Search Results - "Sazio, Pier J. A"

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    Low Loss Transmission in Negative Curvature Optical Fibers With Elliptical Capillary Tubes by Chaudhuri, Subhasis, Van Putten, Lieke D., Poletti, Francesco, Sazio, Pier J. A.

    Published in Journal of lightwave technology (15-09-2016)
    “…Regular and nested negative curvature optical fibers with elliptical capillary tubes have been proposed in this paper for ultralow loss guidance at the…”
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    Extreme electronic bandgap modification in laser-crystallized silicon optical fibres by Healy, Noel, Mailis, Sakellaris, Bulgakova, Nadezhda M., Sazio, Pier J. A., Day, Todd D., Sparks, Justin R., Cheng, Hiu Y., Badding, John V., Peacock, Anna C.

    Published in Nature materials (01-12-2014)
    “…For decades now, silicon has been the workhorse of the microelectronics revolution and a key enabler of the information age. Owing to its excellent optical…”
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    Selective Semiconductor Filling of Microstructured Optical Fibers by Sparks, Justin R, Esbenshade, Jennifer L, Rongrui He, Healy, Noel, Day, Todd D, Keefer, Derek W, Sazio, Pier J A, Peacock, Anna C, Badding, John V

    Published in Journal of lightwave technology (01-07-2011)
    “…A novel selective filling technique has been developed for the patterning of semiconductor materials in microstructured optical fibers (MOFs) based on…”
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    Silicon p-i-n Junction Fibers by He, Rongrui, Day, Todd D., Krishnamurthi, Mahesh, Sparks, Justin R., Sazio, Pier J. A., Gopalan, Venkatraman, Badding, John V.

    Published in Advanced materials (Weinheim) (13-03-2013)
    “…Flexible Si p‐i‐n junction fibers made by high pressure chemical vapor deposition offer new opportunities in textile photovoltaics and optoelectronics, as…”
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    Integration of gigahertz-bandwidth semiconductor devices inside microstructured optical fibres by He, Rongrui, Sazio, Pier J. A., Peacock, Anna C., Healy, Noel, Sparks, Justin R., Krishnamurthi, Mahesh, Gopalan, Venkatraman, Badding, John V.

    Published in Nature photonics (01-03-2012)
    “…The prospect of an all-fibre optical communications network in which light can be generated, modulated and detected within the fibre itself 1 , 2 , 3 , 4 , 5 ,…”
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    Thermal Poling of Optical Fibers: A Numerical History by De Lucia, Francesco, Sazio, Pier J A

    Published in Micromachines (Basel) (27-01-2020)
    “…This review gives a perspective of the thermal poling technique throughout its chronological evolution, starting in the early 1990s when the first observation…”
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    Confined High-Pressure Chemical Deposition of Hydrogenated Amorphous Silicon by Baril, Neil F, He, Rongrui, Day, Todd D, Sparks, Justin R, Keshavarzi, Banafsheh, Krishnamurthi, Mahesh, Borhan, Ali, Gopalan, Venkatraman, Peacock, Anna C, Healy, Noel, Sazio, Pier J. A, Badding, John V

    Published in Journal of the American Chemical Society (11-01-2012)
    “…Hydrogenated amorphous silicon (a-Si:H) is one of the most technologically important semiconductors. The challenge in producing it from SiH4 precursor is to…”
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    Single-Fluxon Controlled Resistance Switching in Centimeter-Long Superconducting Gallium–Indium Eutectic Nanowires by Zhao, Weiwei, Bischof, Jesse L, Hutasoit, Jimmy, Liu, Xin, Fitzgibbons, Thomas C, Hayes, John R, Sazio, Pier J.A, Liu, Chaoxing, Jain, Jainendra K, Badding, John V, Chan, M. H. W

    Published in Nano letters (14-01-2015)
    “…The ability to manipulate a single quantum object, such as a single electron or a single spin, to induce a change in a macroscopic observable lies at the heart…”
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    Spontaneous Waveguide Raman Spectroscopy of Self-Assembled Monolayers in Silica Micropores by Calkins, Jacob A, Peacock, Anna C, Sazio, Pier J. A, Allara, David L, Badding, John V

    Published in Langmuir (18-01-2011)
    “…Advances in nanoscience are critically dependent on the ability to control and probe chemical and physical phenomena in confined geometries. A key challenge is…”
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    Zinc Selenide Optical Fibers by Sparks, Justin R., He, Rongrui, Healy, Noel, Krishnamurthi, Mahesh, Peacock, Anna C., Sazio, Pier J. A., Gopalan, Venkatraman, Badding, John V.

    Published in Advanced materials (Weinheim) (12-04-2011)
    “…High purity crystalline ZnSe compound semiconductor waveguides are fabricated inside optical fibers via high‐pressure chemical vapor deposition. These fiber…”
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    Organosilane Self-Assembled Monolayer Growth from Supercritical Carbon Dioxide in Microstructured Optical Fiber Capillary Arrays by Danışman, Mehmet F, Calkins, Jacob A, Sazio, Pier J. A, Allara, David L, Badding, John V

    Published in Langmuir (01-04-2008)
    “…Microstructured optical fibers form a new class of extreme aspect ratio templates that are well-suited for precise, designed spatial organization of materials…”
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    Combining Photocatalysis and Optical Fiber Technology toward Improved Microreactor Design for Hydrogen Generation with Metallic Nanoparticles by Potter, Matthew E, Stewart, Daniel J, Oakley, Alice E, Boardman, Richard P, Bradley, Tom, Sazio, Pier J. A, Raja, Robert

    Published in ACS photonics (18-03-2020)
    “…The use of solar energy to activate chemical pathways in a sustainable manner drives the development in photocatalysis. While catalyst optimization is a major…”
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    Incorporating Metal Organic Frameworks within Microstructured Optical Fibers toward Scalable Photoreactors by Potter, Matthew E., Stewart, Daniel J., Ignatyev, Konstantin, Bradley, Tom, Sazio, Pier J. A., Raja, Robert

    Published in Advanced optical materials (01-03-2021)
    “…Optical fiber technology has revolutionized the telecommunications industry, though is still under‐utilized in chemistry. Optical fibers open many avenues for…”
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    Microscopic spacial effect on the dispersion polymerization in scCO2 by JIXIN YANG, WENXIN WANG, SAZIO, Pier J. A, HOWDLE, Steven M

    Published in European polymer journal (01-02-2007)
    “…We report for the first time the microscopic spacial effect on the dispersion polymerization of methyl methacrylate (MMA) in supercritical carbon dioxide…”
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    Single-Crystal Semiconductor Wires Integrated into Microstructured Optical Fibers by Jackson, Bryan R., Sazio, Pier J. A., Badding, John V.

    Published in Advanced materials (Weinheim) (18-03-2008)
    “…Single‐crystal silicon wires are grown within the pores of microstructured optical fibers via a high‐pressure fluid‐liquid‐solid approach. Precise spatial…”
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    High-Pressure Chemical Deposition for Void-Free Filling of Extreme Aspect Ratio Templates by Baril, Neil F., Keshavarzi, Banafsheh, Sparks, Justin R., Krishnamurthi, Mahesh, Temnykh, Ivan, Sazio, Pier J. A., Peacock, Anna C., Borhan, Ali, Gopalan, Venkatraman, Badding, John V.

    Published in Advanced materials (Weinheim) (02-11-2010)
    “…Near atomically smooth, void‐free, centimeter‐long amorphous silicon waveguides are produced by high pressure chemical fluid deposition in the pores of a…”
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    Conformal Coating by High Pressure Chemical Deposition for Patterned Microwires of II-VI Semiconductors by Sparks, Justin R., He, Rongrui, Healy, Noel, Chaudhuri, Subhasis, Fitzgibbons, Thomas C., Peacock, Anna C., Sazio, Pier J. A., Badding, John V.

    Published in Advanced functional materials (05-04-2013)
    “…Deposition techniques that can uniformly and conformally coat deep trenches and very high aspect ratio pores with uniform thickness films are valuable in the…”
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    Silicon p-i-n Junction Fibers (Adv. Mater. 10/2013) by He, Rongrui, Day, Todd D., Krishnamurthi, Mahesh, Sparks, Justin R., Sazio, Pier J. A., Gopalan, Venkatraman, Badding, John V.

    Published in Advanced materials (Weinheim) (13-03-2013)
    “…John V. Badding and co‐workers demonstrate on p. 1461 the ability to fabricate silicon p‐i‐n junctions within high aspect ratio optical fibers, and which…”
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