Quenching of Excited States of Pyrene by Tetranitromethane on SiO2 Surfaces: Effect of Reaction Temperature, Silica Pore Size, and Surface Silanol Content
Abstract:Quenchers which adsorb strongly to the silica gel surface show limited quenching of the excited states of coadsorbed donors, and when quenching does occur it is predominantly static quenching. This is observed for several quenchers including nitromethane, tetranitromethane, and methyl viologen. The strong adsorption of tetranitromethane (TNM) to the surface silanol groups is indicated by the significant adsorption from cyclohexane solutions and the lack of any desorption with continuous evacuation of the sampl… Show more
“…Quencher molecules that adsorb strongly to the silica gel surface exhibited limited quenching of excited states of co-adsorbed donors, and quenching tends to be predominantly static. Several quenchers including nitromethane, tetranitromethane, and methylviologen 79 behave in this way. The strong adsorption of TNM controls the quenching characteristics of several adsorbed donors, such as the singlet and triplet excited states of pyrene.…”
Section: Quenching Of Excited Pyrene By C(no 2 ) 4 (Tnm) Type Cmentioning
confidence: 99%
“…As carbon tetrachloride does not adsorb strongly on the porous silica gel surface, evacuation of the CCl 4 −SiO 2 sample readily removes CCl 4 from the gas phase with surface desorption occurring only after several minutes of evacuation. , Again, the desorption time depends on the pore size and surface silanol group concentration. Similar data have been also obtained for O 2 but only at low temperatures, as the desorption at room temperature 56 is too rapid.…”
“…Quencher molecules that adsorb strongly to the silica gel surface exhibited limited quenching of excited states of co-adsorbed donors, and quenching tends to be predominantly static. Several quenchers including nitromethane, tetranitromethane, and methylviologen 79 behave in this way. The strong adsorption of TNM controls the quenching characteristics of several adsorbed donors, such as the singlet and triplet excited states of pyrene.…”
Section: Quenching Of Excited Pyrene By C(no 2 ) 4 (Tnm) Type Cmentioning
confidence: 99%
“…As carbon tetrachloride does not adsorb strongly on the porous silica gel surface, evacuation of the CCl 4 −SiO 2 sample readily removes CCl 4 from the gas phase with surface desorption occurring only after several minutes of evacuation. , Again, the desorption time depends on the pore size and surface silanol group concentration. Similar data have been also obtained for O 2 but only at low temperatures, as the desorption at room temperature 56 is too rapid.…”
“…The spectra exhibit vibronic bands in the 370−400 nm region that are characteristic of pyrene monomer emission 35 with somewhat higher emission intensity observed with the covalently bound chromophore. The relative intensities of the highest and lowest frequency bands, referred to as I 1 and I 5 , respectively, have been correlated to the local solvent polarities with a decreased I 1 /( I 1 + I 5 ) ratio indicating a reduction in local solvent polarity. − 1 Steady-state fluorescence for covalently bound 1 (solid line) and occluded (dashed line) pyrene for titanate xerogel samples aged 3 weeks as monoliths prepared from 10 -5 M sol solutions containing a 99:1 ratio of Ti(OCHMe 2 ) 4 /CH 3 Ti(OCHMe 2 ) 3 . Excitation wavelength = 343 nm under air.…”
Section: Resultsmentioning
confidence: 99%
“…The spectroscopy of dye-modified gels can be used not only as probes to characterize the internal structure of these porous host matrices but also to monitor the influence of the local environment on excited-state properties of the included dye. This technique was first applied to sol−gels by Avnir et al who monitored the fluorescence emission of an included pyrene throughout sol formation, gelation, and condensation. , Two aspects of the excited-state dynamics of pyrene were found to be especially significant with respect to the physical characterization of a sol−gel-derived host matrix. ,− First, pyrene forms an excimer that emits at wavelengths significantly longer than those characteristic of an isolated pyrene monomer. Second, the emission signal attributed to pyrene monomer exhibits vibronic structure that is highly sensitive to environmental polarity.…”
Section: Introductionmentioning
confidence: 99%
“…Second, the emission signal attributed to pyrene monomer exhibits vibronic structure that is highly sensitive to environmental polarity. Because a metal oxide sol−gel contains a finite number of terminal bonds, hydroxy and alkoxy functional groups are present on the internal surfaces of the metal oxide matrix, ,, enhancing local polarity. Thus, the geometric constraints imposed by the nature of the sol, by the swelling of the gel matrix, and by the interactions of included pyrene probes with surface functional groups will impact the observed fluorescent response.…”
Sol-gel synthesis has been used to disperse an emissive chromophore within a porous TiO 2 matrix, leading to xerogels and aerogels doped with tethered and unbound pyrenyl groups. Steady-state fluorescence was used to probe the interactions of neighboring pyrene groups within the gel matrix. Changes in the relative intensity of the monomer (I 1 ) emission peak as a function of chromophore concentration indicated a local interaction between included dyes for both tethered and unbound pyrene groups, likely through π stacking. Partial matrix methylation or phenylation failed to produce a significant effect on the relative intensity of the I 1 signal in either the xerogel or the aerogel. Changes in the relative intensity of excimer emission with changes in matrix composition, however, do suggest that the presence of either phenyl or methyl groups within the TiO 2 matrix impedes π stacking between pairs of tethered pyrenyl groups. Compared with strong excimer emission in the xerogels containing pyrenyl groups at relatively high concentrations, excimer formation was inhibited in the corresponding aerogels, for which BET analysis indicated a broad pore size distribution in the mesoporous range, ca. 100 Å.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
