• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 67
  • 46
  • 31
  • 10
  • 3
  • 2
  • 2
  • 1
  • 1
  • Tagged with
  • 192
  • 192
  • 87
  • 55
  • 33
  • 26
  • 25
  • 21
  • 17
  • 17
  • 17
  • 16
  • 16
  • 15
  • 13
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
131

The Reactivity of Chemical Warfare Agent Simulants on Carbamate Functionalized Monolayers and Ordered Silsesquioxane Films

McPherson, Melinda Kay 13 April 2005 (has links)
The reactivity of chemical warfare agents (CWAs) and CWA simulants on organic and oxide surfaces is not currently well understood, but is of substantial importance to the development of effective sensors, filters and sorbent materials. Polyurethane coatings are used by the armed forces as chemical agent resistive paints to limit the uptake of CWAs on surfaces, while the use of metal oxides has been explored for decontamination and protection purposes. To better understand the chemical nature of the interactions of organophosphonate simulants with these surfaces, an ultra-high vacuum environment was used to isolate the target interactions from environmental gaseous interferences. The use of highly-characterized surfaces, coupled with molecular beam and dosing capabilities, allows for the elucidation of adsorption, desorption, and reaction mechanisms of CWA simulants on a variety of materials. Model urethane-containing organic coatings were designed and applied toward the creation of well-ordered thin films containing carbamate linkages. In addition, novel trisilanolphenyl-polyhedral oligomeric silsesquioxane (POSS) molecules were used to create Langmuir-Blodgett films containing reactive silanol groups that have potential use as sensors and coatings. The uptake and reactivity of organophosphonates and chlorophosphates on these surfaces is the focus of this study. Surfaces were characterized before and after exposure to the phosphates using a number of surface sensitive techniques including: contact angle goniometry, reflection-absorption infrared spectroscopy (RAIRS), X-ray photoelectron spectroscopy (XPS) and temperature-programmed desorption (TPD) measurements. In conjunction with surface probes, uptake coefficients were monitored according to the King and Wells direct reflection technique. The integration of these analytical techniques provides insight and direction towards the design of more effective chemical agent resistant coatings and aids in the development of more functional strategies for chemical warfare agent decontamination and sensing. / Ph. D.
132

Optical and thermal characteristics of thin polymer and polhedral oligomeric silsesquioxane (POSS) filled polymer films

Karabiyik, Ufuk 06 June 2008 (has links)
Single wavelength ellipsometry measurements at Brewster's angle provide a powerful technique for characterizing ultrathin polymeric films. By conducting the experiments in different ambient media, multiple incident media (MIM) ellipsometry, simultaneous determinations of a film's thickness and refractive index are possible. Poly(tert-butyl acrylate) (PtBA) films serve as a model system for the simultaneous determination of thickness and refractive index (1.45 at 632 nm). Thickness measurements on films of variable thickness agree with X-ray reflectivity results. The method is also applicable to spincoated films where refractive indices of PtBA, polystyrene and poly(methyl methacrylate) are found to agree with literature values within experimental error. Likewise, MIM ellipsometry is utilized to simultaneously obtain the refractive indices and thicknesses of thin films of trimethylsilylcellulose (TMSC), regenerated cellulose, and cellulose nanocrystals where Langmuir-Blodgett (LB) films of TMSC serve as a model system. Ellipsometry measurements not only provide thickness and optical constants of thin films, but can also detect thermally induced structural changes like surface glass transition temperatures (Tg) and layer deformation in LB-films. Understanding the thermal properties of the polymer thin films is crucial for designing nanoscale coatings, where thermal properties are expected to differ from their corresponding bulk properties because of greater fractional free volume in thin films and residual stresses that remain from film preparation. Polyhedral oligomeric silsesquioxane (POSS) derivatives may be useful as a nanofiller in nanocomposite formulations to enhance thermal properties. As a model system, thin films of trisilanolphenyl-POSS (TPP) and two different molar mass PtBA were prepared as blends by Y-type Langmuir-Blodgett film deposition. For comparison, bulk blends were prepared by solution casting and the samples were characterized via differential scanning calorimetry (DSC). Our observations show that surface Tg is depressed relative to bulk Tg and that magnitude of depression is molar mass dependent for pure PtBA films. By adding TPP as a nanofiller both bulk and surface Tg increase. Whereas, bulk Tg shows comparable increases for both molar masses, the increase in surface Tg for higher molar mass PtBA is greater than for lower molar mass PtBA. These studies show that POSS can serve as a model nanofiller for controlling Tg in nanoscale coatings. / Ph. D.
133

Stability and Morphological Evolution in Polymer/Nanoparticle Bilayers and Blends Confined to Thin Film Geometries

Paul, Rituparna 13 September 2007 (has links)
Thin film bilayers and blends composed of polymers and nanoparticles are increasingly important for technological applications that range from space survivable coatings to novel drug delivery systems. Dewetting or spontaneous hole formation in amorphous polymer films and phase separation in multicomponent polymer films can hinder the stability of these systems at elevated temperatures. Hence, fundamental understanding of dewetting and phase separation in polymer/nanoparticle bilayer and blend films is crucial for controlling transport and thermomechanical properties and surface morphologies of these systems. This dissertation provides studies on morphological evolution driven by phase separation and/or dewetting in model polymer/nanoparticle thin film bilayers and blends at elevated temperatures. Morphological evolution in dewetting bilayers of poly(t-butyl acrylate) (PtBA) or polystyrene (PS) and a polyhedral oligomeric silsesquioxane (POSS), trisilanolphenyl-POSS (TPP) is explored at elevated temperatures. The results demonstrate unique dewetting morphologies in both PtBA/TPP and PS/TPP bilayers that are significantly different from those typically observed in dewetting polymer/polymer bilayers. Upon annealing the PtBA/TPP bilayers at 95°C, a two-step dewetting process is observed. PtBA immediately diffuses into the upper TPP layer leading to hole formation and subsequently the holes merge to form interconnected rim structures in the upper TPP layer. Dewetting of both the TPP and PtBA layers at longer annealing times leads to the evolution of scattered holes containing TPP-rich, fractal aggregates. The fractal dimensions of the TPP-rich, fractal aggregates are ~2.2 suggesting fractal pattern formation via cluster-cluster aggregation. Dewetting in PS/TPP bilayers also proceeds via a two-step process; however, the observed dewetting morphologies are dramatically different from those observed in PtBA/TPP bilayers. Cracks immediately form in the upper TPP layer during annealing of PS/TPP bilayers at 200°C. With increasing annealing times, the cracks in the TPP layer act as nucleation sites for dewetting and aggregation of the TPP layer and subsequent dewetting of the underlying PS layer. Complete dewetting of both the TPP and PS layers results in the formation of TPP encapsulated PS droplets. Phase separation in PtBA/TPP thin film blends is investigated as functions of annealing temperature and time. The PtBA/TPP thin film blend system exhibits an upper critical solution temperature (LCST) phase diagram with a critical composition and temperature of 60 wt% PtBA and ~70°C, respectively. Spinodal decomposition (SD) is observed for 60 wt% PtBA blend films and off-critical SD is seen for 58 and 62 wt% PtBA blend films. The temporal evolution of SD in 60 wt% PtBA blend films is also explored. Power law scaling for the characteristic wavevector with time (q ~ t^n with n = -1/4 to -1/3) during the early stages of phase separation yields to domain pinning at the later stages for films annealed at 75, 85, and 95°C. In contrast, domain growth is instantly pinned for films annealed at 105°C. Our work provides an important first step towards understanding how nanoparticles affect polymer thin film stability and this knowledge may be utilized to fabricate surfaces with tunable morphologies via controlled dewetting and/or phase separation. / Ph. D.
134

Poly(L-Lactic Acid) Langmuir Monolayers at the Air/Water Interface and Langmuir-Blodgett Films on Solid Substrates: Phase Behavior, Surface Morphology, and Crystallinity

Ni, Suolong 12 January 2007 (has links)
Controlling the surface morphology and degree of crystallinity of poly(L-lactic acid) (PLLA) substrates have recently attracted considerable attention because of their applications in cell adhesion, tissue engineering, and drug delivery. Several techniques have been used to fabricate PLLA substrates, some of which may be invalid because PLLA can degrade during fabrication processes. This dissertation provides the Langmuir-Blodgett (LB) technique as a mechanism for fabricating PLLA substrates at temperatures where PLLA degradation is uncommon. In order to fully understand surface morphologies of PLLA LB-films, studies of Langmuir monolayers at the air/water (A/W) interface using surface pressure-area (Pi-A) isotherm and Brewster angle microscopy (BAM) are vital. PLLA exhibits a first-order liquid expanded to condensed (LE/LC) phase transition with molar mass dependent critical phenomena, the first such observation for a homopolymer Langmuir monolayer. Atomic force microscopy (AFM) images of PLLA LB-films prepared in the LC phase exhibit well-ordered lamellar structures. Molar mass scaling of lamellar dimensions, x-ray reflectivity, and reflection absorption infrared spectroscopy (RAIRS) measurements on PLLA LB-films are consistent with PLLA existing as single molecule 10/3-helices at the A/W interface. Morphologies observed after collapse of the LC monolayer are dependent upon the collapse mechanism and subsequent thermal treatment. For temperatures below the LE/LC critical temperature (Tc), two mechanisms are identified for the formation of three dimensional structures: a buckling and stacking of lamellar monolayers on top of existing lamellae during constant compression rate experiments, and a modified nucleation and growth mechanism during isobaric area relaxation experiments. PLLA LB-films prepared in different Langmuir film phases at temperatures below Tc all contain lamellae with different surface roughnesses and similar helical content. Conventional thermal annealing studies on PLLA LB-films reveal that well-ordered lamellar features are destroyed after annealing the LB-films at bulk crystallization temperature through a melting-recrystallization process, which is confirmed by RAIRS and AFM. Our results may prove useful for studying critical behavior and experimentally testing scaling predictions for two dimensions, the development and testing of theories for crystallization in confined geometries, and separating the roles that roughness and crystallinity play in cell adhesion and spreading on biocompatible polymer surfaces. / Ph. D.
135

Polymères amphiphiles : des films Langmuir-Blodgett au transistor

Ouattara, Mariane 23 April 2018 (has links)
Au cours des 25 dernières années, l’intérêt pour l’utilisation de semi-conducteurs organiques comme couche active dans les transistors à effet de champ (TOECs), à la place du silicium, a crû spectaculairement. L’utilisation de polymères π-conjugués dans ce domaine a grandement entraîné cet essor. Au fil du temps, on observe une amélioration des performances atteintes contribuant à l’émergence de nouveaux matériaux. Par contre, différents paramètres tels que la mobilité et la stabilité demeurent moins impressionnants que ceux des semi-conducteurs à base de matériaux inorganiques. De meilleurs résultats pourraient être obtenus si le transport de charges se faisait sans entraves. Ainsi, une très bonne organisation au sein des matériaux utilisés est nécessaire. Dans cette optique, des polymères conjugués amphiphiles constitués d’unités thiéno [3,4-c] pyrrole-4,6-dione (TPD) ont été synthétisés. En se servant de la technique Langmuir-Blodgett (LB) pour optimiser l’organisation des molécules au sein des films, il a été possible de réaliser des films stables avec des pressions de collapse de 60 mN/m. Les microscopies à angle de Brewster (BAM) et à force atomique (AFM) nous ont démontré l’homogénéité des films à l’interface air-eau (BAM) et une fois transférés sur un substrat solide (AFM). L’orientation a été étudiée principalement par spectroscopie infrarouge à réflexion totale atténuée (ATR). D’autres techniques spectroscopiques comme l’UV-visible, la spectroscopie infrarouge de réflexion absorption par modulation de polarisation (PM-IRRAS) et l’ellipsométrie ont permis de corroborer les résultats obtenus via l’ATR. Les mesures ont permis de confirmer l’obtention de l’orientation préférentielle hors du plan. Pour compléter ce projet, des tests ont été effectués avec des transistors organiques. Des valeurs de mobilité intéressantes de 1,2 × 10-3 cm2/(V.s) ont été enregistrées pour des transistors obtenus à partir de films LB. / Over the past 25 years, interest in the use of organic semiconductors as active layers in field effect transistors (TFTs) instead of silicon has grown dramatically. The use of π-conjugated polymers in this area has greatly driven this growth. Over time, there has been an improvement in performance achieved contributing to the emergence of new materials. However, the performances of organic semiconductors remains inferior that of their inorganic counterpart regarding parameters such as the mobility and stability. Better results could be achieved if the charge transport was done without hindrance. Thus, a very good organiza- tion within the material is needed. In this regard, amphiphilic polymers based on thieno [3,4-c] pyrrole-4,6-dione (TPD) units were synthesized. By using the Langmuir-Blodgett technique (LB) to optimize the organization of the molecules within the films, it was possible to achieve stable films with a collapse pressure of 60 mN/m. Brewster angle (BAM) and atomic force (AFM) microscopies have demonstrated that homogeneous films are obtained at the air-water interface (BAM) and remain so once transferred onto a solid substrate (AFM). Orientation has been studied mainly by attenuated total reflection infrared spectroscopy (ATR). Other spectroscopic techniques such as UV-visible, absorption polarization modulation infrared reflection spectroscopy (PM-IRRAS) and ellipsometry have confirmed the ATR results. Measurements show that molecules adopted an edge-on orientation in the polymer films. To complete this project, organic transistors were fabricated. Interesting mobility values of 1.2 × 10-3 cm2/(V.s) were recorded for organic LB film transistors.
136

Quartz Crystal Microbalance Studies of Dimethyl Methylphosphonate Sorption Into Trisilanolphenyl-Poss Films

Kittle, Joshua D. 04 December 2006 (has links)
Developing methods to detect, adsorb, and decompose chemical warfare agents (CWAs) is of critical importance to protecting military and civilian populations alike. The sorption of dimethyl methylphosphonate (DMMP), a CWA simulant, into trisilanolphenyl-POSS (TPP) films has previously been characterized with reflection absorption infrared spectroscopy, x-ray photoelectron spectroscopy, and uptake coefficient determinations [1]. In our study, the quartz crystal microbalance (QCM) is used to study the sorption phenomena of DMMP into highly ordered Langmuir-Blodgett (LB) films of TPP. In a saturated environment, DMMP sorbs into the TPP films, binding to TPP in a 1:1 molar ratio. Although previous work indicated these DMMP-saturated films were stable for several weeks, DMMP is found to slowly desorb from the TPP films at room temperature and pressure. Upon application of vacuum to the DMMP-saturated films, DMMP follows first-order desorption kinetics and readily desorbs from the film, returning the TPP film to its original state. [1] Ferguson-McPherson, M.; Low, E.; Esker, A.; Morris, J. J. Phys. Chem. B. 2005, 109, 18914. / Master of Science
137

Surface Characterization of Siloxane, Silsesquioxane, and Maleic Anhydride Containing Polymers at Air/Liquid Interfaces

Farmer, Catherine Elizabeth 30 May 2001 (has links)
Langmuir-monolayer formation at the air/water interface (A/W) can be achieved by spreading amphiphilic molecules on a liquid subphase and compressing them into an ordered arrangement. The use of the Langmuir-Blodgett technique (LB) to prepare ultra thin films on solid surfaces from monolayers at A/W has considerable utility for studying surface interactions. In particular, the phase behavior of polyhedral oligomeric silsesquioxanes (POSS) was examined using a combination of LB and Brewster angle microscopy (BAM).Polymer fillers have been shown to reduce the cost and often improve the properties of high performance polymer composites. The utility of POSS as a potential nanofiller in blends with polymers such as poly(dimethylsiloxane) (PDMS) and poly(vinylacetate) (PVAc) was explored using surface pressure-area per monomer isotherms (P-A) and BAM. Substantial morphological differences are seen between polymer blends with heptasubstituted trisilanol-POSS and fully condensed octasubstituted-POSS due to differences in subphase affinity.Several poly(1-alkene-alt-maleic anhydride) (PXcMA) polymers were studied at both the gas/liquid interface as Langmuir films and at the gas/solid interface as Langmuir-Blodgett thin films on silicon substrates. A 0.01 M HCl solution (pH~2) was used during film deposition to ensure the carboxylic acids were fully protonated. The PXcMA polymers included X=1-hexene, 1-octene, 1-decene, and 1-octadecene (represented as PHcMA, POcMA, PDcMA, and PODcMA respectively). The P-A isotherms of these polymers were consistent with those obtained previously.1Tensiometry was used to determine the critical micelle concentrations (c.m.c.) of variable molar mass poly(dimethylsiloxane-b-(3-cyanopropyl)methylsiloxane-b-dimethylsiloxane) (PDMS-PCPMS-PDMS) triblock copolymers and a poly(dimethylsiloxane-b-2-ethyl-2-oxazoline) diblock copolymer. Dynamic light scattering (DLS) corroborated interfacial tension results. The polymers exhibited well-defined temperature-independent c.m.c.'s. These measurements ensured that the synthesis of cobalt nanoparticles for biocompatible magnetic fluids occurred above the c.m.c. / Master of Science
138

Self-Assembly of Pullulan Abietate on Cellulose Surfaces

Gradwell, Sheila Elizabeth 02 September 2004 (has links)
Wood is a complex biocomposite that exhibits a high work of fracture, making it an ideal model for multiphase man-made materials. Typically, man-made composites demonstrate interfacial fracture at failure due to abrupt transitions between neighboring phases. This phenomenon does not occur in wood because gradual phase transitions exist between regions of cellulose, hemicellulose, and lignin and therefore adhesion between adjacent phases is increased. The formation of interphases occurs as a consequence of the self-assembly process which governs the formation of wood. If this process was understood more thoroughly, perhaps tougher man-made, biobased composites could be prepared. To study self-assembly phenomena in wood, a system composed of a model copolymer (pullulan abietate, DS=0.027) representing the lignin-carbohydrate complex (LCC) and a model surface for cellulose fibers was used. The self-assembly of the polysaccharide pullulan abietate (DS=0.027) onto a regenerated cellulose surface prepared using the Langmuir-Blodgett (LB) technique was studied via surface plasmon resonance (SPR). Rapid, spontaneous, and desorption-resistant cellulose surface modification resulted when exposed to the model LCC. Adsorption was quantified using the de Feijter equation revealing that between 9-10 anhydroglucose units (AGUs) adsorb per nm&178; of cellulose surface area when cellulose is exposed to pullulan abietate (DS=0.027) compared to the adsorption of 6.6 AGUs per nm&178; of cellulose surface area when cellulose is exposed to unsubstituted pullulan. / Master of Science
139

Films Langmuir-Blodgett composés de copolymères di-blocs et de nanoparticules métalliques

Lemineur, Jean-Francois 24 April 2018 (has links)
Cette thèse de doctorat étudie l’auto-assemblage de copolymères di-blocs et de nanoparticules métalliques à l’interface air-eau. Les nanoparticules métalliques peuvent interagir fortement avec la lumière grâce à l’oscillation collective des électrons de conduction. Ce phénomène, qu’on appelle le plasmon de surface localisé, offre d’importantes perspectives dans l’élaboration de matériaux optiques. Cependant, la force et la fréquence du plasmon de surface varient significativement en fonction de plusieurs paramètres dont l’arrangement des nanoparticules. Les copolymères à blocs, quant à eux, ont la capacité de former des domaines de morphologies définies à la surface de l’eau et représentent une voie simple pour organiser les nanoparticules en deux dimensions. Avec la technique Langmuir-Blodgett, il a été possible de former des monocouches composites de nanoparticules et de copolymères, et de les transférer sur des substrats solides. Les films composites Langmuir-Blodgett ont été caractérisés par microscopie à force atomique et par microscopie électronique en transmission. Plusieurs auto-assemblages, incluant des agrégats, des systèmes cœur-satellites, des cercles et des lignes de nanoparticules ont été observés. Les caractéristiques structurales de ces assemblages peuvent être ajustées avec précision en modifiant l’organisation des copolymères et la longueur des ligands thioalcanes à la surface des nanoparticules. De plus, une procédure de recroissance in situ a été développée pour augmenter la taille des nanoparticules incorporées sans altérer l’ordre des monocouches. Les propriétés optiques des auto-assemblages ont ensuite été étudiées expérimentalement et comparées à des simulations théoriques par l’approximation aux dipôles discrets. Une attention particulière a été portée aux nanocercles qui sont des structures hautement symétriques et compliquées à obtenir avec d’autres méthodes. Enfin, la thèse se termine par une série d’expériences préliminaires destinées à évaluer l’utilité de ce type de monocouches pour des applications de détection. / The present Ph. D. thesis treats the investigation of the self-assembly of block copolymers and metallic nanoparticles at the air-water interface. Metallic nanoparticles interact strongly with light because of the collective oscillation of the conduction electrons. This phenomenon is called the localized surface plasmon resonance and offer significant promise in the development of optical materials. However, the strength and frequency of the surface plasmon depend on several parameters, including details of the arrangement of the nanoparticles. As block copolymers can form nanodomains at the surface of water, they represent a simple way to organize nanoparticles in two dimensions. With the help of the Langmuir-Blodgett technique, it has been possible to form composite monolayers composed of nanoparticles and block copolymers, which are transferable on solid substrate. The Langmuir-Blodgett composite films have been characterized both by atomic force microscopy and transmission electron microscopy. Several self-assemblies, including aggregates, core-satellite structures, nanorings, and particle lines have been observed. The structural characteristics of these assemblies can be tuned precisely by modifying the copolymer organization and the capping ligand length at the nanoparticle surface. In addition, an in situ regrowth procedure has been developed to increase the size of the incorporated nanoparticles without losing the order of the monolayers. Then, optical properties of the self-assemblies have been investigated experimentally and compared to theoretical calculations by the discrete dipole approximation. Particular attention has been paid to the nanoring structures, which are highly symmetrical and complicated to obtain with other fabrication procedures. Finally, the thesis presents a series of preliminary experiments intended to assess the usefulness of the monolayers for sensing applications.
140

Study of Langmuir-Blodgett Films of Self-Assembled Diblock Copolymers

Borozenko, Kateryna 07 1900 (has links)
L'auto-assemblage des copolymères à bloc (CPBs) attire beaucoup d'intérêt grâce à leur capacité de générer spontanément des matériaux ordonnés avec des propriétés uniques. Les techniques Langmuir-Blodgett (LB) et Langmuir-Schaefer (LS) sont couramment utilisées pour produire des monocouches ou des films ultraminces à l'interface air/eau suivi de transfert aux substrats solides. Les films LB/LS de CPBs amphiphiles s'auto-assemblent dans des morphologies variables dépendamment de la composition du CPB ainsi que d'autres facteurs. Dans notre travail, nous avons étudié les films LB/LS de polystyrène-b-poly(4-vinyl pyridine) (PS-P4VP) et leurs complexes supramoléculaires avec le naphtol (NOH), l'acide naphtoïque (NCOOH) et le 3-n-pentadécylphenol (PDP). La première partie de ce mémoire est consacré à l'investigation du PS-P4VP complexé avec le NOH et le NCOOH, en comparaison avec le PS-P4VP seul. Il a été démontré qu'un plateau dans l'isotherme de Langmuir, indicatif d'une transition de premier ordre, est absent à des concentrations élevées des solutions d'étalement des complexes. Cela a été corrélé avec l'absence de morphologie en nodules avec un ordre 2D hexagonal à basse pression de surface. L'ordre au-delà de la pression de cette transition, lorsque présente, change à un ordre 2D carré pour tout les systèmes. La deuxième partie du la mémoire considère à nouveau le système PS-P4VP/ PDP, pour lequel on a démontré antérieurement que la transition dans l'isotherme correspond a une transition 2D d'un ordre hexagonal à un ordre carré. Cela est confirmé par microscopie à force atomique, et, ensuite, on a procédé à une étude par ATR-IR des films LB pour mieux comprendre les changements au niveau moléculaire qui accompagnent cette transition. Il a été constaté que, contrairement à une étude antérieure dans la littérature sur un autre système, il n'y a aucun changement dans l'orientation des chaînes alkyles. Au lieu de cela, on a découvert que, aux pressions au-delà de celle de la transition, le groupe pyridine, qui est orienté à basse pression, devient isotrope et qu'il y a une augmentation des liaisons hydrogènes phénol-pyridine. Ces observations sont rationalisées par un collapse partiel à la pression de transition de la monocouche P4VP, qui à basse pression est ordonné au niveau moléculaire. Cette étude a mené à une meilleure compréhension des mécanismes moléculaires qui se produisent à l'interface air/eau, ce qui fournit une meilleure base pour la poursuite des applications possibles des films LB/LS dans les domaines de nanotechnologie. / Self-assembly of block copolymers (BCPs) attracts much interest due to their ability to spontaneously generate ordered materials with unique properties. For many applications, such as masks in nanolithography, separation membranes in medical diagnostics, and nanotemplates for nanowire fabrication, manufacturing into thin films is required. The Langmuir-Blodgett (LB) and Langmuir-Schaefer (LS) techniques are commonly used to produce ultrathin or monolayer films at the air/water interface that are transferred to solid substrates. LB/LS films of amphiphilic BCPs self-assemble into various morphologies, depending on the BCP composition and other factors. In our work, we investigated LB/LS films of polystyrene-b-poly(4-vinyl pyridine) (PS-P4VP) and their supramolecular complexes with, naphthol (NOH), naphthoic acid (NCOOH) and 3-n-pentadecylphenol (PDP). The first part of the thesis was devoted to the investigation of PS-P4VP complexes with NOH and NCOOH, in comparison to PS-P4VP alone. It was shown that a plateau in the Langmuir isotherm, indicative of a first-order transition, is absent at high spreading solution concentrations for the complexes. This was correlated with an absence of the expected dot morphology with 2D hexagonal-like order at low surface pressure. Above the transition, when present, the morphology has 2D square order. The second part of the thesis re-examines the PS-P4VP/PDP system, which was previously shown to undergo a transition from 2D hexagonal to square order at the isotherm plateau pressure. This was confirmed here, and a detailed ATR-IR study of LB films was then undertaken to better understand molecular-level changes occurring at this transition. It was found that, contrary to another study in the literature on a different system, there is no change in alkyl chain orientation. Instead, it was found that the pyridine group loses its low-pressure orientation and there is increased phenol-pyridine hydrogen-bonding above the transition pressure, which is rationalized by a partial collapse of the low-pressure molecularly ordered P4VP monolayer at the transition pressure. This study leads to an improved understanding of the processes occurring at the air/water interface, which is a basis for the further possible applications of LB/LS films in nanotechnologies.

Page generated in 0.0567 seconds