2008
DOI: 10.1039/b708580j
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The VUV electronic spectroscopy of acetone studied by synchrotron radiation

Abstract: The electronic state spectroscopy of acetone (CH3)2CO has been investigated using high-resolution VUV photoabsorption spectroscopy in the energy range 3.7-10.8 eV. New vibronic structure has been observed, notably in the low energy absorption band assigned to the 1(1)A(1) --> 1(1)A2 (ny --> pi*) transition. The local absorption maximum at 7.85 eV has been tentatively attributed to the 4(1)A1 (pi --> pi*) transition. Six Rydberg series converging to the lowest ionisation energy (9.708 eV) have been assigned as … Show more

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Cited by 59 publications
(97 citation statements)
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“…Previously, we have observed a similar effect on acetone lowest-lying excited state dipole forbidden band, identified as 3b 1 (π * ) ← 5b 2 (n y ) (1 1 A 2 ← 1 1 A 1 ), due to change from C 2v ground state to C S excited state symmetry. 34 The origin of the band has been identified at 5.297 eV 35 from temperature dependent experiments on carbonyl sulphide, whereas in the present work, we propose the (0-0) transition at 5.267 eV. The fine structure is primarily attributed to excitation of the ν ′ 1 stretching mode (see Table I for the proposed assignments) with a contribution from ν ′ 2 bending mode.…”
Section: A Valence State Spectroscopy Of Carbonyl Sulphidementioning
confidence: 65%
“…Previously, we have observed a similar effect on acetone lowest-lying excited state dipole forbidden band, identified as 3b 1 (π * ) ← 5b 2 (n y ) (1 1 A 2 ← 1 1 A 1 ), due to change from C 2v ground state to C S excited state symmetry. 34 The origin of the band has been identified at 5.297 eV 35 from temperature dependent experiments on carbonyl sulphide, whereas in the present work, we propose the (0-0) transition at 5.267 eV. The fine structure is primarily attributed to excitation of the ν ′ 1 stretching mode (see Table I for the proposed assignments) with a contribution from ν ′ 2 bending mode.…”
Section: A Valence State Spectroscopy Of Carbonyl Sulphidementioning
confidence: 65%
“…To assess an interference from acetone, we measured the absorption cross sections of acetone under the same conditions; results in the spectral region 106-170 nm are displayed in Figure 3. For the most prominent absorption of acetone at 153.22 nm, the cross section is 68 Mb (Nobre et al 2008). Testing our absorption of C 2 H 2 in Figure 2(a), we measured no absorption line at 153.22 nm; thus, in our target sample acetone cannot perturb the accuracy of our cross sections of C 2 H 2 .…”
Section: Resultsmentioning
confidence: 99%
“…Experimental and theoretical studies of electronic structure of the ground and excited states, as well as the electronic transition probabilities for the valence and the inner shell electrons for both DMSO and acetone, have been done in the past 40 years. These molecules have been excited at the valence7–14 and inner shell regions,8, 15–21 using synchrotron radiation and electron energy loss, or laser spectrometers. Theoretical studies have been done for both DMSO1, 3, 22–24 and acetone,25–29 in the valence region, mainly using configuration interaction methods.…”
Section: Introductionmentioning
confidence: 99%