Experimental and Theoretical Study of Electronic Transitions in Phosphorus, Phosphoryl, and Thiophosphoryl Trichlorofluorides

McAdams, Mary Jane

05 1900

This thesis is an investigation of the vacuum uv spectra of the phosphorus, phosphoryl, and thiophosphoryl trichlorofluorides in the region 1250 to 3000A. Assignments for absorption bands are made utilizing results from photoelectron spectra and ab initio calculations, oscillator strengths for absorption bands, and CNDO/2 molecular orbital calculations. Results from CNDO/2 calculations are compared with theoretical calculations, and experimental data are discussed with regard to the bonding in the compounds.

electron structure

phosphorus halides

vacuum uv spectra

Surface Engineering of Mesoporous Silica for Ti-Based Epoxidation Catalysts / Ingénierie des Surfaces de Silice Mésoporeuse pour Ti-Based catalyseurs d'époxydation

Fang, Lin

13 November 2012

Les sites actifs de l’époxydation des alcènes dans les catalyseurs au titane supporté sur silice sont des ions Ti(IV) isolés. La stratégie d’isolation de site adoptée ici consiste à greffer l’isopropoxyde de titane par réaction avec les groupements silanol de surface dont la densité est diminuée par « capping » chimique remplaçant le traitement thermique usuel, très énergivore. La technique du pochoir moléculaire à motifs périodiques (PMP) a été appliquée pour forcer l’isolation de site. Dans les silices poreuses mesostructurées par un tensio-actif, c’est ce dernier, partiellement extrait, qui génère l’effet PMP lors du capping. Son élimination à l’étape suivante libère des îlots de groupements silanol sur lesquels sont greffés les ions Ti(IV). Une étude spectroscopique quantitative menée en parallèle par FT-IR et par RMN du solide du 29Si démontre que le pochoir organique inverse formé de groupement organosilyls greffés est conservé à toutes les étapes de synthèse. La spectroscopie UV en corrélation avec l’activité catalytique en époxydation du cyclohexene montent que ces surfaces originales favorisent un nombre beaucoup plus grand de sites mononucléaires isolés que les surfaces de silice non modifiées. La démonstration est faite avec une fonction de capping dipodale, 1-2-ethanebis(dimethylsilyl) (EBDMS), beaucoup plus stable que le monopodal classique, trimethylsilyl (TMS). Par ailleurs, le pochoir organique inverse issu du TMS ou de EBDMS voit sa stabilité augmentée par traitement thermique tout en préservant son effet dispersant pour le titane. Pour ce faire, un suivi quantitatif de la décomposition des organosilanes greffés a été réalisé par RMN du solide du 29Si. Finalement, une description affinée et quantitative du mode de greffage du titane a été réalisée par simulation des spectres UV sur une série de catalyseurs supposant 5 types d’espèces comprenant les sites isolés et les clusters, les derniers se différenciant par leur gamme de taille. / The active sites for epoxydation of alkenes in silica supported titanium catalysts are isolated Ti(IV) ions. The strategy for site isolation consists here to graft titanium isopropoxyde by reaction with surface silanol groups, the density of which is decreased by chemical capping instead of the energy consuming thermal treatment. The molecular stencil patterning technique (MSP) is applied to enforce site isolation. In mesostructured porous silicas, the partly extracted templating surfactant plays the role of a MSP mask during capping. Then, the elimination of the remaining surfactant liberates silanol islands for the grafting of Ti(IV) ions. Quantitative FT-IR and 29Si MAS-NMR studies reveal that the inverse organic stencil made of grafted organosilyls groups is maintained at each synthesis steps. Diffuse reflectance UV spectroscopy in correlation with the catalytic activity in epoxidation of cyclohexene show that these original surfaces favor the formation of a much larger number of isolated mononuclear sites than the unmodified silica surfaces. The demonstration is obtained using a dipodal organosilyl function, 1-2-ethanebis (dimethylsilyl) (EBDMS) that is much more stable than the classic and monopodal, trimethylsilyl (TMS). Besides, it is shown that the inverse organic stencil (from EBDMS or TMS) is stabilized further by thermal treatment while its dispersive effect on titanium can be preserved. The proof relies on a quantitative 29Si solid State NMR study. Finally, a refined description of the grafting mode of titanium was realized by simulation of the UV spectra of a large series of catalysts assuming only 5 different types of species including isolated species and clusters differentiated by the range of sizes.

MCM-41

Titane

Catalyse hétérogène

Époxydation

Spectre UV

MCM-41

Titanium

Heterogeneous catalysis

Epoxidation

UV spectra

Surface Engineering of Mesoporous Silica for Ti-Based Epoxidation Catalysts

Fang, Lin, Fang, Lin

13 November 2012

The active sites for epoxydation of alkenes in silica supported titanium catalysts are isolated Ti(IV) ions. The strategy for site isolation consists here to graft titanium isopropoxyde by reaction with surface silanol groups, the density of which is decreased by chemical capping instead of the energy consuming thermal treatment. The molecular stencil patterning technique (MSP) is applied to enforce site isolation. In mesostructured porous silicas, the partly extracted templating surfactant plays the role of a MSP mask during capping. Then, the elimination of the remaining surfactant liberates silanol islands for the grafting of Ti(IV) ions. Quantitative FT-IR and 29Si MAS-NMR studies reveal that the inverse organic stencil made of grafted organosilyls groups is maintained at each synthesis steps. Diffuse reflectance UV spectroscopy in correlation with the catalytic activity in epoxidation of cyclohexene show that these original surfaces favor the formation of a much larger number of isolated mononuclear sites than the unmodified silica surfaces. The demonstration is obtained using a dipodal organosilyl function, 1-2-ethanebis (dimethylsilyl) (EBDMS) that is much more stable than the classic and monopodal, trimethylsilyl (TMS). Besides, it is shown that the inverse organic stencil (from EBDMS or TMS) is stabilized further by thermal treatment while its dispersive effect on titanium can be preserved. The proof relies on a quantitative 29Si solid State NMR study. Finally, a refined description of the grafting mode of titanium was realized by simulation of the UV spectra of a large series of catalysts assuming only 5 different types of species including isolated species and clusters differentiated by the range of sizes.

[CHIM:OTHE] Chemical Sciences/Other

[CHIM:OTHE] Chimie/Autre

MCM-41

Titanium

Heterogeneous catalysis

Epoxidation

UV spectra