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Literature DB >> 16352440

In situ generation of HCN for mass spectrometric studies.

Silvi A Chacko¹, Ian H Krouse¹, Loubna A Hammad¹, Paul G Wenthold².

Abstract

Hydrogen cyanide (HCN) for use in ion preparation can be generated in the gas phase by the neutral-neutral reaction of trimethylsilyl cyanide (Me(3)SiCN) and water in a flowing afterglow mass spectrometer. We demonstrate that the approach can be used to generate a wide range of HCN solvated ions such as F(-)(HCN), Cl(-)(HCN), CN(-)(HCN), PhNO(2)(.-)(HCN), Me(3)SiO(-)(HCN),and PhSiF(4)(-)(HCN), many of which are otherwise difficult to generate. The bond dissociation energy of CN(-)(HCN), generated by using this approach, has been measured by using energy-resolved collision-induced issociation (CID) to be 0.87 +/- 0.07 eV.

Entities: Chemical

Year: 2005 PMID： 16352440 DOI： 10.1016/j.jasms.2005.08.018

Source DB: PubMed Journal: J Am Soc Mass Spectrom ISSN： 1044-0305 Impact factor: 3.109

1 in total

1. Understanding organic gas-phase anion molecule reactions.

Authors: Charles H DePuy
Journal: J Org Chem Date: 2002-04-19 Impact factor: 4.354

1 in total

1. Salts of HCN-Cyanide Aggregates: [CN(HCN)₂ ]^- and [CN(HCN)₃ ]^.

Authors: Kevin Bläsing; Jörg Harloff; Axel Schulz; Alrik Stoffers; Philip Stoer; Alexander Villinger
Journal: Angew Chem Int Ed Engl Date: 2020-04-21 Impact factor: 15.336

1 in total

In situ generation of HCN for mass spectrometric studies.

1. Understanding organic gas-phase anion molecule reactions.

1. Salts of HCN-Cyanide Aggregates: [CN(HCN)2 ]- and [CN(HCN)3 ].

1. Salts of HCN-Cyanide Aggregates: [CN(HCN)₂ ]^- and [CN(HCN)₃ ]^.