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Electronic states of thiophenyl and furanyl radicals and dissociation energy of thiophene via photoelectron imaging of negative ions
Lori Marie Culberson,
Andrei Sanov
Chemistry and Biochemistry
Physics
Chemistry and Biochemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
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Dive into the research topics of 'Electronic states of thiophenyl and furanyl radicals and dissociation energy of thiophene via photoelectron imaging of negative ions'. Together they form a unique fingerprint.
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Keyphrases
Photoelectron
100%
Photoelectron Imaging
100%
Electronic States
100%
Bond Dissociation Energy
100%
Thiophene
100%
Thiophenyl
100%
Negative Ions
100%
Anions
66%
Photodetachment
66%
C-H Bond
66%
Energy Terms
66%
Excited States
33%
Adiabatic Electron Affinity
33%
Photoelectron Angular Distributions
33%
Vibrational Progressions
33%
Benzene
33%
Electron Affinity
33%
Band Origins
33%
Thermodynamic Cycle
33%
Ring Mode
33%
Thermodynamic Stability
33%
Furan
33%
Deprotonated
33%
Chemistry
Photoelectron
100%
Electronic State
100%
Dissociation Energy
100%
Thiophene
100%
Anion
100%
Electron Affinity
40%
Excited State
20%
Thermodynamic Cycle
20%
Furan
20%