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Your search keyword '"Ritcey, Anna M."' showing total 36 results
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36 results on '"Ritcey, Anna M."'

1. Plasmonic Properties of Self-Assembled Gold Nanocrescents: Implications for Chemical Sensing.

Author

Côté, Marie-Pier, Boukouvala, Christina, Richard-Daniel, Josée, Ringe, Emilie, Boudreau, Denis, and Ritcey, Anna M.

Abstract

A bottom-up approach, the Langmuir–Blodgett technique, is used for the preparation of composite thin films of gold nanoparticles and polymers: poly-(styrene-b-2-vinylpyridine), poly-2-vinylpyridine, and polystyrene. The self-assembly of poly-(styrene-b-2-vinylpyridine) at the air–water interface leads to the formation of surface micelles, which serve as a template for the organization of gold nanoparticles into ring assemblies. By using poly-2-vinylpyridine in conjunction with low surface pressure, the distance between nanostructures can be increased, allowing for optical characterization of single nanostructures. Once deposited on a solid substrate, the preorganized gold nanoparticles are subjected to further growth by the reduction of additional gold, leading to a variety of nanostructures which can be divided into two categories: nanocrescents and circular arrays of nanoparticles. The optical properties of individual structures are investigated by optical dark-field spectroscopy and numerical calculations. The plasmonic behavior of the nanostructures is elucidated through the correlation of optical properties with structural features and the identification of dominant plasmon modes. Being based on a self-assembly approach, the reported method allows for the formation of interesting plasmonic materials under ambient conditions, at a relatively large scale, and at low cost. These attributes, in addition to the resonances located in the near-infrared region of the spectrum, make nanocrescents candidates for biological and chemical sensing. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Silver Nanoparticles as Antifungal Agents in Acrylic Latexes: Influence of the Initiator Type on Nanoparticle Incorporation and Aureobasidium pullulans Resistance.

Author

Boivin, Gabrielle, Ritcey, Anna M., and Landry, Véronic

Subjects
*LATEX, *AUREOBASIDIUM pullulans, *ANTIFUNGAL agents, *INDUCTIVELY coupled plasma atomic emission spectrometry, *SILVER nanoparticles, *NANOPARTICLES
Abstract

Discoloration of wood coatings due to fungal growth negatively affects the aesthetic properties of the coatings, and new ways to control fungal growth on coatings are needed. For this reason, silver nanoparticles (AgNPs) have been incorporated in acrylic latexes as antifungal agents. Using miniemulsion polymerization, latexes were prepared with two types of initiators (hydrophilic and hydrophobic) to assess the influence of the initiator type on AgNPs dispersion, both within the latex particles and the dry film. In addition, the impact of NP dispersion on resistance to black-stain fungi (Aureobasidium pullulans) was also evaluated. Inductively coupled plasma optical emission spectroscopy (ICP-OES) analysis indicates that acrylic latexes prepared with azobisisobutyronitrile (AIBN) as the initiator contain more AgNPs than those prepared with potassium persulfate (KPS). Cryo-TEM and SEM analyses show that the distribution of the AgNPs within the polymer particles is influenced by the nature of the initiator. When AIBN, a hydrophobic initiator, is used, the AgNPs appear to be closer to the surface of the polymer particles and more evenly distributed. However, the antifungal efficiency of the AgNPs-embedded latexes against A. pullulans is found to be higher when KPS is used, despite this initiator leading to a smaller amount of incorporated AgNPs and a less uniform dispersion of the nanoparticles. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Dynamic response of ferrofluidic deformable mirrors

Author

Parent, Jocelyn, Borra, Ermanno F., Brousseau, Denis, Ritcey, Anna M., Dery, Jean-Philippe, and Thibault, Simon

Subjects
Ferrofluids -- Properties, Ferrofluids -- Usage, Mirrors -- Properties, Mirrors -- Design and construction, Mirrors -- Materials, Deformations (Mechanics) -- Research, Viscosity -- Research, Astronomy, Physics
Abstract

Ferrofluids can be used to make deformable mirrors having highly interesting characteristics (e.g., extremely large strokes and low costs). Until recently, such mirrors were thought to be restricted to corrections of frequencies lower than 10 Hz, thus limiting their usefulness. We present counterintuitive results that demonstrate that the limiting operational frequency can be increased by increasing the viscosity of the ferrofluid. We tested the response of ferrofluids having viscosities as high as 494 cP, finding that they could allow an adaptive optics correction frequency as high as 900 Hz. We also demonstrate that we can counter the amplitude loss due to the high viscosity by overdriving the actuators. The overdriving technique combines high current, short duration pulses with ordinary driving step functions to deform the mirror. The integration of a FDM in a complete closed-loop adaptive optics system running at about 500 Hz thus appears to be a realistic goal in the near future. OCIS codes: 220.1000, 220.1080, 230.3810.

Published
2009

11. Optical tests of nanoengineered liquid mirrors

Author

Yockell-Lelievre, Helene, Borra, Ermanno F., Ritcey, Anna M., and da Silva, Lande Vieira, Jr.

Subjects
Mirrors -- Design and construction, Nanotechnology -- Research, Optics -- Research, Astronomy, Physics
Abstract

We describe a new technology for the fabrication of inexpensive high-quality mirrors. We begin by chemically producing a large number of metallic nanoparticles coated with organic ligands. The particles are then spread on a liquid substrate where they self-assemble to give optical quality reflective surfaces. Since liquid surfaces can be modified by a variety of means (e.g., rotation, electromagnetic fields), this opens the possibility of making a new class of versatile and inexpensive optical elements that can have complex shapes and that can be modified within short time scales. Interferometric measurements show optical quality surfaces. We have obtained reflectivity curves that show 80% peak reflectivities. We are confident that we can improve the reflectivity curves because theoretical models predict higher values. We expect nanoengineered liquid mirrors to be useful for scientific and engineering applications. The technology is interesting for large optics, such as large rotating parabolic mirrors, because of its low cost. Furthermore, because the surfaces of ferrofluids can be shaped with magnetic fields, one can generate complex, time-varying surfaces that are difficult to make with conventional techniques. OCIS codes: 000.3110, 240.6700, 260.3910, 350.1260.

Published
2003

13. Magnetic soft silicone elastomers with tunable mechanical properties for magnetically actuated devices.

Author

Lussier, Renaud, Giroux, Yann, Thibault, Simon, Rodrigue, Denis, and Ritcey, Anna M.

Subjects
ELASTOMERS, IRON oxides, IRON oxide nanoparticles, FERRIC oxide, MAGNETIC flux density, IRON oxide synthesis, STRESS-strain curves, STEARIC acid
Abstract

Polydimethylsiloxane (PDMS)/iron oxide magnetic nanoparticle (NP) composites with tailored mechanical properties are prepared for use in magnetically actuated soft devices based on their controlled deformation by the application of an external magnetic field. This investigation reports the synthesis and functionalization of iron oxide NPs, the preparation of the PDMS/NP composites, the evaluation of NP dispersion using scanning electron microscopy (SEM) and optical microscopy, and the mechanical characterization of the composite films. Characterization includes rheological measurements as well as stress‐strain curves to obtain the Young modulus and elongation at break. SEM is used to probe individual NP dispersion, whereas optical microscopy provides rapid access to quantitative information about the size and distribution of particle aggregates. Results for nonfunctionalized (nf), oleic acid (OA)‐coated, and stearic acid (SA)‐coated iron oxide NPs and their blends are presented. PDMS elastomers containing both OA‐ and SA‐coated iron oxide NPs are found to have very low Young moduli with substantially higher resistance to failure than neat PDMS. For example, a formulation containing 2.5 wt% OA‐coated NPs and 2.5 wt% SA‐coated iron oxide NPs has a modulus of 0.15 MPa (compared with 0.24 MPa for neat PDMS), while it can withstand an elongation of about 1.5 times its initial length compared with only 0.3 times for neat PDMS. As a comparison, the modulus of the most commonly used commercial PDMS elastomer (Sylgard 184) is an order of magnitude higher than that of the composites prepared here, whereas maximum elongation is similar for the two. The formulations developed in this work could be used in applications where high deformability is required with limited magnetic field strength and/or NP loading. [ABSTRACT FROM AUTHOR]

Published
2020
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14. The Effect of Silver Nanoparticles on the Black-Stain Resistance of Acrylic Resin for Translucent Wood Coating Application.

Author

Boivin, Gabrielle, Ritcey, Anna M., and Landry, Véronic

Abstract

Translucent coatings applied to wood that is used for exterior applications often fail because of photodegradation and colonisation by black-stain fungi. This paper reports the effect of silver nanoparticles on the blackstain resistance of acrylic latex coatings. Acrylic latexes that contained various concentrations of silver nanoparticles were mixed with a commercial acrylic resin. The formulations were then applied to red pine (Pinus resinosa) sapwood, which was later evaluated for fungal resistance to Aureobasidium pullulans, Sclerophoma pityophila, and Eppicoccum nigrum. Latexes with silver nanoparticle concentrations as low as 0.03% (total coating formulation weight) were able to limit S. pityophila and E. nigrum growth, while higher concentrations were needed to limit the growth of A. pullulans. The influences of silver nanoparticles on the optical properties of the coating (i.e., colour, opacity, and gloss) were evaluated. It was demonstrated that the addition of silver nanoparticles to the formulation does not compromise the development of a translucent coating. [ABSTRACT FROM AUTHOR]

Published
2019
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15. Photochromic behavior of spiropyran in polymer matrices

Author

Tork, Amir, Boudreault, Francois, Roberge, Mathieu, Ritcey, Anna M., Lessard, Roger A., and Galstian, Tigran V.

Subjects
Photochromic materials -- Research, Polymeric composites -- Research, Astronomy, Physics
Abstract

The photoexcitation, relaxation, and optical erasure regimes of spiropyran- (SP-) doped polymer films were studied. Cellulose acetate, poly(vinyl acetate), and poly(methyl methacrylate) (PMMA) were used as host polymer matrices. We studied the character of the photoreaction for both coloring and bleaching processes. Reversible holographic recording in SP-PMMA films and the origin of the photochemical fatigue was studied upon repeated UV-visible irradiation cycles. [C] 2001 Optical Society of America

Published
2001

16. Dynamic response of ferrofluidic deformable mirrors using elastomer membrane and overdrive techniques.

Author

Rochette, Maxime, Borra, Ermanno F., Déry, Jean-Philippe, and Ritcey, Anna M.

Subjects
DEFORMABLE mirrors, MAGNETIC fluids, ELASTOMERS, ACTUATORS, ALUMINUM films
Abstract

The experimental results obtained with a ferrofluidic deformable mirror controlled by electro-magnet actuators are presented here. Using a step input through a single actuator, we obtained a steady-state settling time of 100 ms; however, different combinations of overdrive inputs can be used to decrease it to 25 ms. A new technique which consists of laying down an elastomer membrane, coated with an aluminum film, on the ferrofluid is also discussed. By adding the membrane on the ferrofluid, it further decreases the time response by a factor of 2. Furthermore, the thin aluminum layer improves the reflectivity of the mirror. Finally, using the membrane and the overdrive techniques combined, the time response is improved by a factor of 20. Numerical simulations show that ferrofluidic mirrors using membranes and improved electronics should reach settling times of the order of a millisecond. Presumably, even lower settling times could be possible. [ABSTRACT FROM AUTHOR]

Published
2018
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18. Aluminum-coated elastomer thin films for the fabrication of a ferrofluidic deformable mirror.

Author

Déry, Jean‐Philippe, Brousseau, Denis, Rochette, Maxime, Borra, Ermanno F., and Ritcey, Anna M.

Subjects
POLYDIMETHYLSILOXANE, POLYMER films, DEFORMABLE mirrors, MAGNETIC fluids, ALUMINUM coatings, MICROFABRICATION, ELASTOMERS, SPIN coating
Abstract

ABSTRACT A procedure for the fabrication of aluminum-coated reflective PDMS thin films having a low surface roughness and high reflectance is presented. Elastomer films are prepared by spin-coating on a sacrificial layer that permits subsequent release from the substrate. Appropriate surface treatments are established for the deposition of a thin, highly reflective metal coating. The composite membranes are deposited on an ethylene glycol based ferrofluid to fabricate a new ferrofluidic deformable mirror. Surface deformations of a few micrometers can be produced with low strength magnetic fields. The reflective elastomer membranes do not alter the rheological behavior of the ferrofluid in magnetic fields and thus offer new perspectives for the use of ferrofluidic mirrors in adaptive optics. © 2016 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2017, 134, 44542. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Luminescent properties of europium-doped (H3O)Y3F10·xH2O nanocrystals.

Author

Caron, Cyril, Boudreau, Denis, and Ritcey, Anna M.

Abstract

Low-polydispersity europium-doped (H3O)Y3F10·xH2O single-crystal nanoparticles can be prepared via a simple reverse microemulsion method. The doping level of the particles can be varied by changing the relative concentration of europium to yttrium in the initial precursor mixture. Doping levels of up to 14 ± 2 at% can be attained without loss of the host crystal structure. Final europium concentrations, however, fall below those of the precursor solutions, suggesting that europium ions are less readily incorporated into the (H3O)Y3F10·xH2O crystal lattice than are yttrium ions. Emission spectra of the doped nanoparticles show sharp well-defined lines, which can be assigned to known europium transitions. The emission intensity increases linearly with increasing europium content. Europium ions within the nanocrystals exhibit excited-state lifetimes of 3–5 ms. These values are an order of magnitude greater than those of free ions in solution, indicating that ion incorporation in the yttrium fluoride matrix efficiently reduces non-radiative energy losses. Finally, data from time-resolved phosphorescence measurements suggests that europium ions within the particles are located in spectroscopically different environments which can be tentatively assigned to surface and core sites. [ABSTRACT FROM AUTHOR]

Published
2015
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22. Influence of Fluorinated Surfactants on the Electro-Optic Switching of Near Infrared Sensitive Polymer-Dispersed Liquid Crystals.

Author

Simonyan, Lilit, Presniakov, Vladimir, Galstian, Tigran, and Ritcey, Anna M.

Subjects
FLUOROSURFACTANTS, ELECTROOPTICS, SWITCHING theory, NEAR infrared radiation, LIQUID crystals, LIGHT scattering, ELECTRONIC modulation
Abstract

We describe the influence of two fluorinated surfactant dopants on the electro-optical modulation of light scattering by near infrared sensitive polymer dispersed liquid crystals, based on multifunctional acrylates. The molecular configuration and droplet morphology of the obtained samples are found to be bipolar. It is shown that the addition of fluorinated surfactants to the initial mixture may reduce the voltage for the onset of switching and also may enable more efficient liquid crystal reorientation. However, the electrical short of obtained samples is prohibiting achieving complete modulation cycles. [ABSTRACT FROM PUBLISHER]

Published
2012
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36. Temperature and pressure dependent growth and morphology of DMPC/DSPC domains studied by Brewster angle microscopy

Author

Arnold, Alexandre, Cloutier, Isabelle, Ritcey, Anna M., and Auger, Michèle

Subjects
*MONOMOLECULAR films, *TEMPERATURE, *PRESSURE, *MICROSCOPY
Abstract

Abstract: In this work, the temperature and pressure dependent growth of domains in DMPC/DSPC monolayers at various molar ratios was studied by Brewster angle microscopy. Upon compression, roughly discoidal domains with some branching are formed. Further compression leads to an increase in both the number and the average size of the domains, which range between ca. 5 and 20μm. The isobaric heating of the monolayers results in a gradual decrease of the domain size until their disappearance. The size and morphology of the domains depend not only on equilibrium parameters such as temperature, pressure and composition, but appear to be also strongly dependent on non-equilibrium parameters such as the rate of perturbation. The comparison between our results and those previously published for bilayers allows us to infer that the growth behaviour in monolayers can be qualitatively but not quantitatively extrapolated to bilayers. [Copyright &y& Elsevier]

Published
2005
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