oǧut and Hoydoo You and Peter Zapol}, year={2007}, month={10/01}, title={Shape of Platinum Nanoparticles Supported on SrTiO3: Experiment and Theory}, journal={The Journal of Physical Chemistry C}, volume={111}, number={40}, pages={14782-14789}, doi={10.1021/jp073041r},}@book{RefWorks:95, author={Cyril Isenberg}, year={1992}, month={01-24}, title={The Science of Soap Films and Soap Bubbles}, publisher={Dover Publications}, address={Mineola, N.Y.}, edition={New edition}, pages={220}, isbn={0486269604}, language={English},}@article{RefWorks:88, author={Prashant K. Jain and Wenyu Huang and Mostafa El-Sayed}, year={2007}, month={07/01}, title={On the Universal Scaling Behavior of the Distance Decay of Plasmon Coupling in Metal Nanoparticle Pairs: A Plasmon Ruler Equation}, journal={Nano Letters}, volume={7}, number={7}, pages={2080-2088}, doi={10.1021/nl071008a}, isbn={1530-6984},}@article{RefWorks:53, author={J. Jalkanen and O. Trushin and E. Granato and S. C. Ying and T. Ala-Nissila}, year={2008}, month={11/01}, title={Equilibrium shape and size of supported heteroepitaxial nanoislands}, journal={The European Physical Journal B - Condensed Matter and Complex Systems}, volume={66}, number={2}, pages={175-183}, doi={10.1140/epjb/e2008-00410-8}, abstract={Abstract We study the equilibrium shape, shape transitions and optimal size of strained heteroepitaxial nanoislands with a two-dimensional atomistic model using simply adjustable interatomic pair potentials. We map out the global phase diagram as a function of substrate-adsorbate misfit and interaction. This phase diagram reveals all the phases corresponding to different well-known growth modes. In particular, for large enough misfits and attractive substrate there is a Stranski-Krastanow regime, where nano-sized islands grow on top of wetting films. We analyze the various terms contributing to the total island energy in detail, and show how the competition between them leads to the optimal shape and size of the islands. Finally, we also develop an analytic interpolation formula for the various contributions to the total energy of strained nanoislands.},}@article{RefWorks:73, author={N. R. Jana and L. Gearheart and C. J. Murphy}, year={2001}, title={Seed-Mediated Growth Approach for Shape-Controlled Synthesis of Spheroidal and Rod-like Gold Nanoparticles Using a Surfactant Template}, journal={Advanced Materials}, volume={13}, number={18}, pages={1389-1393}, isbn={1521-4095},}@article{RefWorks:77, author={Nikhil R. Jana and Latha Gearheart and Catherine J. Murphy}, year={2001}, month={07/01}, title={Evidence for Seed-Mediated Nucleation in the Chemical Reduction of Gold Salts to Gold Nanoparticles}, journal={Chemistry of Materials}, volume={13}, number={7}, pages={2313-2322}, doi={10.1021/cm000662n}, isbn={0897-4756},}@article{RefWorks:78, author={Nikhil R. Jana and Latha Gearheart and Catherine J. Murphy}, year={2001}, month={05/01}, title={Wet Chemical Synthesis of High Aspect Ratio Cylindrical Gold Nanorods}, journal={The Journal of Physical Chemistry B}, volume={105}, number={19}, pages={4065-4067}, doi={10.1021/jp0107964}, isbn={1520-6106},}@article{RefWorks:54, author={Rongchao Jin and YunWei Cao and Chad A. Mirkin and K. L. Kelly and George C. Schatz and J. G. Zheng}, year={2001}, month={Nov. 30}, title={Photoinduced Conversion of Silver Nanospheres to Nanoprisms}, journal={Science}, volume={294}, number={5548}, pages={1901-1903}, abstract={A photoinduced method for converting large quantities of silver nanospheres into triangular nanoprisms is reported. The photo-process has been characterized by time-dependent ultraviolet-visible spectroscopy and transmission electron microscopy, allowing for the observation of several key intermediates in and characteristics of the conversion process. This light-driven process results in a colloid with distinctive optical properties that directly relate to the nanoprism shape of the particles. Theoretical calculations coupled with experimental observations allow for the assignment of the nanoprism plasmon bands and for the first identification of two distinct quadrupole plasmon resonances for a nanoparticle. Unlike the spherical particles they are derived from that Rayleigh light-scatter in the blue, these nanoprisms exhibit scattering in the red, which could be useful in developing multicolor diagnostic labels on the basis not only of nanoparticle composition and size but also of shape.}, isbn={00368075},}@article{RefWorks:52, author={Frank Jülicher}, year={1996}, month={12}, title={The Morphology of Vesicles of Higher Topological Genus: Conformal Degeneracy and Conformal Modes}, journal={Journal de Physique II}, volume={6}, number={12}, pages={1797-1824}, doi={10.1051/jp2:1996161},}@article{RefWorks:71, author={K. L. Kelly and Eduardo Coronado and Lin Lin Zhao and George C. Schatz}, year={2003}, month={01/01}, title={The Optical Properties of Metal Nanoparticles: The Influence of Size, Shape, and Dielectric Environment}, journal={The Journal of Physical Chemistry B}, volume={107}, number={3}, pages={668-677}, doi={10.1021/jp026731y}, isbn={1520-6106},}@article{RefWorks:39, author={R. Kern and P. Müller}, year={1995}, month={1/1}, title={Three-dimensional towards two-dimensional coherent epitaxy initiated by surfactants}, journal={Journal of Crystal Growth}, volume={146}, number={1-4}, pages={193-197}, isbn={0022-0248}}@article{RefWorks:89, author={Jean-Michel Lamarre and Franck Billard and Chahineze Harkati Kerboua and Michel Lequime and Sjoerd Roorda and Ludvik Martinu}, year={2008}, month={1/15}, title={Anisotropic nonlinear optical absorption of gold nanorods in a silica matrix}, journal={Optics Communications}, volume={281}, number={2}, pages={331-340}, keywords={42.65.−k; 72.80.Tm; Nanocomposite; Nonlinear optics; Anisotropic optical properties; Gold nanorods}, isbn={0030-4018}}@article{RefWorks:99, author={Gerald Lim H. W. and Michael Wortis and Ranjan Mukhopadhyay}, year={2002}, month={December 24}, title={Stomatocyte–discocyte–echinocyte sequence of the human red blood cell: Evidence for the bilayer– couple hypothesis from membrane mechanics}, journal={Proceedings of the National Academy of Sciences of the United States of America}, volume={99}, number={26}, pages={16766-16769}, abstract={Red-cell shape is encoded in the mechanical properties of the membrane. The plasma membrane contributes bending rigidity; the protein-based membrane skeleton contributes stretch and shear elasticity. When both effects are included, membrane mechanics can reproduce in detail the full stomatocyte–discocyte–echinocyte sequence by variation of a single parameter related to the bilayer couple originally introduced by Sheetz and Singer [Sheetz, M. P. & Singer, S. J. (1974) 71, 4457–4461].}}@article{RefWorks:81, author={M. Maillard and S. Giorgio and M. P. Pileni}, year={2002}, title={Silver Nanodisks}, journal={Advanced Materials}, volume={14}, number={15}, pages={1084-1086}, isbn={1521-4095},}@book{RefWorks:98, author={Richard S. Millman and George D. Parker}, year={1977}, title={Elements of differential geometry}, publisher={Prentice-Hall}, address={Englewood Cliffs, N.J.}, pages={265}, keywords={Geometry, Differential}, isbn={0132641437}}@article{RefWorks:41, author={Y. K. Mishra and D. Kabiraj and I. Sulania and J. C. Pivin and D. K. Avasthi}, year={2007}, month={Jun}, title={Synthesis and characterization of gold nanorings}, journal={Journal of nanoscience and nanotechnology}, volume={7}, number={6}, pages={1878-1881}, abstract={In the present work, we report the formation of Au nanorings on quartz substrate by thermal evaporation of Au on quartz and subsequent annealing in certain conditions as a function of metal volume fraction and annealing temperature. Optical extinction cross-sections measurements and atomic force microscopy (AFM) studies have been performed on the as-deposited and annealed samples. No signature of nanoparticles formation is found in case of as-deposited samples, while spectra of annealed samples show a clear signature of surface plasmon resonance absorption (SPR) peaks around 580 nm, which reveals the formation of Au nanostructure. AFM images clearly show the formation of Au nanorings under certain conditions. The observed SPR frequency of the Au nanorings in our case is in agreement with the estimated frequency obtained from the formulation of Aizpurua et al. Optical extinction measurements at different incidence angles were performed, which showed splitting of SPR at angles beyond 20 degrees.}, keywords={Crystallization/methods; Gold/chemistry; Hot Temperature; Macromolecular Substances/chemistry; Materials Testing; Molecular Conformation; Nanostructures/chemistry/ultrastructure; Nanotechnology/methods; Particle Size; Surface Properties}, isbn={1533-4880}, language={eng}}@misc{RefWorks:100, author={Ranjan Mukhopadhyay and H. W. Gerald Lim and Michael Wortis}, year={2002}, month={04/01}, title={Echinocyte Shapes: Bending, Stretching, and Shear Determine Spicule Shape and Spacing}, journal={Biophysical Journal}, volume={82}, number={4}, pages={1756-1772}, doi={10.1016/S0006-3495(02)75527-6}, abstract={We study the shapes of human red blood cells using continuum mechanics. In particular, we model the crenated, echinocytic shapes and show how they may arise from a competition between the bending energy of the plasma membrane and the stretching/shear elastic energies of the membrane skeleton. In contrast to earlier work, we calculate spicule shapes exactly by solving the equations of continuum mechanics subject to appropriate boundary conditions. A simple scaling analysis of this competition reveals an elastic length ›el, which sets the length scale for the spicules and is, thus, related to the number of spicules experimentally observed on the fully developed echinocyte.}, isbn={0006-3495},}@article{RefWorks:38, author={P. Müller and R. Kern}, year={2000}, month={6/1}, title={Equilibrium nano-shape changes induced by epitaxial stress (generalised Wulf–Kaishew theorem)}, journal={Surface Science}, volume={457}, number={1-2}, pages={229-253}, keywords={Epitaxy; Germanium; Silicon; Surface relaxation and reconstruction}, isbn={0039-6028}}@article{RefWorks:82, author={Colleen L. Nehl and Hongwei Liao and Jason H. Hafner}, year={2006}, month={04/01}, title={Optical Properties of Star-Shaped Gold Nanoparticles}, journal={Nano Letters}, volume={6}, number={4}, pages={683-688}, doi={10.1021/nl052409y}, isbn={1530-6984},}@article{RefWorks:74, author={Babak Nikoobakht and Mostafa El-Sayed}, year={2003}, month={05/01}, title={Preparation and Growth Mechanism of Gold Nanorods (NRs) Using Seed-Mediated Growth Method}, journal={Chemistry of Materials}, volume={15}, number={10}, pages={1957-1962}, doi={10.1021/cm020732l}, isbn={0897-4756},}@article{RefWorks:80, author={S. J. Oldenburg and R. D. Averitt and S. L. Westcott and N. J. Halas}, year={1998}, month={5/22}, title={Nanoengineering of optical resonances}, journal={Chemical Physics Letters}, volume={288}, number={2-4}, pages={243-247}, isbn={0009-2614}}@article{RefWorks:49, author={Zhong-can Ou-Yang and W. Helfrich}, year={1987}, month={11/23}, title={Instability and Deformation of a Spherical Vesicle by Pressure}, journal={Physical Review Letters}, volume={59}, number={21}, pages={2486}, doi={10.1103/PhysRevLett.59.2486},}@article{RefWorks:97, author={Zhong-can Ou-Yang and Wolfgang Helfrich}, year={1989}, month={05/15}, title={Bending energy of vesicle membranes: General expressions for the first, second, and third variation of the shape energy and applications to spheres and cylinders}, journal={Physical Review A}, volume={39}, number={10}, pages={5280}, doi={10.1103/PhysRevA.39.5280},}@article{RefWorks:75, author={J. Pérez-Juste and L. M. Liz-Marzán and S. Carnie and D. Y. C. Chan and P. Mulvaney}, year={2004}, title={Electric-Field-Directed Growth of Gold Nanorods in Aqueous Surfactant Solutions}, journal={Advanced Functional Materials}, volume={14}, number={6}, pages={571-579}, isbn={1616-3028},}@article{RefWorks:90, author={Nicholas P. W. Pieczonka and Ricardo F. Aroca}, year={2008}, title={Single molecule analysis by surfaced-enhanced Raman scattering.}, journal={Chemical Society Reviews}, volume={37}, number={5}, pages={946-954}, abstract={Our main objective in this tutorial review is to provide insight into some of the questions surrounding single molecule detection (SMD) using surface-enhanced Raman scattering (SERS) and surface-enhanced resonance Raman scattering (SERRS). Discovered thirty years ago, SERS is now a powerful analytical tool, strongly tied to plasmonics, a field that encompasses and profits from the optical enhancement found in nanostructures that support localized plasmon excitations. The spectrum of the single molecule carries the quantum fingerprints of the system modulated by the molecule-nanostructure interactions and the electronic resonances that may result under laser excitation. This information is embedded in vibrational band parameters. The dynamics and the molecular environment will affect the bandwidth of the observed Raman bands. In addition, the localized surface plasmon resonances (LSPR) empower the nanostructure with a number of optical properties that will also leave their mark on the observed inelastic scattering process. Therefore, controlling size, shape and the formation of the aggregation state (or fractality) of certain metallic nanostructures becomes a main task for experimental SERS/SERRS. This molecule-nanostructure coupling may, inevitably, lead to spectral fluctuations, increase photobleaching or photochemistry. An attempt is made here to guide the interpretation of this wealth of information when approaching the single molecule regime.},}@article{RefWorks:42, author={H. Sadan and W. D. Kaplan}, year={2006}, title={Au–Sapphire (0001) solid–solid interfacial energy}, journal={Journal of Materials Science}, volume={41}, number={16}, pages={5099-5107}}@article{RefWorks:85, author={D. M. Schaadt and B. Feng and E. T. Yu}, year={2005}, month={7 February 2005}, title={Enhanced semiconductor optical absorption via surface plasmon excitation in metal nanoparticles}, journal={Applied Physics Letters}, volume={86}, number={6}, pages={063106}, keywords={silicon; gold; elemental semiconductors; nanoparticles; semiconductor diodes; semiconductor-metal boundaries; surface plasmon resonance; particle size; photoconductivity; ultraviolet spectra; extinction coefficients},}@article{RefWorks:102, author={Udo Seifert}, year={1997}, title={Configurations of fluid membranes and vesicles}, journal={Advances in Physics}, volume={46}, number={1}, pages={13}, abstract={Vesicles consisting of a bilayer membrane of amphiphilic lipid molecules are remarkably flexible surfaces that show an amazing variety of shapes of different symmetry and topology. Owing to the fluidity of the membrane, shape transitions such as budding can be induced by temperature changes or the action of optical tweezers. Thermally excited shape fluctuations are both strong and slow enough to be visible by video microscopy. Depending on the physical conditions, vesicles adhere to and unbind from each other or a substrate. This article describes the systematic physical theory developed to understand the static and dynamic aspects of membrane and vesicle configurations. The preferred shapes arise from a competition between curvature energy, which derives from the bending elasticity of the membrane, geometrical constraints such as fixed surface area and fixed enclosed volume, and a signature of the bilayer aspect. These shapes of lowest energy are arranged into phase diagrams, which separate regions of different symmetry by continuous or discontinuous transitions. The geometrical constraints affect the fluctuations around these shapes by creating an effective tension. For vesicles of non-spherical topology, the conformal invariance of the curvature energy leads to conformal diffusion, which signifies a one-fold degeneracy of the ground state. Unbinding and adhesion transitions arise from the balance between attractive interactions and entropic repulsion or a cost in bending energy, respectively. Both the dynamics of equilibrium fluctuations and the dynamics of shape transformations are governed not only by viscous damping in the surrounding liquid but also by internal friction if the two monolayers slip over each other. More complex membranes such as that of the red blood cell exhibit a variety of new phenomena because of coupling between internal degrees of freedom and external geometry.}, isbn={0001-8732},}@article{RefWorks:50, author={Udo Seifert and Karin Berndl and Reinhard Lipowsky}, year={1991}, month={07/15}, title={Shape transformations of vesicles: Phase diagram for spontaneous- curvature and bilayer-coupling models}, journal={Physical Review A}, volume={44}, number={2}, pages={1182}, doi={10.1103/PhysRevA.44.1182},}@article{RefWorks:66, author={Vladimir M. Shalaev and Wenshan Cai and Uday K. Chettiar and Hsiao-Kuan Yuan and Andrey K. Sarychev and Vladimir P. Drachev and Alexander V. Kildishev}, year={2005}, month={12/15}, title={Negative index of refraction in optical metamaterials}, journal={Optics Letters}, volume={30}, number={24}, pages={3356-3358}, keywords={Optical materials; Resonance; Thin films, optical properties},}@article{RefWorks:15, author={F. Silly and M. R. Castell}, year={2005}, title={Encapsulated Pd nanocrystals supported by nanoline-structured SrTiO3(001)}, journal={The journal of physical chemistry. B, Condensed matter, materials, surfaces, interfaces biophysical}, volume={109}, number={25}, pages={12316}, isbn={1520-6106}}@article{RefWorks:16, author={F. Silly and M. R. Castell}, year={2005}, title={Growth of Ag icosahedral nanocrystals on a SrTiO3(001) support}, journal={Applied physics letters}, volume={87}, number={21}, isbn={0003-6951}}@article{RefWorks:104, author={F. Silly and M. R. Castell}, year={2009}, month={Apr 28}, title={Temperature-dependent stability of supported five-fold twinned copper nanocrystals}, journal={ACS nano}, volume={3}, number={4}, pages={901-906}, abstract={The temperature-dependent structure transition of supported Cu nanocrystals on SrTiO3(001)-(2 x 1) is investigated by scanning tunneling microscopy (STM). We experimentally determine the phase map of supported Cu icosahedral, decahedral, and truncated octahedral nanocrystal shapes as a function of substrate temperature during Cu deposition. We show that a supported nanocrystal of 8500 atoms at a nucleation temperature of 480 degrees C has the same probability of adopting an icosahedral or octahedral shape.}, isbn={1936-086X}, language={eng},}@article{RefWorks:20, author={Fabien Silly and Martin R. Castell}, year={2006}, month={March 3, 2006}, title={Bimodal Growth of Au on SrTiO[sub 3](001)}, journal={Physical Review Letters}, volume={96}, number={8}, pages={086104}, keywords={wetting; scanning tunnelling microscopy; monolayers; gold; strontium compounds; vapour phase epitaxial growth; surface reconstruction; metallic epitaxial layers; nanostructured materials; nanotechnology},}@article{RefWorks:22, author={Fabien Silly and Martin R. Castell}, year={2005}, month={Feb}, title={Selecting the Shape of Supported Metal Nanocrystals: Pd Huts, Hexagons, or Pyramids on $SrTiO3(001)$}, journal={Physical Review Letters}, volume={94}, number={4}, pages={046103},}@article{RefWorks:24, author={Fabien Silly and Martin R. Castell}, year={2005}, month={8 August 2005}, title={Fe nanocrystal growth on SrTiO[sub 3](001)}, journal={Applied Physics Letters}, volume={87}, number={6}, pages={063106}, keywords={iron; ferromagnetic materials; nanostructured materials; epitaxial growth; scanning tunnelling microscopy; crystal morphology; surface reconstruction; self-assembly; adhesion},}@article{RefWorks:25, author={Fabien Silly and Andrew C. Powell and Marta G. Martin and Martin R. Castell}, year={2005}, month={Oct}, title={Growth shapes of supported Pd nanocrystals on $ SrTiO3 (001) $}, journal={Physical Review B}, volume={72}, number={16}, pages={165403},}@article{RefWorks:93, author={Elizabeth J. Smythe and Ertugrul Cubukcu and Federico Capasso}, year={2007}, month={06/11}, title={Optical properties of surface plasmon resonances of coupled metallic nanorods}, journal={Optics Express}, volume={15}, number={12}, pages={7439-7447}, keywords={Fiber optics sensors; Surface plasmons; Resonance},}@article{RefWorks:87, author={C. Sonnichsen and B. M. Reinhard and J. Liphardt and A. P. Alivisatos}, year={2005}, month={Jun}, title={A molecular ruler based on plasmon coupling of single gold and silver nanoparticles}, journal={Nature biotechnology}, volume={23}, number={6}, pages={741-745}, abstract={Forster Resonance Energy Transfer has served as a molecular ruler that reports conformational changes and intramolecular distances of single biomolecules. However, such rulers suffer from low and fluctuating signal intensities, limited observation time due to photobleaching, and an upper distance limit of approximately 10 nm. Noble metal nanoparticles have plasmon resonances in the visible range and do not blink or bleach. They have been employed as alternative probes to overcome the limitations of organic fluorophores, and the coupling of plasmons in nearby particles has been exploited to detect particle aggregation by a distinct color change in bulk experiments. Here we demonstrate that plasmon coupling can be used to monitor distances between single pairs of gold and silver nanoparticles. We followed the directed assembly of gold and silver nanoparticle dimers in real time and studied the kinetics of single DNA hybridization events. These "plasmon rulers" allowed us to continuously monitor separations of up to 70 nm for >3,000 s.}, keywords={DNA/chemistry; Fluorescence Resonance Energy Transfer; Gold; Nanostructures/chemistry; Nucleic Acid Hybridization; Silver; Surface Plasmon Resonance/methods}, isbn={1087-0156}, language={eng}}@article{RefWorks:83, author={Yugang Sun and Younan Xia}, year={2002}, month={December 13}, title={Shape-Controlled Synthesis of Gold and Silver Nanoparticles}, journal={Science}, volume={298}, number={5601}, pages={2176-2179}}@article{RefWorks:76, author={Takashi Taniguchi}, year={1996}, month={06/03}, title={Shape Deformation and Phase Separation Dynamics of Two-Component Vesicles}, journal={Physical Review Letters}, volume={76}, number={23}, pages={4444}, doi={10.1103/PhysRevLett.76.4444}}@article{RefWorks:91, author={Nurit Taub and Olga Krichevski and Gil Markovich}, year={2003}, month={10/01}, title={Growth of Gold Nanorods on Surfaces}, journal={The Journal of Physical Chemistry B}, volume={107}, number={42}, pages={11579-11582}, doi={10.1021/jp036144s}, isbn={1520-6106},}@article{RefWorks:86, author={J. Vuckovic and M. Loncar and A. Scherer}, year={2000}, title={Surface plasmon enhanced light-emitting diode}, journal={Quantum Electronics, IEEE Journal of}, volume={36}, number={10}, pages={1131-1144}, keywords={surface plasmons; light emitting diodes; semiconductor thin films; metallic thin films; spontaneous emission; photoluminescence; optical pumping; micro-optics; optical resonators}, isbn={0018-9197}, language={en},}@article{RefWorks:69, author={Svetlana V. Yanina and C. Barry Carter}, year={2002}, month={7}, title={Terraces and ledges on (0 0 1) spinel surfaces}, journal={Surface Science}, volume={513}, number={2}, pages={L402-L412}, keywords={Atomic force microscopy; Evaporation and sublimation; Faceting; Step formation and bunching; Surface structure, morphology, roughness, and topography; Single crystal surfaces}, isbn={0039-6028}}