Search Results - "Farmen, Christopher T."

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    Intrinsic reactivity of [OUCH]+: Apparent synthesis of [OUS]+ by reaction with CS2 by Metzler, Luke J., Farmen, Christopher T., Fry, Allison N., Seibert, Mark P., Massari, Kayla A., Corcovilos, Theodore A., Stipdonk, Michael J.

    Published in Rapid communications in mass spectrometry (30-04-2022)
    “…Rationale Building on our report that collision‐induced dissociation (CID) can be used to create the highly reactive U‐alkylidyne species [O=U≡CH]+, our goal…”
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    Journal Article
  2. 2

    Intrinsic reactivity of [OUCH] + : Apparent synthesis of [OUS] + by reaction with CS 2 by Metzler, Luke J, Farmen, Christopher T, Fry, Allison N, Seibert, Mark P, Massari, Kayla A, Corcovilos, Theodore A, van Stipdonk, Michael J

    Published in Rapid communications in mass spectrometry (30-04-2022)
    “…Building on our report that collision-induced dissociation (CID) can be used to create the highly reactive U-alkylidyne species [O=U≡CH] , our goal was to…”
    Get full text
    Journal Article