2006
DOI: 10.1016/j.chemphys.2005.10.004
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Mass analyzed threshold ionization spectroscopy of o-fluorophenol and o-methoxyphenol cations and influence of the nature and relative location of substituents

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Cited by 37 publications
(51 citation statements)
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References 46 publications
(70 reference statements)
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“…) is found. This result is similar to that of o-methoxyphenol [13], whose only stable structure has the O-HÁ Á ÁO-CH 3 configuration. The general spectral features of o-methoxyaniline in Fig.…”
Section: O-methoxyanilinesupporting
confidence: 87%
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“…) is found. This result is similar to that of o-methoxyphenol [13], whose only stable structure has the O-HÁ Á ÁO-CH 3 configuration. The general spectral features of o-methoxyaniline in Fig.…”
Section: O-methoxyanilinesupporting
confidence: 87%
“…The distinct bands at 755 and 838 cm À1 result from the in-plane vibrations 1 and 12 of the o-methoxyaniline cation in the D 0 state. The corresponding frequencies of the o-methoxyphenol cation were found to be 756 and 829 cm À1 , respectively [13]. Although the intensity of all other bands in Fig.…”
Section: C-r2pi and Mati Spectra Of Cis M-methoxyanilinementioning
confidence: 97%
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“…It is known the ionization energy (IE) of o-fluorophenol is 8.67 eV obtained by the mass analyzed threshold ionization spectroscopy [5], the excitation origin energy of S 1 ← S 0 electronic transition of o-fluorophenol is 4.56 eV indicated by REMPI [3], and the S 2 origin is estimated to be 5.79 eV from the UV absorption spectrum [21]. In the present work, we used two ionization schemes to study the ultrafast dynamics of o-fluorophenol.…”
Section: Experimental Techniquementioning
confidence: 99%
“…Discussions about electronic states of o-fluorophenol are numerous. Examples of such studies include the structural information on the S 0 and S 1 states using hole burning and high resolution ultraviolet spectroscopy [3], excited state hydrogen transfer studied by two-color resonance enhanced multiphoton ionization (REMPI) spectroscopy [4], the observation of the vibrationally resolved cation spectra by mass analyzed threshold ionization spectroscopy [5], nonresonant ionization detected by infrared spectroscopy [6], and vibrational spectra studied by Fourier transforminfrared (FT-IR) and FT-Raman spectroscopy [7,8]. All of these studies rely on the timescale of nanosecond (ns).…”
Section: Introductionmentioning
confidence: 99%