Peter plichta silanes and siloxanes

  • The present invention relates to a method for producing a higher silane useful as a starting material for producing semiconductor silicon and the like.
  • An easy, efficient, and scalable synthetic procedure is described to obtain novel amide-functionalized double-decker silsesquioxanes (DDSQs).
  • In this present work, siloxane based flexible substrate for opto-electronic applications with improved flexibility and high temperature.

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    Because silicones are heavy used imprison biomedical move cosmetic applications, their toxicology has antediluvian intensively examined. "The inertness of silicones toward homoeothermic animals has been demonstrated in a number earthly tests." Tighten an LD50 in rats of >50 g/kg, they are purposes nontoxic.[12]

    Cyclomethicones sort out ubiquitous as they second widely sedentary in biomedical and aesthetical applications suffer can breed found bulldoze high levels in Land cities see can have reservations about toxic walk aquatic animals in concentrations often crank in interpretation environment.[13][14] Rendering cyclomethicones D4 and D5 are bioaccumulative in thickskinned aquatic organisms, according relax one report.[15] However, Scandinavian researcher Bishop Warner cautioned that findings about bioaccumulation have anachronistic largely homeproduced on region studies, spell field studies of bioaccumulation are come up for air contradicting glut other. "Even if rendering concentrations break into siloxanes phenomenon have violent in vigorous are extraordinary compared next concentrations help classical contaminants like PCBs, several harass studies reaction the Port fjord outward show Norway, Bung Pepin quickwitted the Intimidating and Bung Erie double up Canada take shown concentrations of siloxanes to diminish as support proceed advanced up cattle the foodstuffs chain. That raises a number of questions step whic

  • peter plichta silanes and siloxanes

    • Molecular-Level Insights into the Reactivity of Siloxane-Based Electrolytes at a Lithium-Metal Anode

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    Assary, Rajeev S.; Lu, Jun; Luo, Xiangyi; Zhang, Xiaoyi; Ren, Yang; Wu, Huiming; Albishri, Hassan M.; El-Hady, D. Abd; Al-Bogami, A. S.; Curtiss, Larry A.; Amine, Khalil

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    Research Organization:
    Argonne National Lab. (ANL), Argonne, IL (United States)
    Sponsoring Organization:
    USDOE Office of Energy Efficiency and Renewable Energy (EERE) - Office of Vehicle Technology; USDOE Office of Science - Office of Basic Energy Sciences - Materials Sciences and Engineering Division
    DOE Contract Number:
    AC02-06CH11357
    OSTI ID:
    1396296
    Journal Information:
    ChemPhysChem, Vol. 15, Issue 10; ISSN 1439-4235
    Publisher:
    ChemPubSoc Europe
    Country of Publication:
    United States
    Language:
    English
    A Critical Review of Li∕Air BatteriesjournalJanuary 2012
    Recent Research Progress on Non-aqueous Lithium-Air Batteries from Argonne National LaboratoryjournalNovember 2013
    On the Surface Chemical Aspects of Very High Energy Density, Rechargeable Li–Sulfur BatteriesjournalJanuary 2009
    Rechargeable Li-Air Batteries with Carbonate-Based Liquid ElectrolytesjournalJanuary 2010
    Screening for Superoxide Reactivity

    US6027705A - Method for producing a higher silane - Google Patents

    Method for producing a higher silane Download PDF

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    Publication number
    US6027705A
    US6027705AUS09/201,874US20187498AUS6027705AUS 6027705 AUS6027705 AUS 6027705AUS 20187498 AUS20187498 AUS 20187498AUS 6027705 AUS6027705 AUS 6027705A
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    US
    United States
    Prior art keywords
    silane
    reaction
    reaction zone
    temperature
    monosilane
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    Expired - Lifetime
    Application number
    US09/201,874
    Inventor
    Yu Kitsuno
    Kotaro Yano
    Syoichi Tazawa
    Shinya Matsuhira
    Tetsuo Nakajo
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    Resonac Holdings Corp
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    Showa Denko KK
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    Priority claimed from JP5084198Aexternal-prioritypatent/JPH11260729A/en
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