L'orientation et la propriété de mémoire de forme des polymères cristallins liquides à chaînes latérales covalents et supramoléculaires

Fu, Shangyi

January 2016

In many studies of the side-chain liquid crystalline polymers (SCLCPs) bearing azobenzene mesogens as pendant groups, obtaining the orientation of azobenzene mesogens at a macroscopic scale as well as its control is important, because it impacts many properties related to the cooperative motion characteristic of liquid crystals and the trans-cis photoisomerization of the azobenzene molecules. Various means can be used to align the mesogens in the polymers, including rubbed surface, mechanical stretching or shearing, and electric or magnetic field. In the case of azobenzene-containing SCLCPs, another method consists in using linearly polarized light (LPL) to induce orientation of azobenzene mesogens perpendicular to the polarization direction of the excitation light, and such photoinduced orientation has been the subject of numerous studies. In the first study realized in this thesis (Chapter 1), we carried out the first systematic investigation on the interplay of the mechanically and optically induced orientation of azobenzene mesogens as well as the effect of thermal annealing in a SCLCP and a diblock copolymer comprising two SCLCPs bearing azobenzene and biphenyl mesogens, respectively. Using a supporting-film approach previously developed by our group, a given polymer film can be first stretched in either the nematic or smectic phase to yield orientation of azobenzene mesogens either parallel or perpendicular to the strain direction, then exposed to unpolarized UV light to erase the mechanically induced orientation upon the trans–cis isomerization, followed by linearly polarized visible light for photoinduced reorientation as a result of the cis–trans backisomerization, and finally heated to different LC phases for thermal annealing. Using infrared dichroism to monitor the change in orientation degree, the results of this study have unveiled complex and different orientational behavior and coupling effects for the homopolymer of poly{6-[4-(4-methoxyphenylazo)phenoxy]hexyl methacrylate} (PAzMA) and the diblock copolymer of PAzMA-block- poly{6-[4-(4-cyanophenyl) phenoxy]hexyl methacrylate} (PAzMA-PBiPh). Most notably for the homopolymer, the stretching-induced orientation exerts no memory effect on the photoinduced reorientation, the direction of which is determined by the polarization of the visible light regardless of the mechanically induced orientation direction in the stretched film. Moreover, subsequent thermal annealing in the nematic phase leads to parallel orientation independently of the initial mechanically or photoinduced orientation direction. By contrast, the diblock copolymer displays a strong orientation memory effect. Regardless of the condition used, either for photoinduced reorientation or thermal annealing in the liquid crystalline phase, only the initial stretching-induced perpendicular orientation of azobenzene mesogens can be recovered. The reported findings provide new insight into the different orientation mechanisms, and help understand the important issue of orientation induction and control in azobenzene-containing SCLCPs. The second study presented in this thesis (Chapter 2) deals with supramolecular side-chain liquid crystalline polymers (S-SCLCPs), in which side-group mesogens are linked to the chain backbone through non-covalent interactions such as hydrogen bonding. Little is known about the mechanically induced orientation of mesogens in S-SCLCPs. In contrast to covalent SCLCPs, free-standing, solution-cast thin films of a S-SCLCP, built up with 4-(4’-heptylphenyl) azophenol (7PAP) H-bonded to poly(4-vinyl pyridine) (P4VP), display excellent stretchability. Taking advantage of this finding, we investigated the stretching-induced orientation and the viscoelastic behavior of this S-SCLCP, and the results revealed major differences between supramolecular and covalent SCLCPs. For covalent SCLCPs, the strong coupling between chain backbone and side-group mesogens means that the two constituents can mutually influence each other; the lack of chain entanglements is a manifestation of this coupling effect, which accounts for the difficulty in obtaining freestanding and mechanically stretchable films. Upon elongation of a covalent SCLCP film cast on a supporting film, the mechanical force acts on the coupled polymer backbone and mesogenic side groups, and the latter orients cooperatively and efficiently (high orientation degree), which, in turn, imposes an anisotropic conformation of the chain backbone (low orientation degree). In the case of the S-SCLCP of P4VP-7PAP, the coupling between the side-group mesogens and the chain backbone is much weakened owing to the dynamic dissociation/association of the H-bonds linking the two constituents. The consequence of this decoupling is readily observable from the viscoelastic behavior. The average molecular weight between entanglements is basically unchanged in both the smectic and isotropic phase, and is similar to non-liquid crystalline samples. As a result, the S-SCLCP can easily form freestanding and stretchable films. Furthermore, the stretching induced orientation behavior of P4VP-7PAP is totally different. Stretching in the smectic phase results in a very low degree of orientation of the side-group mesogens even at a large strain (500%), while the orientation of the main chain backbone develops steadily with increasing the strain, much the same way as amorphous polymers. The results imply that upon stretching, the mechanical force is mostly coupled to the polymer backbone and leads to its orientation, while the main chain orientation exerts little effect on orienting the H-bonded mesogenic side groups. This surprising finding is explained by the likelihood that during stretching in the smectic phase (at relatively higher temperatures) the dynamic dissociation of the H-bonds allow the side-group mesogens to be decoupled from the chain backbone and relax quickly. In the third project (Chapter 3), we investigated the shape memory properties of a S-SCLCP prepared by tethering two azobenzene mesogens, namely, 7PAP and 4-(4'-ethoxyphenyl) azophenol (2OPAP), to P4VP through H-bonding. The results revealed that, despite the dynamic nature of the linking H-bonds, the supramolecular SCLCP behaves similarly to covalent SCLCP by exhibiting a two-stage thermally triggered shape recovery process governed by both the glass transition and the LC-isotropic phase transition. The ability for the supramolecular SCLCP to store part of the strain energy above T[subscript g] in the LC phase enables the triple-shape memory property. Moreover, thanks to the azobenzene mesogens used, which can undergo trans-cis photoisomerization, exposure the supramolecular SCLCP to UV light can also trigger the shape recovery process, thus enabling the remote activation and the spatiotemporal control of the shape memory. By measuring the generated contractile force and its removal upon turning on and off the UV light, respectively, on an elongated film under constant strain, it seems that the optically triggered shape recovery stems from a combination of a photothermal effect and an effect of photoplasticization or of an order-disorder phase transition resulting from the trans-cis photoisomerization of azobenzene mesogens.

Side-chain liquid crystalline polymers

Supramolecular polymers

Shape memory polymers

Azobenzene

Orientation of mesogens

Photoisomerization

A Survey of Television Reporters' Views Concerning Public Relations Practitioners' Demonstrated Knowledge of Their Technical Needs and Desires

Tomlinson, Don E.

05 1900

This study determined attitudes held by television reporters nationwide toward PR practitioners' demonstrated knowledge of the technical side of television news. Findings. that emerged from the study were: 1. Television reporters were undecided whether practitioners needed an educational background in PR, and believed they needed an educational but not a professional background in television reporting. 2. They believed practitioners knew too little and should improve their knowledge, and that practitioners' employers would benefit therefrom. 3. They valued the assistance of practitioners. 4. There were moderate degrees of off-the-job contact and interest therein. 5. They divided evenly on the question concerning practitioners' specific demonstrated knowledge of the technical side of television news.

public relations practitioners

Television broadcasting of news.

Public relations consultants.

television reporters' attitudes

technical side of television news

Analysis of side friction impacts on urban roads : Case study Dar-es-Salaam

Chiguma, Masatu L. M.

January 2007

Side friction factors are defined as all those actions related to the activities taking place by the sides of the road and sometimes within the road, which interfere with the traffic flow on the travelled way. They include but not limited to pedestrians, bicycles, non-motorised vehicles, parked and stopping vehicles. These factors are normally very frequent in densely populated areas in developing countries, while they are random and sparse in developed countries making it of less interest for research and consequently there is comparatively little literature about them. The objective of this thesis is to analyze the effect of these factors on traffic performance measures on urban roads. To carry out this work, a research design was formulated including specific methods and prescribed limitations. An empirical case study methodology was adopted where Dar-es-salaam city in Tanzania was chosen as a representative case. The scope was limited to include only road-link facilities. A sample of these facilities including two-lane two-way and four-lane two-way roads were selected and studied. The study was conducted in two parts, of which each involved a distinctive approach. Part one involved a macroscopic approach where traffic and friction data were collected and analyzed at an aggregated level, whereas part two involved a microscopic approach where data of individual frictional elements were collected and analysed individually. Data collection was mainly performed by application of video method, which proved to be effective for simultaneous collection of traffic and side friction data. Data reduction was conducted chiefly by computer, using standard spreadsheet and statistical software packages, mainly SPSS and some computer macros. The analysis part was based on statistical methods, chiefly regression analysis. In the macroscopic approach, traffic and friction data from all sites were adjusted through a process called ‘normalization’, which enabled the data from the different sites to be merged, and consequently to obtain speed-flow curves for each road type. The individual friction factors through regression analysis were weighted and combined into one unit of measure of friction called "FRIC". The effect of "FRIC" on speed-flow curves was analyzed. The results showed significant impact on speed for both road types. Impact on capacity was identified on two-lane two-way roads while field data on four-lane two-way roads did not allow this. In the microanalysis approach, effect of individual side friction factors on speed was analyzed. The results showed that on two-lane two-way roads, all studied factors exhibited statistically significant impact on speed, while on four-lane two-way roads, only one factor showed the same. The results also identified impact values characteristic to the individual friction factors on some roads. Recommendations were made based on these results that highway capacity studies particularly in developing countries, should include the friction variable, though in the form suitable to their own particular circumstances. Further recommendations were made that these results should be applied to formulate management programs seeking to limit levels of side friction on high mobility urban arterial streets in order to improve traffic safety and operation efficiency. / <p>QC 20100701</p>

Side friction factors

urban road links

speed-flow relationships

macroscopic method

microscopic method

SOCIAL SCIENCES

SAMHÄLLSVETENSKAP

Air-sea exchange of O2 and CO2 : Processes controlling the transfer efficiency

Andersson, Andreas

January 2017

World oceans cover more than 70% of the earth surface and constitutes a major sink of atmospheric CO2. Two of the most important gases in the marine carbon cycling are O2 and CO2 and hence accurate descriptions of the air-sea gas exchange of these gases are crucial. Still there is a lack of knowledge of the relative importance of processes controlling the efficiency of the air-sea gas transfer. This is especially true for Arctic and high latitude seas were studies on air-sea gas exchange are few. By studying processes causing water-side turbulence, using gases of different solubility and various measurement techniques, more knowledge on the governing processes can be obtained. Here we present the very first air-sea fluxes of O2 using atmospheric eddy covariance measurements and investigate the dependence between the gas transfer velocity of O2 and turbulence generated by the mean wind. The instrument was found to suffer from the limited precision and time response, causing significant corrections on the O2 flux. After correcting for this, the O2 fluxes displays an anti-correlation with the air-sea fluxes of CO2 in agreement with the measured air-sea gradient of O2. The transfer velocities for O2 indicates a stronger wind dependence than other commonly used parameterizations of the transfer velocity for CO2 and O2, this especially for wind speeds &gt; 5 m s-1 where the typical onset of wave breaking occur. During two winter months eddy covariance measurements were taken over a high Arctic fjord. The data revealed a significant enhancement of the gas transfer velocity for CO2 from water-side convection, generated by cooling of surface waters. The dependence between water-side convection and gas transfer velocity were found for winds as high as 9 m s-1, but were strongest for wind speeds&lt; 7  m s-1.  The data also showed on enhanced air-sea gas transfer of CO2 when conditions were unstable very close to neutral. This enhanced transfer were associated to increased contribution to the CO2 flux from downdraft of air with higher concentrations of CO2.  The combined effect of water-side convection and turbulence generated by wind results in a very effective transfer, thus the air-sea gas exchange at these latitudes may be significantly underestimated.

air-sea flux

oxygen

transfer velocity

water-side convection

Arctic

UVCN

Dual Mechanism Analgesia-Enhancing Agents

Young, Shawquia Elithia

01 January 2005

Currently, there is an increasing need for novel analgesics that are potent but lack undesired side effects. Recent studies have shown that both 5-HT3 receptors and α2B- adrenoceptors play a role in antinociception. MD-354, N-(3-chlorophenyl)guanidine, has a high-affinity both for 5-HT3 and α2B- adrenoceptors and could be viewed as the first example of a rather selective 5-HT3/α2B- adrenoceptor ligand. MD-354, inactive by itself, potentiates the antinociceptive effects of an inactive dose of clonidine in the mouse tail- flick assay. An attempt to determine the underlying mechanism of this potentiating effect was the purpose of the present investigation. The studies focused on an examination of: i) MD-354 in the mouse hot-plate assay, ii) a more lipophilic analog of MD-354 in the tail-flick assay, iii) various analogs of MD-354 with different binding profiles in both mouse tail-flick and hot-plate assays. The present investigation suggests that both 5-HT3 and α2B- adrenoceptors are playing a role in the potentiation of clonidine analgesia by arylguanidines such as MD-354. Arylguanidines might represent a unique class of analgesia-enhancing agents with a dual (5-HT3/α2- adrenoceptor) mechanism of action.

ligands

antinociception

side effects

receptor

behavior

Chemicals and Drugs

Medicine and Health Sciences

Optimal multi-drug chemotherapy control scheme for cancer treatment : design and development of a multi-drug feedback control scheme for optimal chemotherapy treatment for cancer : evolutionary multi-objective optimisation algorithms were used to achieve the optimal parameters of the controller for effective treatment of cancer with minimum side effects

Algoul, Saleh

January 2012

Cancer is a generic term for a large group of diseases where cells of the body lose their normal mechanisms for growth so that they grow in an uncontrolled way. One of the most common treatments of cancer is chemotherapy that aims to kill abnormal proliferating cells; however normal cells and other organs of the patients are also adversely affected. In practice, it's often difficult to maintain optimum chemotherapy doses that can maximise the abnormal cell killing as well as reducing side effects. The most chemotherapy drugs used in cancer treatment are toxic agents and usually have narrow therapeutic indices, dose levels in which these drugs significantly kill the cancerous cells are close to the levels which sometime cause harmful toxic side effects. To make the chemotherapeutic treatment effective, optimum drug scheduling is required to balance between the beneficial and toxic side effects of the cancer drugs. Conventional clinical methods very often fail to find drug doses that balance between these two due to their inherent conflicting nature. In this investigation, mathematical models for cancer chemotherapy are used to predict the number of tumour cells and control the tumour growth during treatment. A feedback control method is used so as to maintain certain level of drug concentrations at the tumour sites. Multi-objective Genetic Algorithm (MOGA) is then employed to find suitable solutions where drug resistances and drug concentrations are incorporated with cancer cell killing and toxic effects as design objectives. Several constraints and specific goal values were set for different design objectives in the optimisation process and a wide range of acceptable solutions were obtained trading off among different conflicting objectives. Abstract v In order to develop a multi-objective optimal control model, this study used proportional, integral and derivative (PID) and I-PD (modified PID with Integrator used as series) controllers based on Martin's growth model for optimum drug concentration to treat cancer. To the best of our knowledge, this is the first PID/I-PD based optimal chemotherapy control model used to investigate the cancer treatment. It has been observed that some solutions can reduce the cancer cells up to nearly 100% with much lower side effects and drug resistance during the whole period of treatment. The proposed strategy has been extended for more drugs and more design constraints and objectives.

616.99

Oral contraceptives, weight control, and fat patterning in young college women

Litchfield, Ruth Edson

January 2011

Typescript (photocopy). / Digitized by Kansas State University Libraries / Department: Foods and Nutrition.

Oral contraceptives--Side effects

Women college students

Body weight--Regulation

Fat

The short-term effects of polymethyl methacrylate and rigid gas permeable contact lens wear on keratometric behaviour

17 September 2013

M.Phil.(Optometry) / The concept of contact lenses was conceived over 500 years ago and has now evolved into a fundamental component of optometric practice. Soft contact lenses have become a convenient, aesthetically pleasing and comfortable alternative to spectacles that are becoming increasingly popular. The use of rigid contact lenses is imperative in the management of conditions such as keratoconus due to spectacles being insufficient in providing adequate vision. Placing a contact lens onto the cornea is an invasive procedure. The contact lens is a foreign body to the eye hence it is expected that the eye would react to that foreign body. Literature has revealed that the general reactions of the eye to contact lens wear are initial tearing, alteration of the tear layer and oedema due to reduced oxygen transmission but these are just a few of the known consequences amongst the multitude of the unknown consequences. What exactly goes on under a contact lens remains an enigma which contact lens researchers have strived to uncover over the past century. The consequence of contact lens wear is a vast area of research and can best be investigated by focusing on one aspect at a time. The aim of this study was to use dioptric power matrices and multivariate statistics to explore the effects of both gas permeable and gas non-permeable rigid contact lenses on corneal curvature. This study involves auto-keratometric measurements of the corneal curvature before and after lens wear to establish if there are any curvature changes induced by the contact lens. Keratometric data was collected with an automated keratometer (Nidek ARK-700) and was analysed correctly and completely using multivariate statistics. This thesis presents the findings of a study done in an effort to establish the short-term effects of rigid contact lens wear on keratometric behaviour by using complete methods of multivariate statistical analysis. Twenty four subjects were equally divided into three groups. One group wore polymethyl methacrylate (PMMA) rigid lenses, another group wore rigid gas permeable (RGP) contact lenses and the third group served as the control. The control group was included in the study to establish a reference for normal diurnal changes in keratometric behaviour. Fifty autoii keratometric measurements were taken before and immediately after three hours of rigid contact lens wear for the experimental groups and 50 auto-keratometric measurements were taken before and immediately after three hours of no lens wear for the control group. Data collected was analysed using multivariate statistical methods that in the past have been used infrequently in this area of research.

Polymethylmethacrylate

Contact lenses - Complications

Contact lenses - Side effects

Cornea - Measurement

Cornea - Pathophysiology

Etude et intégration de matériaux avancés pour la passivation face arrière de cellules photovoltaïques minces / Investigation and integration of advanced materials for back passivation of thin solar cells

Bounaas, Lotfi

30 June 2014

L'objectif d'amélioration des performances de cellules solaires sur des substrats de silicium cristallin de plus en plus en minces (< 200 µm) est indispensable à la réduction des coûts du module et donc à l'essor du photovoltaïque à l'échelle mondiale. Cette thèse se propose de répondre à la problématique d'amincissement des plaquettes sur substrats monocristallins (Cz) de type p de grande surface (239 cm2 - 180 µm) par le développement d'une structure en face arrière capable de générer un rendement de conversion élevé tout en limitant le degré de complexité du procédé de fabrication de la cellule. La solution explorée est celle des cellules à face arrière passivée et contacts localisés et les schémas de passivation étudiés s'appuient sur l'utilisation d'empilements diélectriques à base d'oxydes de silicium (SiO2) et d'aluminium (Al2O3) couplés au nitrure de silicium (SiNx). Ces travaux ont pour objectif d'optimiser les propriétés de passivation des couches diélectriques tout autant que les briques technologiques nécessaires à leur intégration dans la structure de cellule finale (conditionnement de surface, ablation laser sélective, métallisation par sérigraphie). Le procédé de fabrication résultant a permis d'obtenir des cellules avec un rendement de conversion de 19.1% pour l'empilement SiO2/SiNx. Il est cependant démontré que les limitations des performances de cette structure peuvent être partiellement compensées en introduisant une couche d'alumine, permettant d'atteindre un rendement remarquable de 19.5% (+0.4% par rapport à une structure standard). / Improving the solar cell efficiency on thin wafers (< 200 µm) has become a must in the industry in order to reduce the module cost and enhance the photovoltaics field growth worldwide. This work addresses the issues regarding the thickness reduction of large monocrystalline p-type wafers (239 cm2 - 180 µm) by developing a back side architecture capable of increasing the efficiency while limiting the cell fabrication level of complexity. Thus back passivated and local contacts, also known as PERC-type, solar cells are investigated. Those include passivation schemes relying on the use of dielectric stacks based on silicon oxide (SiO2), aluminum oxide (Al2O3) both coupled with silicon nitride layers (SiNx). This PhD study attempts to carry out an optimization of the passivation properties as well as of the technological steps required for a proper integration in the final cell structure (surface preparation, selective laser ablation, screen-printing metallization). The resulting optimized process led to the fabrication of solar cells displaying an 19.1% conversion efficiency by using SiO2/SiNx layers. Nevertheless it was shown evidence that the limited electrical performances can be overcome by introducing an Al2O3 layer, eventually reaching a remarkable 19.5% efficiency. This represents an absolute gain efficiency of +0.4% compared to the standard full-area Al-BSF solar cell architecture.

Photovoltaïque

Silicium

Cellule solaire

Passivation

Face arrière

Perc

Photovoltaics

Silicon

Solar cell

Passivation

Rear side

Perc

Plasticidade das fibras amielínicas na tubulização látero-terminal / Plasticity of unmyelinated fibers using side-to-end tubulisation

Miguel, Vânia Tognon

25 November 2014

A tubulização representa uma possível alternativa para reparo de lesões de nervos periféricos, por permitir a aplicação local de fatores de crescimento e neurorregenerativos assim como por facilitar o estudo dos mecanismos de ação relacionados à regeneração das fibras nervosas. O objetivo do presente estudo foi verificar se há crescimento de fibras amielínicas no nervo fibular comum de ratas Wistar adultas após a tubulização látero-terminal (TLT) sem a utilização de indutores de crescimento, através de análise morfológica e morfométrica das referidas fibras. Para tanto, o nervo fibular comum direito foi seccionado a 3 mm da sua emergência, o coto proximal sepultado e suturado na musculatura adjacente e um tubo de silicone (6 mm) interposto entre o coto distal do fibular e a lateral do nervo tibial (grupo TLT). O controle usado foi o segmento distal esquerdo do nervo fibular (grupo GN). Setenta dias após, foram realizados cortes semifinos e ultrafinos para análise de aspectos morfológicos e morfométricos através de microscopia de luz e microscopia eletrônica de transmissão (MET). Houve evidente brotamento axonal de fibras amielínicas, que cresceram a partir do nervo tibial intacto no grupo TLT em comparação ao grupo GN, sendo que o número total de axônios amielínicos foi similar nos dois grupos. Estudo morfométrico evidenciou diferenças significativas (p<=0,05) em relação à maior densidade de axônios amielínicos regenerados e em relação ao diâmetro mínimo axonal. No presente estudo os axônios amielínicos no nervo receptor, usando o modelo da TLT, foram quantificados. Esse modelo poderá ser útil e importante para estudo da plasticidade do sistema nervoso periférico. / Side-to-end tubulisation is a model recently developed in our laboratory to study nerve plasticity. In this model, collateral sprouting of fibers grow from intact donor nerve fibers to the distal stump of a receptor nerve. The objective of the present study was to study unmyelinated fibers using this model. Adults female Wistar rats were used and morphological and morphometric analysis were done. The fibular common nerve was sectioned 3 mm from its origin. The proximal stump was buried and sutured in the adjacent musculature. A silicone tube (6 mm) was fixed on the adjacent lateral portion of the intact tibial nerve and the fibular common nerve distal stump was sutured in the other extremity of the tube (SET group). The left fibular common nerve distal segment was used as control. Semithin and ultrathin sections were obtained and studied using light and transmission electron microscopy. Seventy days after, there was profuse axonal sprouting of unmyelinated fibers that grew from the nerve tibial, reaching the same number of axons when compared with the controls. In the present study unmyelinated axons in the receptor nerve using SET were quantified. SET is an important tool to study plasticity of peripheral nerve fibers.

Fibras amielínicas

Nerve plasticity

Plasticidade de nervo

Side-to-end tubulisation

Tubulização látero-terminal

Unmyelinated fibers