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Development and Evaluation of Exchange Rate Measurement MethodsRandtke, Edward Alexander January 2013 (has links)
Exchange rate determination allows precise modeling of chemical systems, and allows one to infer properties relevant to tumor biology such as enzyme activity and pH. Current exchange rate determination methods found via Contrast Enhanced Saturation Transfer agents are not effective for fast exchanging protons and use non-linear models. A comparison of their effectiveness has not been performed. In this thesis, I compare the effectiveness of current exchange rate measurement methods. I also develop exchange rate measurement methods that are effective for fast exchanging CEST agents and use linear models instead of non-linear models. In chapter 1 I review current exchange rate measurement methods. In chapter 2 I compare several of the current methods of exchange rate measurement, along with several techniques we develop. In chapter 3 I linearize the Quantifying Exchange through Saturation Transfer (QUEST) measurement method analogously to the Omega Plot method, and compare its effectiveness to the QUEST method. In chapter 4, I compare the effectiveness of current exchange rate theories (Transition State Theory and Landau-Zener theory) in the moderate coupling regime, and propose our own combined Eyring-Landau-Zener theory for this intermediate regime. In chapter 5 I discuss future directions for method development and experiments involving exchange rate determination.
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An NMR study on solvent effects on chemical exchange of a push-pull ethyleneKhasawneh, Maysoon 09 1900 (has links)
Solvent effects on the chemical exchange of a push pull Ethylenes <p> Chemical exchange rates provide a sensitive probe of solvent effects in solution.
The push-pull ethylene methyl 3-dimethylamino-2-cyanocrotonate (MDACC) has three
exchange processes E-Z (the same as E' -Z'), E-E', and Z-Z', and we have measured
these rates in acetone-d6, chloroform-d, tetrahydrofuran-d8, toluene-d8, methanol-d4,
acetonitrile-d3, and methylene chloride-d2 through 1D 1 H.NMR at different
temperatures. From this we obtain ΔG+, ΔHt+, ΔS+ of activation for each solvent by
employing an Eyring plot. As the solvent changes, ΔH+ is approximately constant
whereas ΔS+ follows the solvent polarity. </p> <p> Since the equilibrium constant is less than one, we would expect it to increase
with temperature, but it decreases. This is seen in the Van't Hoff plot where the slope is
positive indicating that the process of going from the major site to the minor site is
exothermic, so not only is the rate governed by entropy effects, but also the equilibrium
constant between E and Z. </p> <p> The rotation between the C-N and the C=C bond occurs through a non-concerted
mechanism. Two reasons why this occurred was apparent through EXSY, since the
intensity of the off diagonal peak varies with different mixing time and second, the
rates from C=C rotation (E-Z) and C-N rotations (E-E' and Z-Z') are different at the
same temperature </p> / Thesis / Master of Science (MSc)
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Improving the Accuracy and Precision of Chemical Exchange Saturation Transfer (CEST) MRIJones, Kyle M., Jones, Kyle M. January 2016 (has links)
Chemical exchange saturation transfer (CEST) MRI has the ability to noninvasively measure endogenous biomarkers and exogenous agents relevant to various diseases and medical conditions. My work has focused on the development of MRI pulse sequences and data analysis methods to more accurately estimate endogenous and exogenous CEST contrast measurements at 7 T and 3 T magnetic field strengths. Chapter 1 discusses the various sources of signal that have been measured with CEST MRI in the clinic, the acquisition methods used to acquire these signals, and the data analysis methods used to quantify the CEST effects from these signals. Appendix A describes the development of a respiration gated CEST pulse sequence that was ultimately used with a lung fibrosis mouse model to measure extracellular pH (pHe) of the fibrotic lesions. Appendix B describes the development of a data processing algorithm that used the Bloch equations modified for chemical exchange to generate more accurate and precise pHe estimates both at 7 T and 3 T magnetic field strengths relative to a previous data processing algorithm. Appendix C describes the development of a retrospective gating technique for the lung that generates more accurate and precise endogenous CEST contrast measurements.
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Study of advanced ion conducting polymers by relaxation, diffusion and spectroscopy NMR methods / Estudo de polímeros condutores iônicos avançados com métodos de relaxação, difusão e espectroscopia por RMNJardón Álvarez, Daniel 11 August 2016 (has links)
Advances on secondary lithium ion batteries imply the use of solid polymer electrolytes, which represent a promising solution to improve safety issues in high energy density batteries. Through dissolution of lithium salts into a polymeric host, such as poly(ethylene oxide) (PEO), ion conducting polymers are obtained. The Li+ ions will be localized in the proximity of the oxygen atoms in the PEO chains and thus, their motion strongly correlated with the segmental reorientation of the polymer. Nuclear magnetic resonance (NMR) spectroscopy, translational diffusion coefficients and transverse relaxation times (T2) contribute to the understanding of the involved structures and the ongoing dynamical processes in ionic conductivity. Nuclei with different motional freedom can present different T2 times. T2xT2 exchange experiments enable studying exchange processes between nuclei from different motional regimes. In this work, three different ion conducting polymers were studied. First, PEG was doped with different amounts of LiClO4. 7Li NMR relaxometry measurements were done to study dynamical behavior of the lithium ions in the amorphous phase. All samples presented two lithium types with clearly differentiated T2 times, indicating the presence of two regions with different dynamics. The mobility and consequently the T2 times, increases with temperature. It was observed, that the doping ratio strongly influences the dynamics of the lithium ions, as the amount of crystalline PEG is reduced while increasing the polarity of the sample. A local maximum of the mobility was observed for y = 8. With the T2xT2 exchange experiments exchange rates between both lithium sites were quantified. Second, the triblock copolymer PS-PEO-PS doped with LiTFSI was studied with high resolution solid state NMR techniques as well as with 7Li relaxometry measurements. T1ρ and spin diffusion measurements gave insight on the influence of the doping and the PS/PEO ratio on the mobility of the different segments and on interdomain distances of the lamellar phases. Third, multiple quantum diffusion measurements were applied on poly(ethylene glycol) distearate (PEGD) doped with LiClO4. Therefore, triple quantum states of the 3/2 nucleus 7Li were excited. After optimizing the experimental procedure, it was possible to obtain reliable diffusion coefficients using triple quantum states. / O avanço da tecnologia em baterias secundárias de íons lítio envolve o uso de polímeros condutores iônicos como eletrólitos, os quais representam uma solução promissora para obter baterias de maior densidade de energia e segurança. Polímeros condutores são formados através da dissolução de sais de lítio em uma matriz polimérica, como o poli(óxido de etileno) (PEO). Os íons de lítio estão localizados próximos aos oxigênios do PEO, de tal forma que seu movimento está correlacionado com a reorientação das cadeias poliméricas. Espectroscopia por Ressonância magnética nuclear (RMN), junto com medidas de difusão translacional e tempos de relaxação transversal (T2) contribuem para elucidar as estruturas e os processos dinâmicos envolvidos na condutividade iônica. Núcleos com diferente liberdade de movimentação podem ter tempos de T2 diferentes. Experimentos de T2xT2 permitem correlacionar sítios de diferentes propriedades dinâmicas. Neste trabalho, três diferentes polímeros condutores iônicos foram estudados. Primeiro, PEG foi dopado com LiClO4. As propriedades dinâmicas dos íons lítio na fase amorfa foram estudadas com medidas de relaxometria por RMN do núcleo 7Li. Todas as razões de dopagem apresentaram dois T2 diferentes, indicando dos tipos de lítio com dinâmica diferente. A mobilidade, e consequentemente os tempos T2 aumentam com aumento da temperatura. Foi identificado que a dopagem fortemente influencia a dinâmica dos íons lítio, devido à redução da fase cristalina PEG e o aumento da polaridade na amostra. Um máximo local da mobilidade foi observado para y = 8. Com o experimento T2xT2 foram quantificadas as rações de troca entre os dois tipos de lítio. Segundo, o copolímero tribloco PS-PEO-PS dopado com LiTFSI foi analisado através de técnicas de RMN de estado sólido de alta resolução assim como através de medidas de relaxação de 7Li. Medidas de T1ρ e difusão de spin mostraram a influência da dopagem e da razão PS/PEO na mobilidade dos diferentes segmentos e nas distâncias interdomínio das fases lamelares. Terceiro, medidas de difusão através de estados de múltiplos quanta foram feitas em diesterato de polietileno glicol (PEGD) dopado com LiClO4. Estados de triplo quantum foram criados no núcleo 7Li, spin 3/2. Após garantir a eficiência das ferramentas desenvolvidas, foi possível obter coeficientes de difusão confiáveis.
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Recycling Cu from Cu-sludge Generated in PCB Industry and Manufacturing Nanoscale Ferrite Catalyst to Catalyze VOCsTu, Yao-jen 05 September 2007 (has links)
Printed Circuit Board (PCB) industry is one of the two major Integrated Circuit (IC) part manufacturing industries in Taiwan, but it derives many environmental problems because large amount of chemicals and special materials are used in its process, especially copper sludge generated from wastewater treatment. Although the heavy metal sludge can be treated by solidification, heavy metals contained in the sludge may still be leached out due to longtime exposure to acid rain. Therefore, there are urgent needs of research and development of technologies regarding how to reduce both quantity and volume of the hazardous heavy metal sludge and how to recycle the valuable heavy metals.
Acid leaching method, chemical exchange method and ferrite process are applied to study how to recycle and stabilize copper sludge of PCB industry. The ultimate goal is to achieve cleaning production and sustainable development by transforming the hazardous waste into valuable byproducts, reducing the amount of the waste and lowering the treatment costs.
Experimental results show that a method is successfully developed to recycle copper from the sludge generated by PCB industry by using the combination of acid leaching, chemical exchange and ferrite process. Via this method, not only is pure copper powder recycled, but highly valuable nano-scaled catalyst-CuFe2O4 is also produced. Hence, the problem that copper sludge has nowhere to go is solved, as well as the high cost of catalyst in catalytic incineration is reduced to nearly zero. The achievements of this study are summarized as follow:
(1) Characteristic analysis of industrial sludge
Water content and pH of the sludge is 60% and 7.05, respectively. The drop in quantity of ignition is 23%. The screening test results show that particle size of the sludge varies from 0.4 £gm to 200 £gm, with D50 of 25.0 £gm. Cu, Pb, Cd, Zn, Ni and Cr are found in the sludge, and the biggest part of heavy metals is Cu, with a concentration of 158,000 mg/kg (dry basis), whereas the other heavy metals are all below 105 mg/kg (dry basis).
(2) Study of recycling of pure copper powder
The optimal operational condition of acid leaching method is that concentration of sulfuric acid is 2.0 N, temperature is 50¢J and treatment time is 60 minutes. Under this operational condition, more than 99% of heavy metals can be extracted to liquid phase and the sediment of treated sludge meet Toxicity Characteristic Leaching Procedure (TCLP) standards and therefore is considered as general industrial waste. The optimal operational condition of chemical exchange method is that molar ratio of Fe/Cu is 5.0, pH is 2.0 and treatment temperature is 50¢J. Under this operational condition, more than 95.0% of Cu can be recovered. The optimal operational condition of ferrite process is that Fe/Cu=10.0, pH=9.0, treatment temperature=80¢J, aeration rate=3 L/min/per liter waste liquid and reaction time = 30 min. Under this operational condition, TCLP concentrations of all heavy metals of both supernatant and sludge are well below regulatory standards, which proves that ferrite process is very effective.
(3) Resourcing of spinel sludge
In the potential of catalytic incineration of volatile organic compounds test, the sludge generated from ferrite process is used to catalyze the isopropyl alcohol (IPA). The catalyst is replaced by the same volume of glass wool on a reactive bed as a blank. Experimental result shows that the conversion of IPA is only 10% at 200¢J and 75% at 500¢J in the absence of catalyst under the conditions that IPA inlet concentration=1,700 ppm, space velocity=24,000 hr-1, O2 concentration=21%, and relative humidity=19%, which indicates that the destruction of IPA is associated with the consumption of much energy when no catalyst was used. But when ferrite catalyst is applied, IPA is decomposed completely at 200¢J, showing that the sludge has great potential of catalyst.
(4) Synthesizing five VOCs catalyzing ferrite catalysts via ferrite process
As to the synthesis of five ferrite catalysts in the laboratory, IPA conversion rate is higher than 58% at 200¢J. The sequence of IPA conversion from good to bad is Cu-ferrite catalyst > Mn-ferrite catalyst > Ni-ferrite catalyst > Zn-ferrite catalyst > Cr-ferrite catalyst, where Cu/Fe is most efficiency, with IPA conversion rate of 75% at 150¢J and 100% at 200¢J.
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Investigation of Protein Dynamics with the Relaxation of Mixed Zero- and Double-Quantum Coherences of C£\-H SystemsLin, Yan-Shi 14 July 2005 (has links)
none
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Study of advanced ion conducting polymers by relaxation, diffusion and spectroscopy NMR methods / Estudo de polímeros condutores iônicos avançados com métodos de relaxação, difusão e espectroscopia por RMNDaniel Jardón Álvarez 11 August 2016 (has links)
Advances on secondary lithium ion batteries imply the use of solid polymer electrolytes, which represent a promising solution to improve safety issues in high energy density batteries. Through dissolution of lithium salts into a polymeric host, such as poly(ethylene oxide) (PEO), ion conducting polymers are obtained. The Li+ ions will be localized in the proximity of the oxygen atoms in the PEO chains and thus, their motion strongly correlated with the segmental reorientation of the polymer. Nuclear magnetic resonance (NMR) spectroscopy, translational diffusion coefficients and transverse relaxation times (T2) contribute to the understanding of the involved structures and the ongoing dynamical processes in ionic conductivity. Nuclei with different motional freedom can present different T2 times. T2xT2 exchange experiments enable studying exchange processes between nuclei from different motional regimes. In this work, three different ion conducting polymers were studied. First, PEG was doped with different amounts of LiClO4. 7Li NMR relaxometry measurements were done to study dynamical behavior of the lithium ions in the amorphous phase. All samples presented two lithium types with clearly differentiated T2 times, indicating the presence of two regions with different dynamics. The mobility and consequently the T2 times, increases with temperature. It was observed, that the doping ratio strongly influences the dynamics of the lithium ions, as the amount of crystalline PEG is reduced while increasing the polarity of the sample. A local maximum of the mobility was observed for y = 8. With the T2xT2 exchange experiments exchange rates between both lithium sites were quantified. Second, the triblock copolymer PS-PEO-PS doped with LiTFSI was studied with high resolution solid state NMR techniques as well as with 7Li relaxometry measurements. T1ρ and spin diffusion measurements gave insight on the influence of the doping and the PS/PEO ratio on the mobility of the different segments and on interdomain distances of the lamellar phases. Third, multiple quantum diffusion measurements were applied on poly(ethylene glycol) distearate (PEGD) doped with LiClO4. Therefore, triple quantum states of the 3/2 nucleus 7Li were excited. After optimizing the experimental procedure, it was possible to obtain reliable diffusion coefficients using triple quantum states. / O avanço da tecnologia em baterias secundárias de íons lítio envolve o uso de polímeros condutores iônicos como eletrólitos, os quais representam uma solução promissora para obter baterias de maior densidade de energia e segurança. Polímeros condutores são formados através da dissolução de sais de lítio em uma matriz polimérica, como o poli(óxido de etileno) (PEO). Os íons de lítio estão localizados próximos aos oxigênios do PEO, de tal forma que seu movimento está correlacionado com a reorientação das cadeias poliméricas. Espectroscopia por Ressonância magnética nuclear (RMN), junto com medidas de difusão translacional e tempos de relaxação transversal (T2) contribuem para elucidar as estruturas e os processos dinâmicos envolvidos na condutividade iônica. Núcleos com diferente liberdade de movimentação podem ter tempos de T2 diferentes. Experimentos de T2xT2 permitem correlacionar sítios de diferentes propriedades dinâmicas. Neste trabalho, três diferentes polímeros condutores iônicos foram estudados. Primeiro, PEG foi dopado com LiClO4. As propriedades dinâmicas dos íons lítio na fase amorfa foram estudadas com medidas de relaxometria por RMN do núcleo 7Li. Todas as razões de dopagem apresentaram dois T2 diferentes, indicando dos tipos de lítio com dinâmica diferente. A mobilidade, e consequentemente os tempos T2 aumentam com aumento da temperatura. Foi identificado que a dopagem fortemente influencia a dinâmica dos íons lítio, devido à redução da fase cristalina PEG e o aumento da polaridade na amostra. Um máximo local da mobilidade foi observado para y = 8. Com o experimento T2xT2 foram quantificadas as rações de troca entre os dois tipos de lítio. Segundo, o copolímero tribloco PS-PEO-PS dopado com LiTFSI foi analisado através de técnicas de RMN de estado sólido de alta resolução assim como através de medidas de relaxação de 7Li. Medidas de T1ρ e difusão de spin mostraram a influência da dopagem e da razão PS/PEO na mobilidade dos diferentes segmentos e nas distâncias interdomínio das fases lamelares. Terceiro, medidas de difusão através de estados de múltiplos quanta foram feitas em diesterato de polietileno glicol (PEGD) dopado com LiClO4. Estados de triplo quantum foram criados no núcleo 7Li, spin 3/2. Após garantir a eficiência das ferramentas desenvolvidas, foi possível obter coeficientes de difusão confiáveis.
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Physicochemical Characterization of Physiological Aspects of Protein Structure / 生理学的側面から見たタンパク質構造の物理化学的特性評価Nishizawa, Mayu 23 March 2021 (has links)
京都大学 / 新制・課程博士 / 博士(工学) / 甲第23219号 / 工博第4863号 / 新制||工||1759(附属図書館) / 京都大学大学院工学研究科分子工学専攻 / (主査)教授 田中 庸裕, 教授 近藤 輝幸, 准教授 菅瀬 謙治, 教授 佐藤 啓文 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM
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Studium dynamického chování směsi H2O/D2O pomocí NMR relaxací / Study of dynamical behaviour of H2O/D2O mixtures by NMR relaxationDvořák, Petr January 2013 (has links)
Title: Study of dynamical behavior of H2O/D2O mixtures by NMR relaxation Author: Petr Dvořák Department: Department of Low Temperature Physics Supervisor: doc. RNDr. Jan Lang, Ph.D., Department of Low Temperature Physics Abstract: The subject of this diploma thesis is the chemical exchange in the mixture of light and heavy water, which was studied by methods of high resolution NMR. The first part of this thesis concerns methodology of sample preparation and methodology of measurement of relaxation times of mixture of light and heavy wa- ter. Experimental complications with elution of ions from tube glass, degassing of samples, radiation damping and sample heating by radio-frequency pulses were solved there. In the second part of this thesis the relaxation parameters of chemical exchange of selected sample at various temperatures were measured. Interpretations of experimental data (ionization, molecular clusters and isotopic equilibrium) was suggested. Keywords: NMR, relaxation, water, dynamics, chemical exchange
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NMR studium oligonukleotidových struktur / NMR Study of Oligonucleotide StructuresŘímal, Václav January 2018 (has links)
Title: NMR Study of Oligonucleotide Structures Author: Václav Římal Department: Department of Low-Temperature Physics Supervisor: Prof. RNDr. Helena Štěpánková, CSc., Department of Low- Temperature Physics Abstract: The dynamics of nucleic acids plays a fundamental role in the interactions with proteins. Some processes are governed by changes in DNA stability and flexibility caused by sequence alterations or chemical modifications without substantial structural impact. We employed line-shape analysis of variable-temperature 1H NMR spectra to deeply investigate the melting transition of DNA structures. We observed a significant influence of the sequence beyond the nearest neighbours on chemical shifts and thermodynamics of the double helix. The CpG motif is especially sensitive to its distant surroundings and for a particular oligonucleotide it was even found to undergo an unexpected local conformational transition. A strong cooperativity in the duplex dis- ruption was witnessed by both the equilibrium and kinetic aspects as well as by distant effects of cytosine methylation. We propose a two-state melt- ing scheme also for a fragment of a transcription element proved here to fold as a hairpin with a six-membered loop. In addition, we describe the properties of self-assemblies of riboguanosine and...
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