Decomposition of 3,5-diaryloxathiolane-2-oxides under electron impact

Keyphrases

• Oxides 100%
• Electron Impact 100%
• 1,2-Oxathiolanes 87%
• Radical Cation 50%
• Methoxyphenyl 37%
• Sulfur Dioxide 37%
• Diaryl 37%
• Mass Spectrometer 25%
• Phenyl 25%
• Molecular Ions 25%
• Ion Source 25%
• Gas Phase 12%
• Organic Chemistry 12%
• Propylene 12%
• Dissociation 12%
• Common Structure 12%
• Mass Spectra 12%
• Tandem Mass Spectrometry 12%
• Methoxy 12%
• Trifluoroacetic Acid 12%
• Indenyl 12%
• Diphenyl 12%
• Reverse Reaction 12%
• Phenanthrene 12%
• Radical Reactions 12%
• Electron Impact Ionization 12%
• Condensed-phase Reactions 12%
• Fragmentation Reactions 12%
• Collisional Activation 12%
• Fragmentation Mechanism 12%
• Ion Structure 12%
• Fluorinated Cation 12%
• Ion Fragmentation 12%
• Liquid Chromatography-high Resolution Mass Spectrometry (LC-HRMS) 12%

Chemistry

• Oxide(2-) 100%
• Electron Impact 100%
• Oxathiolane 100%
• Sulfur Dioxide 85%
• Radical Cation 42%
• Molecular Ion 28%
• Organic Chemistry 14%
• Condensed Phase 14%
• Tandem Mass Spectrometry 14%
• Electron Impact Ionization 14%
• Radical Reaction 14%
• High Resolution Mass Spectrometry (HRMS) 14%
• Fragmentation Reaction 14%
• Collisional Activation 14%
• Cyclopropane 14%
• Trifluoroacetic Acid 14%
• Phenanthrenes 14%
• Biphenyl 14%