Abstract
Ring-strain in cyclic organic molecules is well-known to influence their chemical reactivity. Here, we examine the consequence of ring-strain for competing photochemical pathways that occur on picosecond timescales. The significance of Norrish Type-I photochemistry is explored for three cyclic ketones in cyclohexane solutions at ultraviolet (UV) excitation wavelengths from 255 – 312 nm, corresponding to an π*← n excitation to the lowest excited singlet state (S1). Ultrafast transient absorption spectroscopy with broadband UV/visible probe laser pulses reveals processes common to cyclobutanone, cyclopentanone and cyclohexanone, occurring on timescales of ≤1 ps, 7 – 9 ps and >500 ps. These kinetic components are respectively assigned to prompt cleavage of an α C-C bond in the internally excited S1-state molecules prepared by UV absorption, vibrational cooling of these hot-S1 molecules to energies below the barrier to C-C bond cleavage on the S1 state potential energy surface (with commensurate reductions in the energy-dependent α-cleavage rate), and slower loss of thermalized S1-state population. The thermalized S1-state molecules may competitively decay by activated reaction over the barrier to α C-C bond fission on the S1-state potential energy surface, internal conversion to the ground (S0) electronic state, or intersystem crossing to the lowest lying triplet state (T1) and subsequent C-C bond breaking. The α C-C bond fission barrier height in the S1 state is significantly reduced by the ring-strain in cyclobutanone, affecting the relative contributions of the three decay time components which depend systematically on the excitation energy above the S1-state energy barrier. Transient infra-red absorption spectra obtained after UV excitation identify ring-opened ketene photoproducts of cyclobutanone and their timescales for formation.
Original language | English |
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Pages (from-to) | 1991-2000 |
Number of pages | 10 |
Journal | Chemical Science |
Volume | 11 |
DOIs | |
Publication status | Published - 13 Jan 2020 |
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Ultrafast photochemistry of cyclic ketones
Orr-Ewing, A. J. (Creator), Ashfold, M. N. R. (Creator) & Kao, M. (Creator), University of Bristol, 7 Oct 2019
DOI: 10.5523/bris.f31my8udw5f523a2s2i1e4o3q, http://data.bris.ac.uk/data/dataset/f31my8udw5f523a2s2i1e4o3q
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Research Data Storage Facility (RDSF)
Sadaf R Alam (Manager), D A G Williams (Manager), Steven A Chapman (Manager), Polly E Eccleston (Manager) & Simon H Atack (Manager)
IT ServicesFacility/equipment: Facility
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