Time-Resolved Resonance Raman Study of the Triplet State of the <i>p</i>-Hydroxyphenacyl Acetate Model Phototrigger Compound

Ma, Chensheng; Chan, Wing Sum; Kwok, Wai Ming; Zuo, Peng; Phillips, David Lee

doi:10.1021/jp0376020

Cited by 22 publications

(55 citation statements)

References 89 publications

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“…A slower quenching diffusion rate will have a corresponding effect on the Stern-Volmer value which will consequently result in a lower estimated rate constant for release. As shown earlier by us 11 and confirmed by Phillips, 7,12 the triplet pHP ester is influenced by solvent H 2 O, primarily assisting in removal of the phenolic proton and also in the concomitant loss of the leaving group, GABA, through solvation with H 2 O.…”

Section: Discussionmentioning

confidence: 56%

“…7 Milligram quantities of caged compounds and caffeine or acetamidophenol were weighed out on a Fisher brand microbalance and dissolved in 4 ml of 18 MΩ ultrapure water, salt solutions of various concentrations, buffers with or without adjusted ionic strengths, or purified organic solvents were then added to a quartz tube and vortexed, resulting a homogenous solution of the caged compound and internal standard. Concentrations of the caged compounds ranged from 1-9 mM.…”

Section: Experimental Methodsmentioning

confidence: 99%

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Fluorinated photoremovable protecting groups: the influence of fluoro substituents on the photo-Favorskii rearrangement

Stensrud

Heger

Šebej

et al. 2008

Photochem Photobiol Sci

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To further explore the nature of the photo-Favorskii rearrangement and its commitment to substrate photorelease from p-hydroxyphenacyl (pHP), an array of ten new fluorinated pHP γ-aminobutyric acid (GABA) derivatives was synthesized and photolyzed. The effects of fluorine substitution on the chromophore and the photophysical and photochemical properties of these new chromophores were shown to be derived primarily from the changes in the ground state pK a of the phenolic groups. The quantum yields and rate constants for release are clustered around Φ dis = 0.20 ± 0.05 and k r = 8 ± 7 × 10 7 s −1 (H 2 O), respectively. The triplet lifetimes of the pHP GABA derivatives were concentrated in the range of 0.4-6.0 ns (H 2 O). The corresponding deprotonated conjugate bases displayed reduced efficiencies by 50% or more (one exception) and exhibited a weak fluorescence in pH 8.2 buffer. Pump-probe spectroscopy studies have further defined the rates of intersystem crossing and the lifetimes of the reactive triplet state of the fluoro pHP chromophore.

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Section: Discussionmentioning

confidence: 56%

Section: Experimental Methodsmentioning

confidence: 99%

Fluorinated photoremovable protecting groups: the influence of fluoro substituents on the photo-Favorskii rearrangement

Stensrud

Heger

Šebej

et al. 2008

Photochem Photobiol Sci

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“…Because the leaving group has little effect on the triplet property of the pHP cage [23,43], the H-bonded effect on the triplet structure presented here for HP and MAP is also expected to be applicable generally to the pHP phototrigger compounds. The triplet that appears to be the precursor for the photodeprotection reaction of the pHP phototrigger compound is an H-bonded triplet complex with a planar and ring-localized biradical structure.…”

Section: Hydrogen-bonding Effects On the Excited States Of Selected Pmentioning

confidence: 91%

“…In Figure 13.12, the growth of the intensity of the triplet Raman feature tracks a frequency upshift of $40 cm À1 and a bandwidth that decreases by $40 cm À1 for HPA and HPDP in both of the H 2 O/MeCN mixed and neat MeCN solvents (see Refs [23] and [43] for details), and this kind of short-time behaviour in Raman band positions and bandwidths is typical of an excess energy relaxation process [23,43] that generally occurs on a timescale of around 10 ps, which correlates well with the $7-12 ps time constant seen in the spectra of Figure 13.12. The short-time behaviour of the 3 pp* Raman spectra appears to be due to the combined dynamics associated with the growth of the triplet population and the relaxation of the excess energy ($11 000 cm À1 ) deposited into the system by 267 nm photolysis and subsequent very fast ISC conversion to populate the triplet.…”

Section: Hydrogen-bonding Effects On the Excited States Of Selected Pmentioning

confidence: 94%

“…Water solvation of the hydroxy proton is also needed to account for the results of previous studies that found that photolysis of MPDP (the p-methoxy counterpart of HPDP) in a H 2 O/MeCN (1:1) solvent leads to very little if any deprotection products [14,21]. Because the hydroxy and methoxy moieties have similar electronic effects on the intrinsic properties of the triplet states [43,57], the lack of deprotection reactivity for MPDP indicates that there is not just a simple primary step involving only CÀO bond heterolysis in the HPDP triplet, and suggests that the proton-donating ability of the hydroxy group in the pHP triplet is associated with the different photochemical deprotection reactivity of MPDP from HPDP in the same water/MeCN mixed solvent.…”

Section: Hydrogen-bonding Effects On the Excited States Of Selected Pmentioning

confidence: 99%

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Hydrogen‐Bonding Effects on Excited States of Para ‐Hydroxyphenacyl Compounds

Phillips

2010

Hydrogen Bonding and Transfer in the Excited State

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Femtosecond Transient Absorption and Nanosecond Time‐Resolved Resonance Raman Study of the Solvent‐Dependent Photo‐Deprotection Reaction of Benzoin Diethyl Phosphate

Kwok

et al. 2007

Chemistry A European J

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A combined femtosecond transient absorption (fs-TA) and nanosecond time-resolved resonance Raman (ns-TR3) study was performed to directly detect the dynamics and elucidate the mechanism of the excited state deactivation and solvent-dependent photo-deprotection pathways for benzoin diethyl phosphate (BDP) in neat acetonitrile (MeCN) and 75 % H2O/25 % MeCN. Comparison of the TA spectral evolution observed in the two solvents provides explicit evidence that the photophysical deactivation of the BDP singlet excited state has little solvent dependence. The TA spectra also indicate the related internal conversion (IC) and intersystem crossing (ISC) processes occur rapidly on hundreds of femtoseconds and approximately 2-3 ps time scales, respectively. From this and in conjunction with a photochemistry study and ground state resonance Raman (RR) measurements, the TA results reveal that the phenacyl localized BDP triplet state (that is mainly npi* nature) is the common and immediate precursor to the photo-deprotection reaction in both solvents. However, the triplet deprotection follows different pathways in neat MeCN versus the largely water containing solvent. The deprotection reaction in MeCN was determined to occur with a approximately 11 ns time constant and the reaction was found to be an unimolecular process leading to elimination of the diethyl phosphoric acid apparently concurrent with cyclization to yield the benzofuran product. In the water mixed solvent, the triplet reaction was observed to proceed with a approximately 15 ns time constant and the reaction leads to not only the deprotection-cyclization but also a heterolytic dissociation to release the diethyl phosphate anion through a branching and competing mechanism. The ns-TR3 spectra combined with relevant DFT calculations have been used to characterize the dynamics, structure and vibrational frequencies to help identify the important intermediates as well as to explore the reaction pathway leading to formation of the solvolysis product in the largely water solvent. A consecutive mechanism has been revealed for the heterolysis-solvolysis reaction in the water mixed solvent. The present work provides direct and irrevocable evidence for the dynamics and mechanistic description of the overall photophysics and deprotection related photochemistry for BDP.

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Time-Resolved Resonance Raman Study of the Triplet State of the p-Hydroxyphenacyl Acetate Model Phototrigger Compound

Cited by 22 publications

References 89 publications

Fluorinated photoremovable protecting groups: the influence of fluoro substituents on the photo-Favorskii rearrangement

Fluorinated photoremovable protecting groups: the influence of fluoro substituents on the photo-Favorskii rearrangement

Hydrogen‐Bonding Effects on Excited States of Para ‐Hydroxyphenacyl Compounds

Femtosecond Transient Absorption and Nanosecond Time‐Resolved Resonance Raman Study of the Solvent‐Dependent Photo‐Deprotection Reaction of Benzoin Diethyl Phosphate

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