Global ETD Search

21	Characterization of Cellulose and Chitin Thin Films and Their Interactions with Bio-based Polymers Kittle, Joshua Daniel 02 May 2012 (has links) As the two most abundant natural polymers on earth, cellulose and chitin have attracted increasing attention as a source of renewable energy and functional materials. Thin films of cellulose and chitin are useful for studying interactions of these materials with other natural and synthetic molecules via techniques such as quartz crystal microbalance with dissipation monitoring (QCM-D) and surface plasmon resonance (SPR). Because of the difficulty of extracting native cellulose, regenerated cellulose (RC), sulfated nanocrystalline cellulose (SNC), and desulfated nanocrystalline cellulose (DNC) thin films are often studied in its place. In this work, QCM-D solvent exchange studies showed that water contents of RC, SNC and DNC films were proportional to the film thickness (d). Accessibility and degradation of the films was further analyzed via substrate exposure to cellulase. Cellulase adsorption onto RC films was independent of d, whereas cellulase adsorption onto SNC and DNC films increased with d. Enhanced access to guest molecules for SNC and DNC films relative to RC films revealed they are more porous. The porosity of these cellulose films aided in understanding the observed differences of xyloglucan (XG) adsorption onto their surfaces. Xyloglucan adsorption onto RC, SNC, and DNC was studied by QCM-D and SPR. The amount of adsorbed XG increased in the order RC < SNC < DNC. XG adsorption onto RC films was independent of d, whereas XG adsorption was weakly dependent upon d for SNC films and strongly dependent upon d for DNC films. However, XG adsorbed onto "monolayer" thin films of RC, SNC, and DNC in approximately the same amount. These results suggested that the morphology and surface charge of the cellulose substrate had a limited effect upon XG adsorption and that accessible surface area of the cellulose film may be the factor leading to apparent differences in XG adsorption for different surfaces. The porosity and surface charge of SNC films presented a unique opportunity to examine polyelectrolyte adsorption and subsequent dewatering of the SNC substrate. The adsorption of a series of cationically derivatized dextran (cDex) polyelectrolytes with various degrees of substitution (DS) onto SNC was studied using QCM-D and SPR. As the hydrophobic character of the cDex samples increased, the water content of the adsorbed cDex layer decreased. For cDex with the greatest hydrophobic content, nearly 50% by mass of the initial water present in the porous SNC film was removed upon cDex adsorption. This study indicated that the water content of the film could be tailored by controlling the DS and hydrophobic character of the polyelectrolyte. This work also presents the first report of smooth, homogeneous, ultrathin chitin films, opening the door to surface studies of binding interactions, adsorption kinetics, and enzymatic degradation. The chitin films were formed by spincoating trimethylsilyl chitin onto gold or silica substrates, followed by regeneration to a chitin film. The utility of these chitin films as biosensors was evident from QCM-D and SPR studies that revealed bovine serum albumin adsorbed as a monolayer. / Ph. D. Chitin Cellulose Surface Plasmon Resonance Quartz Crystal Microbalance Xyloglucan Dextran
22	Studies of Sustainable Polymers: Novel Lignins to Reprocessable Polymers Liu, Tianyi 02 June 2022 (has links) This dissertation includes two research topics. This first topic focuses on fundamental studies of monolignols and lignin, including polymerization and degradation. The second part reports a polymeric material that was crosslinked but can be reprocessed. In order to understand lignin from a molecular level and promote biopolymer conversion, we investigated the dehydrogenative copolymerization and degradation of two monolignols: caffeyl (C) alcohol and p-coumaryl (H) alcohol. The copolymerization and degradation were monitored by a quartz crystal microbalance with dissipation (QCM-D). Atomic force microscopy (AFM) was applied to investigate the topologies of the copolymer and degraded films. Horseradish peroxidase (HRP) was used as the enzyme for the dehydrogenative polymerization of monolignols and chelator-mediated Fenton chemistry was used to degrade the lignin. With constant monolignol concentration, we found that as the fraction of H in the polymerization feed increased, the amount of lignin formed increased, and the films became more rigid. For the degradation process of the resultant lignins, the presence of more C-monolignol during polymerization facilitated greater degradation. This work demonstrated the chemical factors that influenced the physical properties of lignin and lignin degradation, which could impact biofuel production. We further investigated the surface-initiated dehydrogenative polymerization of a new monolignol 5-hydroxyconiferyl (5H) alcohol using a QCM-D. HRP was immobilized on gold sensors. Various experimental conditions were studied. The dehydrogenative polymerization of 5H-monolignol was influenced by the concentration of monolignols and temperature, but was not affected by the hydrogen peroxide concentration, which was different from other monolignols. We also compared the polymerization kinetics of 5H-monolignol and the topology of the resulting lignin thin films with other monolignols. Furthermore, we utilized enzymatic and chemical degradation methods to treat the 5H-lignin. The 5H-lignin film was degraded thoroughly via a chelator-mediated Fenton reaction. This study provided a comprehensive understanding of 5H-monolignol polymerization and degradation and could be used as a reference for the exploration of the applications of the 5H-monolignol. In this dissertation, a separate study involved a vitrimer. It was a crosslinked polymer, but could be reprocessed and reshaped. The new vitrimer was based on poly (methyl methacrylate-co-hydroxymethyl methacrylate). Aromatic disulfides that underwent a dynamic exchange reaction were incorporated as crosslinkers. The structure of the material was identified by proton nuclear magnetic resonance spectroscopy (1H NMR) and Fourier transform infrared spectroscopy (FTIR). Thermal properties and mechanical properties were studied through thermogravimetric analysis (TGA), dynamic mechanical analysis (DMA), and Instron tests. Furthermore, the chemical resistance was explored. Notably, that new material exhibited comparable mechanical performance for three cycles when reprocessed via a hot press to reprocess. / Doctor of Philosophy / Lignin is a complex phenylpropanoid polymer and is one of the most abundant biopolymers in nature. Conversion of lignin into biofuels or other fine chemicals has drawn significant attention in recent years. Understanding molecular details of lignin formation and degradation is of fundamental importance for the biorefinery. Although a number of studies have improved our knowledge about lignin, many important aspects remain unknown. Lignin arises from dehydrogenative polymerization of three types of monolignols, named p-coumaryl (H), coniferyl (G), and sinapyl (S) alcohols. Recently, a new monolignol, caffeyl (C) alcohol, has been found. In this work, the surface-initiated copolymerization of C-monolignol and H-monolignol was conducted through an in vitro synthesis. Furthermore, chelator-mediated Fenton reactions were applied to degrade the resulting lignin. The effect of C-lignin incorporation on degradation was studied. It was found that, when more C-lignin was incorporated, the percentage of degradation was larger. These findings are likely to guide the conversion of lignocellulosic biomass into value-added products. A new monolignol, 5-hydroxyconiferyl (5H) alcohol, was investigated in this dissertation. The surface-initiated dehydrogenative polymerization of 5H was conducted under various experimental conditions, including different temperature, monomer concentration, and hydrogen peroxide concentration. Furthermore, degradation by enzymatic and non-enzymatic methods were studied. It was found that the 5H-lignin was recalcitrant to enzyme, but can be degraded by a non-enzymatic procedure. The synthesis and degradation were monitored by a quartz crystal microbalance with dissipation (QCM-D), which is a label-free method and can provide real-time data. Thermosets are the materials that are chosen for many applications due to their structural stability and mechanical properties. However, due to their permanent crosslinkages, they cannot be reprocessed or recycled. In this dissertation, a new crosslinked polymer material called a vitrimer was reported. The material was developed based upon poly (methyl methacrylate) (PMMA) and aromatic disulfide linkages, which are exchangeable chemical bonds. The exchange reaction occurs very quickly at elevated temperature. As a result, the material can be easily reprocessed and also exhibited chemical stability and mechanical properties similar to conventional thermosets. Lignin Monolignol Degradation Vitrimer
23	Magnetic quartz crystal microbalance Yu, George Yang 08 July 2008 (has links) In this thesis, a new technique for using quartz crystal microbalance (QCM) in magnetic field was explored. This technique would take advantage of the sensitive nature of QCM to vibration changes. The idea is to perturb the QCM vibrations with magnetic materials on it by applying magnetic field. A new instrument called magnetic QCM (MQCM) was constructed to explore this technique. The thesis contains three bodies of work. The first body describes the development of the MQCM instrument and the demonstration of the technique. The resonance frequency of a QCM with conducting polymer (polyaniline) suspension in poly(ethylene glycol) was observed to increase with increasing applied DC magnetic field. The change in population of free spins through doping with HCl vapor is reflected in increased frequency-field curve magnitude. The second body of work describes the study of QCM proximity phenomenon discovered during the MQCM instrument development process. When an object approaches a vibrating QCM, the resonant frequency changes. This proximity effect is seen at the distance of 10 mm in air and becomes more pronounced as the distance decreases. This effect depends on the value of quality factor, conductivity of the object, and electrical connection of the object to the QCM electrodes. A simple modified Butterworth van-Dyke model is used to describe this effect. It must be recognized that this effect may lead to experimental artifacts in a variety of analytical QCM applications. The third body of work describes an improved version of MQCM. The complex geometry such as particle suspension were simplified to alternating stack of ferromagnetic and diamagnetic layers. When magnetic field was applied, changes in the QCM admittance magnitude and phase curves were observed. A mass-equivalent stack of continuous consecutive layers of nickel and gold was also exposed to magnetic field but no changes were observed. Butterworth-van-Dyke model attributed the effect to internal shear friction loss among other losses is modulated by the magnetic field. Quantum effect was considered. However, after examining SEM surface images, the source of acoustic response to magnetic field is more likely from interfacial stresses. Magnetic Quartz crystal microbalance Multi-layer Gold nickel stack Polyaniline Particle suspension Proximity effect Magnetism Magnetics Thin films Quartz crystal microbalances Quartz crystals Microbalances
24	Procedural optimization of the quartz crystal microbalance for rapid detection of Escherichia coli O157:H7 Lim, Yimei Angelina January 2007 (has links) [Truncated abstract] The applications of biosensors are rapidly expanding with the increased emphasis placed on the use of technology in the evaluation of food safety and also in military use. The United States food industry carried out 144.3 million microbiological tests in 1999 (Alocilja and Radke, 2003). These numbers are expected to rise with the recently implemented regulatory measures for food safety in the United States. In fact, similar trends in food safety are occurring on a global scale. Furthermore, with the recognition and establishment of Microbial Forensics as a new field of forensics, the interest in biosensor development for the detection of microbes will thrive. Moreover, the recent spate of biocrimes, notably the anthrax scares, has called for newer and improved techniques for the sensitive, rapid and reproducible detection of microbes. Biosensors have the capability to fill this role as an efficient device for microbial detection. There is a wide range of biosensors available for different purposes. In addition, their versatility allows for their overlap in many fields. The quartz crystal microbalance (QCM) is a biosensor that is cost-efficient, sensitive, field-deployable with the ability to perform automated, real-time assays within minutes. The QCM is a mass sensitive device that works on the principle where a change in mass deposited on the crystal is inversely proportional to the change in the resonant frequency of the crystal. Therefore, frequency decreases with increasing mass deposited. The QCM has been used in several studies as a biosensor for the detection of a number of viral and bacterial species. ... High antibody incubation concentration required a shorter antibody incubation duration. Conversely, low antibody incubation concentration required a longer antibody incubation duration. Furthermore, regardless of antibody incubation concentration, a distinct pattern in the rate of antibody binding with time was observed. One hour antigen incubation at ambient room temperature (22.5oC) was sufficient for the efficient binding of the antigens to the immobilized antibody layer. Extension of antigen binding time to 15 hours produced inconsequential differences in readings. The binding efficiency of the quartz crystals after a storage period of 2 to 4 weeks at ambient room temperature (22.5oC) fared better than the crystals that were refrigerated at 4oC. Results showed that 0.2M glycine hydrochloride is a poor reagent for the removal of the antigen layer on the quartz crystals for repeated assay use. The 16-mercaptohexadecanoic acid (MHDA) layer and adsorbed proteins on the quartz crystals can be removed by a mixture of sulphuric acid and hydrogen peroxide, known as a piranha process. This allows the crystals to be repeatedly recoated and reused. Overall, this research provides new insights into the preparation process of the quartz crystals for the specific detection of E. coli O157:H7. Conclusive results have been obtained for several tested parameters and suggestions have been raised for further studies in the optimization of the QCM for the E. coli O157:H7 detection process. With improved knowledge and recognition in the capability of the QCM as a biosensor, the QCM may soon be used in conjunction with conventional techniques for the rapid detection of E. coli O157:H7. Biosensors Quartz crystal microbalances Escherichia coli O157:H7 Microbiology -- Technique Food contamination -- Prevention Biosensor Quartz crystal microbalance Escherichia coli O157:H7
25	Nouvelle méthode expérimentale pour mesurer les dommages à l'ADN induits par la radiation / Quantification of electron induced desorption in thin films of thymine and thymidine Lahaie, Pierre-Olivier January 2015 (has links) Résumé : Lors de l’utilisation de la radiation pour le diagnostic et le traitement du cancer, l’ADN est une cible importante due à son rôle dans la division cellulaire. La radiation y dépose de l’énergie par production abondante (10[indice supérieur 5] e[indice supérieur −]/MeV) d’électrons de basse énergie (EBE) (<50 eV) menant à la production de radicaux et à la dissociation de molécules. Une meilleure compréhension de ces phénomènes physico-chimiques mènera au développement de nouvelles stratégies en radioprotection et en radiothérapie. Il est primordial d’identifier et de quantifier ces dommages initiaux. Suite à des résultats obtenus par des expériences récentes (Li et al., 2010) sur des couches minces d’ADN irradiées par des EBE dans le vide, nous suggérons que certains produits désorbent en quantité significative. Nous proposons une méthode pour mesurer cette perte de matière en utilisant une balance à quartz pour mesurer in situ les changements de masse totale. Ce mémoire présentera la conception et la construction de l’appareil ainsi que les résultats d’irradiation de la thymine et de la thymidine. À 25 ◦ C, le taux de perte de masse spontanée des échantillons joue un rôle important pour les petites molécules comme la thymine (126 uma). L’irradiation augmente d’abord ce taux qui diminue d’un facteur 5 à 15 après une exposition prolongée, signe de modifications notables de l’échantillon. Pour des molécules plus imposantes comme la thymidine (242 uma), il n’y a pas de désorption spontanée et le taux de désorption induite par des électrons de 50 eV est de 0,4 ± 0,1 uma/e[indice supérieur -]. Cette méthode, nécessaire à la calibration d’autres expériences réalisées par HPLC et spectrométrie de masse, permet de compléter la quantificationdes fragments, qui peuvent aussi être l’origine de lésions subséquentes. / Abstract : DNA is the principle target of radiotherapy (RT) due to its crucial role in cellular growth and function. Ionizing radiation (IR) delivers its energy into the cell and its nucleus via sequential ionization events that produce many low-energy electrons (LEE)(10[superscript 5]e[superscript −] per MeV) which drive subsequent molecular dissociations and the formation of radicals and other reactive species. Since a better understanding of these mechanisms is needed to develop new strategies for radioprotection and RT, it is essential to identify and to quantify the initial damage induced by IR. Recent chromatographic (HPLC) analysis of short oligonucleotide irradiated with LEE in vacuo (Li et al., 2010) revealed that only ∼30 % of the loss of intact molecules could be explained by the formation of identifiable radiation products. We hypothesize that electron stimulated desorption (ESD) may account for some of the unexplained loss of the missing molecules. Here we propose a new experimental method to quantify this loss using a quartz crystal microbalance to measure in situ the total mass change due to ESD. This thesis describes the design and the construction of the novel apparatus and presents results for LEE irradiated thymine (thy) and thymidine (dT). We find that at 25 ◦ C, the thermal-induced mass loss is important for small molecules such as thy (126 amu). Upon irradiation at 50 eV, the rate of mass loss initially increases, but then decreased by factors between 5 and 15 indicating structural changes occurring at the sample surface. For larger molecules such as dT (242 amu), there is no thermal evaporation at 25 ◦ C and the LEE induced rate of desorption at 50 eV is 0.4 ± 0.1 amu/e[superscript -]. This work is needed to calibrate HPLC and mass spectrometry experiments allowing us to quantify the fragment species produced by LEE that are expected to induce further and biologically significant damage. Désorption Électrons de basse énergie Microbalance Thymidine Desorption Low-energy electrons Quartz crystal microbalance Thymidine
26	Enhancing analytical capability of piezoelectric quartz crystal and capillary electrophoresis in environmental analysis using polymerasechain reaction, molecularly imprinted polymers and nanotechnology Sun, Hui, 孫慧 January 2006 (has links) published_or_final_version / abstract / Chemistry / Doctoral / Doctor of Philosophy Piezoelectric polymer biosensors. Quartz crystal microbalances. Capillary electrophoresis. Polymerase chain reaction. Molecular imprinting. Nanotechnology. Environmental monitoring.
27	Ellipsometric and nanogravimetric porosimetry studies of nanostructured, mesoporous electrodes May, Robert Alan 26 August 2010 (has links) Nanostructured, porous materials offer great promise for application in areas such as energy storage, photovoltaics, and catalysis. These materials are often difficult to characterize because they are structurally and compositionally inhomogeneous, and disordered with features to small to be resolved by scanning probe techniques such as atomic force microscopy (AFM) and scanning electron microscopy (SEM). These shortcomings require that new techniques be developed that can be applied to real world systems to elucidate how the interplay of material composition and structure alters their performance. Towards this end, the development of a hybrid quartz crystal microbalance/ ellipsometric porosimetry (QCM/EP) technique is being pursued to facilitate the determination of a number of material parameters such as porosity, pore size distribution, and surface area. Additionally, the use of adsorbate probe molecules of varying polarity gives further information about adsorbate-surface interactions and surface chemistry characteristics. Simultaneous acquisition of both mass-based and refractive index based adsorption isotherms fosters mechanistic understanding about the behavior of adsorbates confined in mesopores while at the same time reducing the uncertainty in the analysis of the optical parameters acquired via ellipsometry. To highlight the power of this approach, studies of TiO₂ and TiC, electrode materials as model systems will be presented that have helped us validate measurement and modeling protocols for extracting physical properties. / text Ellipsometric porosimetry Quartz crystal microbalance Isotherm Mueller matrix Thin film characterization
28	Estudo nanogravimétrico da influência do ânion BF4- em eletrocatálise / Nanogravimetric study of the influence of the BF4- anion in electrocatalysis Santos, Adriano Lopes 18 June 2010 (has links) Em tempos nos quais a sociedade se volta a reflexões sobre questões climáticas e energéticas, células a combustível surgem como uma alternativa promissora no âmbito das políticas que visam o desenvolvimento sustentável. Nesse sentido, há ainda desafios a serem superados nas esferas fundamental e aplicada. Entender o papel das espécies presentes no eletrólito de suporte é fundamental em tal descrição. Especificamente no caso de ânions dissolvidos no eletrólito, o papel mais comumente atribuído é o de inibir o processo eletrocatalítico de interesse, por meio do bloqueio de sítios superficiais. No entanto, atribui-se recentemente ao ânion BF4- um efeito diverso; o aumento dos valores de corrente de eletro-oxidação em baixos potenciais. Apresenta-se na presente dissertação, um estudo sistemático deste processo, empregando a técnica da nanobalança eletroquímica a cristal de quartzo (NECQ), em conjunto com técnicas eletroquímicas tradicionais. Tal estudo revelou a ocorrência de diferenças notáveis nos perfis voltamassométricos do sistema eletroquímico quando da adição de pequenas quantidades do reagente HBF4. Tais diferenças têm caráter bastante especial, uma vez que nos perfis voltamétricos não são observadas diferenças marcantes nos valores de corrente entre o sistema eletroquímico com a adição de pequenas quantidades do reagente HBF4 e o sistema eletroquímico sem a adição desse reagente. À partir dos métodos utilizados e das evidências experimentais observadas, é possível inferir que o comportamento peculiar até então atribuído ao HBF4 na verdade resulta de uma contaminação com o semimetal arsênio, apesar de o rótulo do fabricante não informar sobre a possibilidade da ocorrência de traços do semimetal. / In times where the society turns its reflections on climate and energy questions, fuel cells appear as a promising alternative for the policies aimed at sustainable development. In this sense, there are still challenges to overcome in fundamental and applied levels. Understand the role of species in the supporting electrolyte is crucial in such a description. Specifically in the case of anions dissolved in the electrolyte, the most commonly assigned role is to inhibit the electrocatalytic process of interest, through blockade of surface sites. However, to the anion BF4- is recently attributed a diverse effect, the increase of the current values of electro-oxidation at low potentials. It is presented in this dissertation, a systematic study of this process, using the technique of the electrochemical quartz crystal nanobalança (EQCN), combined with traditional electrochemical techniques. This study revealed the occurrence of remarkable differences in the voltamassometric profiles of the electrochemical system when adding small amounts of reagent HBF4. Such differences are special features, since in the voltammetric profiles marked differences are not observed in current values between the electrochemical system with or without the addition of small amounts of reagent HBF4. On the basis of methods utilized and the experimental evidence observed, it is possible to infer that the peculiar behavior previously attributed to HBF4 actually results from a semimetal contamination with arsenic, although the manufacturer\'s label gives no information about the occurrence of traces of the semimetal. Anions Ânions Electrocatalysis Eletrocatálise
29	Eletrofiação de nanofibras poliméricas de poliacrilonitrila e polifluoreto de vinilideno, incorporadas com negro de fumo e ftalocianina de cobre, visando aplicações em dispositivos sensores. / Electrospinning of polyacrylonitrile and polyvynilidene fluoride nanofibers incorporate with carbon black end copper phthalocyanine to applications in sensors devices. Gomes, Demetrius Saraiva 23 February 2018 (has links) O presente trabalho tem como objetivo principal a eletrofiação de nanofibras poliméricas de poliacrilonitrila (PAN) e polifluoreto de vinilideno (PVDF), incorporadas com negro de fumo (NF) e ftalocianina de cobre (CuPc), visando aplicações em dispositivos sensores. Inicialmente foram preparadas soluções de PAN puro a 6 % em peso e PVDF puro a 20% em peso e foram misturadas a essas soluções partículas de negro de fumo e ftalocianina de cobre, obtendo soluções de PAN/NF, PVDF/NF, PAN/CuPc e PVDF/CuPc. Foi determinada a viscosidade absoluta das soluções. Realizou-se a eletrofiação para obtenção de nanofibras que foram caracterizadas segundo o diâmetro e morfologia, usando microscópio óptico e microscópio eletrônico de varredura. Para avaliar as interações polímero-polímero, polímero-partícula foram analisadas por espectroscopia FITR e Raman. Com as fibras de PAN/NF foi analisada a resistência e condutância elétrica das membranas usando um picoamperímetro digital, visando aplicação como filtro eletrostático. Foi construído canal na lâmina de silício usando um feixe de laser visando a deposição de fibras dentro do canal usando a técnica de focagem eletrodinâmica com tensão aplicada em máscaras de cobre. Foi usada a técnica da microbalança de cristal de quartzo para determinar a variação de massa adsorvida por membranas de PAN/CuPc e PVDF/CuPc por meio da medida da variação de frequência usando um frequencímetro digital, onde se observou que essas membranas são promissoras para atuar como sensores de vapor de amônia. / The main objective of this work is the incorporation of different particles in order to electrospun polymeric nanofibers of polyacrylonitrile (PAN) and polyvinylidene fluoride (PVDF), aiming at applications in sensor devices. Initially, solutions of PAN pure 6 wt% and PVDF pure 20 wt% were prepared and these solutions were mixed with carbon black (NF) particles and copper phthalocyanine (CuPc), obtaining solutions of PAN/NF, PVDF/NF, PAN/CuPc and PVDF/CuPc. The absolute viscosity of the solutions was determined. The electrospinning was performed to obtain nanofibers that were characterized according to the diameter and morphology, using optical microscope and scanning electron microscopy. To evaluate the polymer-polymer and polymer-particle interactions, FITR and Raman spectroscopy were performed. The resistance and conductance of the membranes electrospun from PAN/NF solution were analyzed using a digital picoammeter, and an increase in the resistance was measured. This result shows that the membrane is suitable to be applied as electrostatic filter. A channel was constructed on the silicon wafer using a laser beam for the deposition of fibers inside the channel using the electrodynamic focusing technique. The quartz crystal microbalance technique was used to determine the applicability of the membranes as sensor layer. The results of PAN/CuPc and PVDF/CuPc membranes suggests that these membranes are promising to act such as ammonia vapor sensors. Conductive fiber Electrodynamic focusing Electrospinning Eletrodinâmica Eletrofiação Fibras condutoras Materiais nanoestruturados Nanofibers Nanofibras Quartz crystal microbalance
30	Application of affinity mass sensor based on boronic acid derivatives. January 2001 (has links) Chow Ka-man. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references (leaves 52-55). / Abstracts in English and Chinese. / Chapter 1 --- Introduction / Chapter 1.1 --- Chemical sensors --- p.1 / Chapter 1.2 --- Quartz crystal microbalance --- p.4 / Chapter 1.3 --- Concept of affinity mass sensor --- p.8 / Chapter 1.4 --- Film immobilization technologies --- p.9 / Chapter 1.5 --- Research outlines --- p.13 / Chapter 2 --- Experimental / Chapter 2.1 --- Sensor fabrication --- p.14 / Chapter 2.2 --- Flow-through cell --- p.16 / Chapter 2.3 --- Analysis procedures --- p.19 / Chapter 2.4 --- Response curve --- p.19 / Chapter 2.5 --- Experimental setup --- p.21 / Chapter 3 --- Detection of ascorbic acid by affinity mass sensor based on 3-aminophenylboronic acid / Chapter 3.1 --- Conventional analytical methods --- p.23 / Chapter 3.2 --- Research method - affinity mass sensor based on APBA --- p.24 / Chapter 3.3 --- To locate the binding site in ascorbic acid --- p.25 / Chapter 3.3.1 --- Steric energy calculated by molecular modeling --- p.26 / Chapter 3.4 --- Optimization of experimental variables --- p.29 / Chapter 3.4.1 --- Effect of pH --- p.29 / Chapter 3.4.2 --- Effect of sample volume --- p.30 / Chapter 3.4.3 --- Effect of flow velocity --- p.30 / Chapter 3.5 --- Calibration and Reproducibility --- p.32 / Chapter 3.6 --- Kinetic analysis --- p.33 / Chapter 3.7 --- Stability of sensor --- p.37 / Chapter 3.8 --- Interference studies --- p.37 / Chapter 3.9 --- Determination of ascorbic acid in real samples --- p.39 / Chapter 3.9.1 --- Results and Discussion --- p.39 / Chapter 3.10 --- Comparison with conventional ascorbic acid sensors --- p.42 / Chapter 3.11 --- Summary --- p.42 / Chapter 4 --- Boronic acid derivatives for the detection of sugars / Chapter 4.1 --- Scope of this work --- p.43 / Chapter 4.2 --- Results and Discussion --- p.44 / Chapter 4.3 --- Summary --- p.49 / Conclusion --- p.50 / References --- p.52 / List for tables --- p.56 / List for figures --- p.57 / Appendix I --- p.59 / Appendix II --- p.61 Affinity chromatography Quartz crystal microbalances Chemical detectors Immobilized ligands (Biochemistry) Chromatography, Affinity Boronic Acids

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