Tamara E. Munsch scite author profile

Theory predicts an open‐shell doublet ground state for the 5‐dehydro‐1,3‐quinodimethane triradical (see picture), with three low‐spin coupled electrons in three singly occupied molecular orbitals. The bond dissociation enthalpy for formation of the triradical from meta‐xylylene, measured by MS indicates an interaction of (1±4) kcal mol−1 between the unpaired electrons in the σ and π systems in the triradical.

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Reactivity and Structure of the 5-Dehydro-m-xylylene Anion

Munsch

Slipchenko

Krylov

et al. 2004

J. Org. Chem.

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The electronic structure of dehydro-m-xylylene anion (DMX-) has been investigated by using chemical reactivity studies and electronic structure calculations. DMX- has been generated in the gas phase via the sequential reaction of trimethyl-3,5-bis(trimethylsilylmethyl)phenylsilane with F- and two molecules of F2. Reactivity and thermochemical properties of the ion indicate a phenyl-like anion (1a), consistent with theoretical predictions. Density functional calculations predict a nonplanar triplet anion, with an allenic singlet anion slightly higher in energy. The driving force for the out-of-plane distortion is more efficient charge delocalization that is achieved at lower symmetry.

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Comparative Study of the Photochemistry of the Azidopyridine 1-Oxides

et al. 2008

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The photochemistry of azidopyridine 1-oxides was studied using an array of glass and matrix isolation techniques. As with room temperature, the photochemistry of 4-azidopyridine 1-oxide is dominated by triplet nitrene chemistry. However, in the case of the 3-azide, matrix photolysis indicates the formation of diazabicyclo[4.1.0]hepta-2,4,6-triene N-oxide and diazacycloheptatetraene N-oxide intermediates as well as triplet nitrene.

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Enantioselective synthesis of benzocyclic α,α-dialkyl-amino acids: new insight into the solvent dependent stereoselectivity of the TMSCN addition to phenylglycinol derived imines

et al. 2001

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Asymmetric synthesis of two new conformationally constrained lysine derivatives

et al. 2002

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12 Organic gas-phase ion chemistry

Munsch

Wenthold

2003

Annu. Rep. Prog. Chem., Sect. B

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Gas-phase ion chemistry is a useful approach for the investigation of physical organic chemistry and the study of reactivity, structure, and thermochemical properties of ionic and neutral organic substrates. This review summarizes the physical organic chemistry studies utilizing gas-phase ion chemistry reported in the past year. Among the more significant advances reported in the past year included a report of the reactivity of p-benzyne by Kenttämaa and co-workers, 1 a comparison of the S N 2 reaction in the gas-phase and in solution by Brauman and co-workers, 2 and a full characterization of the structure and energetics of cyanocarbene. 3,4 Information learned from these gas-phase ion studies includes: 1) p-benzyne undergoes radical reactions but also reacts as a weak electrophile; 2) unlike what is found in solution, steric bulk does not significantly affect the barriers for S N 2 reactions of halogenated nitriles; and 3) HCCN is a "floppy" molecule with a triplet ground state and a singlet excited state that is ca. 50 kJ mol Ϫ1 higher in energy.Papers included in this review were selected by considering contributions to the standard organic, physical, and mass spectrometry journals. The selected articles are those that address the issue of reactivity and structure of organic molecules. Our emphasis in this work is on the chemistry that is observed, and information regarding the instrumental technique is only provided in situations where it is critical for understanding the results. The majority of the studies were carried out by using Fourier transform-ion cyclotron resonance (FT-ICR), quadrupole ion trap, or flowing afterglow techniques. We have generally not included papers regarding ionization fragmentation patterns, unless the work was part of broader studies. Studies of organometallic ions were generally not included if the chemistry was dominated by the metal center. Moreover, computational studies were also not included unless they provided significant insight into specific experimental results.It was with some trepidation that we restrict the number of biological studies included in this paper. Recent advances in mass spectrometric capabilities have led to numerous fundamental studies of the properties of biologically relevant molecules. In this work, we generally have only included the studies of the simplest biological molecules, amino acids, nucleic acids, and monosaccharides. It is clear that many more future mass spectrometric studies will likely involve biological substrates. As such, it is anticipated that future versions of this report may need to be expanded to include more biologically relevant material.The articles summarized in this review are organized into broad classifications: 420

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14 Organic gas-phase ion chemistry

Munsch

Wenthold

2004

Annu. Rep. Prog. Chem., Sect. B: Org. Chem.

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5‐Dehydro‐1,3‐quinodimethane: A Hydrocarbon with an Open‐Shell Doublet Ground State

Slipchenko¹,

Munsch²,

Wenthold³

et al. 2004

Angewandte Chemie

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Tamara E. Munsch

5‐Dehydro‐1,3‐quinodimethane: A Hydrocarbon with an Open‐Shell Doublet Ground State

Reactivity and Structure of the 5-Dehydro-m-xylylene Anion

Comparative Study of the Photochemistry of the Azidopyridine 1-Oxides

Enantioselective synthesis of benzocyclic α,α-dialkyl-amino acids: new insight into the solvent dependent stereoselectivity of the TMSCN addition to phenylglycinol derived imines

Asymmetric synthesis of two new conformationally constrained lysine derivatives

12 Organic gas-phase ion chemistry

14 Organic gas-phase ion chemistry

5‐Dehydro‐1,3‐quinodimethane: A Hydrocarbon with an Open‐Shell Doublet Ground State

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