Synthesis and Characterization of Polyhedral Oligomeric Silsesquioxane (POSS) Based Amphiphiles

Liu, Yang

23 September 2011

Polyhedral oligomeric silsesquioxanes (POSS) have attracted substantial academic interest for many years as hybrid materials and nanofillers for controlling thermal and mechanical properties, and providing thermal and chemical resistance while retaining ease of processing. A natural extension of these studies has been POSS-based amphiphiles and thin film coatings. Studies at the air/water (A/W) interface have shown that trisilanol-POSS derivatives are amphiphilic and form uniform Langmuir films, whereas closed-cage POSS derivatives are hydrophobic and aggregate. In previous work, a triester (POSS-triester) and a triacid (POSS-triacid) were synthesized from PSS-(3-hydroxypropyl)-heptaisobutyl (POSS-OH) and Weisocyanate and fully characterized by surface pressure – area per molecule (Π-A) isotherm and Brewster angle microscopy (BAM) studies at the A/W interface. The results indicated that POSS-triester is surface active forming a liquid expanded (LE) monolayer, whereas POSS-triacid forms a liquid condensed (LC) monolayer that is only weakly affected by pH. A face-on conformation was proposed and examined to understand the packing of POSS-based amphiphilic molecules at the A/W interface. The face-on/vertex-on comparison is rarely discussed for Langmuir monolayers at the A/W interface. In this thesis, three other POSS-based esters were synthesized from POSS-OH and aminopropylisobutyl-POSS (POSS-NH₂) using Weisocyanate and a similar isocyanate containing two tert-butyl protected carboxylic acids. The synthesized materials are characterized by Π-A isotherm and BAM. For POSS-OH based diester (PAlDE) and POSS-NH2 based diester (PAmDE), LE/LC phase transitions were observed in Π-A isotherms over part of the experimentally accessible temperature range and were attributed to a change from a vertex-on to face-on conformation. Apparent BAM images confirmed LC islands coexisted with the LE phase. The experimentally observed dynamic estimates of the critical temperatures (Tc) were estimated from a two-dimensional Clausius-Clapeyron analysis and were consistent with the temperature dependence of the Π-A isotherms. These LE/LC phase transitions are the first observed for POSS amphiphiles. / Ph. D.

Π–A isotherms

air/water (A/W) interface

Brewster angle microscopy (BAM)

POSS

Langmuir films

Synthesis and Characterization of Polyhedral Oligomeric Silsesquioxane (POSS) Based Amphiphiles

Liu, Yang

05 January 2011

Polyhedral oligomeric silsesquioxanes (POSS) have attracted substantial academic interest for many years as hybrid materials and nanofillers for controlling thermal and mechanical properties, and for providing thermal and chemical resistance while retaining ease of processing. A natural extension of these studies has been working on POSS-based amphiphiles and thin film coatings. Studies at the air/water (A/W) interface have shown that trisilanol-POSS derivatives are amphiphilic and form uniform Langmuir films, whereas closed-cage POSS derivatives are hydrophobic and aggregate. In this study, two novel POSS derivatives were synthesized from PSS-(3-hydroxypropyl)-heptaisobutyl substituted (POSS-OH) and completely characterized. Weisocyanate reacted with POSS-OH, and a POSS-based triester (POSS-triester) was obtained. Trifluoroacidolysis of the POSS-triester at room temperature afforded the corresponding triacid (POSS-triacid). Purified POSS-OH, POSS-triester, and POSS-triacid were studied by using surface pressure - area per molecule (? -A) isotherms as well as Brewster angle microscopy (BAM) at the air/water (A/W) interface. Compared with previous work on trisilanol-POSS derivatives, the results indicated that POSS-triester was surface active and formed a liquid-expanded (LE) monolayer. In contrast, POSS-triacid monolayers were more condensed (LC) and were not dramatically affected by changes in pH. Results for the lift-off areas (Alift-off), limiting areas (A0), collapse areas (Ac), and collapse pressures (? c) of POSS-OH, POSS-triester, and POSS-triacid were compared to trisilanolisobutyl-POSS (TiBP) and were interpreted in terms of possible molecular conformations. Whereas, TiBP has been hypothesized to exist in a vertex-on conformation, POSS-OH and POSS-triacid packing at the A/W interface was consistent with face-on conformations. For POSS-triester, the isotherm was consistent with a vertex-on conformation at low ? , but a face-on conformation at high ? . / Master of Science

POSS

air/water (A/W) interface

Brewster angle microscopy (BAM)

Π-A isotherms

Langmuir films

Caractérisation biophysique de peptides riches en tryptophane à l'interface air-eau : apport de l'optique non linéaire / Biophysical Analyses of tryptophan-rich peptides at the air-water interface : nonlinear optic contribution

Matar, Gladys

25 November 2010

Les protéines membranaires sont particulièrement riches en acides aminés aromatiques, tels que le tryptophane (W). On retrouve cette originalité dans beaucoup de peptides antimicrobiens et dans les protéines de fusion virales. La glycoprotéine de l'enveloppe de HIV-1, gp41, en est un exemple. Manifestement, les résidus W sont impliqués dans la perturbation des membranes et la formation des pores. L'objectif de ce travail est d'étudier le rôle des résidus W dans de telles activités en utilisant l'optique non linéaire. Pour cela, nous avons préalablement déterminé l'hyperpolarisabilité (le potentiel non linéaire) du W par la diffusion Hyper Raleigh (HRS). Puis nous avons montré une évolution de la réponse non linéaire de petits peptides synthétiques en fonction du nombre croissant de leurs résidus W. Ces résultats ont permis de suivre l'implication des tryptophanes de deux peptides K3W et gp41W, lors de leurs interactions avec des monocouches lipidiques à l'interface air-eau par la génération de second harmonique (SHG). D'autre part, l'influence de telles interactions sur la structure secondaire et l'orientation des peptides a été déterminée par le PM-IRRAS. Nous avons ainsi montré la cohérence entre les modifications du signal SHG, liées à des changements d'orientation des tryptophanes et celles des spectres de PM-IRRAS, dues à des changements d'orientation de la structure secondaire de gp41W / Membrane proteins are extremely rich in aromatic amino acids, like tryptophan (W). This particularity is found in many antimicrobial peptides and in several virus fusion proteins. An example of these fusion proteins is the HIV-1 envelop glycoprotein, the gp41. It is clear that the W residues are implicated in membrane perturbation and pore formation. The aim of this work was the investigation of the W residue role in such activities, using the nonlinear optic. First, we determined the W hyperpolarizabilité (nonlinear potential) by the Hyper Rayleigh Scattering (HRS). Then, the evolution of the nonlinear signal of small synthetic peptides, as function of the increasing number of their W residues, was demonstrated. These results allowed us to follow the W residue involvement of two peptides, K3W4 and gp41W, in the interaction with lipids monolayer at the air-water interface, using the second harmonic generation (SHG). The influence of such interaction in the peptide structure and orientation was determined using the PM-IRRAS. In conclusion, we showed the coherence between the SHG signal variation, due to the W orientation changes, and the PMIRRAS spectra modification, due to the gp41W helix orientation changes

Peptides riches en tryptophane

Optique non linéaire

Peptides membranaires

HIV-1

Gp41

Interface air-eau

Microscopie à l'angle de Brewster (BAM)

PM-IRRAS

Tryptophan-rich peptides

Nonlinear optic

Membrane peptides

HIV-1

Gp41

Air-water interface

Brewster Angle Microscopy (BAM)

PM-IRRAS

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