Development of All-Organic Magnetic Mixed Micelles Aiming at Biomedical Application / 生物医療応用を目指した純有機磁性混合ミセルの開発

Nagura, Kota

25 March 2019

京都大学 / 0048 / 新制・課程博士 / 博士(人間・環境学) / 甲第21873号 / 人博第902号 / 新制||人||215(附属図書館) / 2018||人博||902(吉田南総合図書館) / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)教授 小松 直樹, 教授 加藤 立久, 准教授 廣戸 聡 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM

Nitroxide radical

Micelle

Drug delivery

Magnetic resonance imaging

Cancer

361

Functionalization of Hyperbranched Polyacrylates by Radical Quenching

Wang, Zewei

09 June 2014

No description available.

Polymers

Polymer Chemistry

Estudo experimental da polimerização via radical livre controlada em presença de radicais nitroxido (NMRP) / Experimental study of living free radical polymerization mediated nitroxide (NMRP)

Gonçalves, Maria Cecilia

13 September 2006

Orientador: Liliane Maria Ferrareso Lona / Dissertação (mestrado) - Universidade Estadual de Campinas. Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-07T10:01:06Z (GMT). No. of bitstreams: 1 Goncalves_MariaCecilia_M.pdf: 1216282 bytes, checksum: 2482b360196051d5ed291cc3d7fa0ccc (MD5) Previous issue date: 2006 / Resumo: A polimerização via radical livre controlada mediante radicais nitróxido (NMRP) tem recebido cada vez mais atenção como uma técnica para produção de polímeros com estrutura altamente controlada. Distribuições de pesos moleculares estreitas são obtidas, com polidispersidades baixas. Neste trabalho, será estudado o processo NMRP, no qual ocorre a adição de um radical nitróxido estável, como o 2,2,6,6-tetrametil-l-piperidinoxil (TEMPO) para capturar o radical em crescimento. Embora o processo NMRP de ao polímero características controladas (polidipersidades baixas e pesos moleculares que aumentam linearmente com a conversão), ainda existe um desafio nos processos controlados, por apresentarem baixas velocidades de reação. O objetivo principal deste trabalho está focado num estudo experimental do processo NMRP visando aumentar a velocidade de reação sem perder as características principais do processo. O efeito de dois iniciadores BPO (peróxido de benzoíla) e TBEC (tert-butilperóxido-2-etilhexil carbonato) foi analisado. Observou-se que o TBEC (iniciador com constante de decomposição baixa) foi capaz de aumentar significativamente a taxa de polimerização do processo NMRP, quando comparado ao BPO, pois conversões mais altas foram obtidas, num mesmo tempo de reação, mantendo a característica controlada do sistema. O uso do TBEC apresenta uma vantagem frente ao BPO em processos controlados, não somente porque reduz o tempo de reação, mas também porque concentrações menores de iniciador e controlador foram usadas, obtendo uma taxa de reação ainda maior, o que reduz o custo operacional. Para as condições estudadas, comprovou-se experimentalmente que a taxa de reação é inversamente proporcional à concentração inicial de TEMPO, para uma mesma concentração de iniciador. A análise dos resultados através da aplicação da técnica de planejamento de experimento auxiliou numa melhor compreensão do sistema e na obtenção de condições ótimas de operação para se obter baixas polidispersidades e baixos tempos de polimerização / Abstract: NMRP process (Nitroxide Mediated Radical Polymerization) has received increasing attention as a technique for production polymers with highly controlled structures, narrow molecular weight distribution (MWD) and polydispersity index dose to 1.0. In this work 2,2,6,6-tetramethyl-l-piperidinoxyl (TEMPO) is used as the stable radical to reversibly terminate the growing polymer chain. Polymerizations were performed in ampoules, using TBEC (tert-butylperoxy-2-ethylhexyl carbonate) and BPO (benzoyl peroxide) as initiators. With the purpose of enhancing the reaction rate for NMRP process maintaining the controlled and living characteristics of the polymer synthesized (low polidispersity and molecular weights increasing linearly with conversion) an experimental study was done to evaluate the effect of two different initiators (BPO and TBEC). It was observed that TBEC (initiator with low decomposition rate) was able to enhance significant1y the polymerization rate compared to BPO, keeping the living and controlled characteristics of the system. The results show that TBEC seems to be a promising initiator that make the NMRP process more efficient, not only because it reduces the polymerization time, but also because it allows smaller amounts of controller and initiator to be used. For the operational conditions studied, experimental results with TBEC exposed that the polymerization rate in inversely proportional to the initial concentration of TEMPO, for the same amount of initiator. Using a statistical planning, it was possible to obtain a better understanding of the system and to search for operating conditions that bring low polydispersity and low reaction rates. Finally, the results are expected to have significant benefits for controlled polymerization on an industrial setting / Mestrado / Desenvolvimento de Processos Químicos / Mestre em Engenharia Química

Polimerização

Estireno

Radicais (Quimica)

Polímeros

Peso molecular

Controlled polymerization

Styrene

Chemical radicals

Nitroxide radical

Iniciator TBEC

Synthesis of Rigid Spin Labels for the Investigation of Transmembrane Peptides by EPR Spectroscopy

Wegner, Janine

28 February 2018

No description available.

540

nitroxide radical

spin label

transmembrane peptides

EPR

PELDOR

membrane

Chemie  (PPN62138352X)

Etude du greffage radicalaire de l’anhydride maléique sur le polyéthylène en milieu fondu et en présence de radicaux nitroxyle et/ou d’alcoxyamines / Free radical melt grafting of maleic anhydride onto polyethylene in presence of nitroxide radicals and/or alcoxyamines

Belekian, Denis

04 July 2012

Ce travail porte sur le greffage radicalaire de l'anhydride maléique sur un polyéthylène basse densité, en voie fondu, et en présence d'un abstracteur d'atome d'hydrogène. L'utilisation des radicaux nitroxyle, comme agent de terminaison, en présence d'un peroxyde a permis de bloquer la réaction de réticulation du polyéthylène, réaction secondaire fréquemment rencontré lors de l'utilisation de radicaux peroxyle, tout en permettant le greffage d'une faible quantité d'anhydride maléique. L'élimination d'une partie de l'anhydride maléique et des radicaux nitroxyle via des réactions secondaires à haute température semble toutefois inévitable. La substitution du peroxyde par une alcoxyamine dans le rôle d'abstracteur d'atome d'hydrogène a alors permis d'atteindre des taux de greffage en anhydride maléique supérieurs pour une modification des propriétés rhéologiques du polyéthylène équivalente. Néanmoins, des incertitudes demeurent encore sur le mécanisme de décomposition thermique de cette alcoxyamine permettant la réaction de greffage. / This work deals with melt grafting of maleic anhydride onto low density polyethylene using radical initiators which are able to abstract hydrogen from the polyolefin backbone. The use of a nitroxide radical as a termination reagent in presence of peroxide allowed to prevent the polyethylene crosslinking during the maleic anhydride grafting. Indeed, the polyethylene crosslinking is the main side reaction but the elimination of a small proportion of the reagents (monomer and nitroxide radical) through other side reactions seems to be unavoidable. The peroxide substitution by an alcoxyamine leaded to a higher grafted maleic anhydride rate for the same polyethylene rheological modification. Nevertheless, the thermal decomposition mechanism of the alcoxyamine which makes the grafting reaction possible is still uncertain.

Polyéthylène

Anhydride maléique

Greffage radicalaire

Radical nitroxyle

Alcoxyamine

Polyethylene

Maleic anhydride

Free radical grafting

Nitroxide radical

Alcoxyamine

541.224

Synthesis and electrochemical characteristics of nitroxide polymer brushes for thin-film electrodes

Hung, Miao-ken

27 June 2012

We reported a non-crosslinking approach to synthesize nitroxide radical polymer brushes for thin-film electrodes via surface-initiated atom transfer radical polymeization (SI-ATRP), which was effective to yield the organic radical polymer brushes with high grafting density and to attain a uniform surface. As mentioned above, the covalent bonding of nitroxide polymer brushes to the conducting substrate not only prevented the polymer dissolution into organic electrolyte solution but improved the cycle life performance of batteries. Moreover, they can be the potential application in microbatteries by using microcontact printing to produce the patterned nitroxide polymer brushes on a conducting substrate. Even though the organic radical polymer brushes provided a new approach to syn-thesize thin-film electrodes, they still existed many problems that needed to study and to figure out. We discussed the morphology and electrochemical performance about ni-troxide radical polymer in the thesis. In the measurement of surface properties, we used the contact angle, electron spectroscopy for chemical analysis (ESCA) and atomic force microscopic (AFM) to proceed. Another, in the measurement of electrochemical analysis, we used the cyclic voltammetry(CV), alternating current (AC) impedance and charge-discharge to understand the regarding mechanism in this polymer layer during the electrochemical reaction. In chapter 4, we discussed the oxidative problem in the polymer brushes. It should be well controlled during the oxidation reaction, because the oxidation level may affect the diffusion of electron that resulted the capacity better or not. In chapter5, we controlled the density of polymer brushes to construct the possible mechanism during the electro-chemical reaction, and found out the possible factors that affected the electrochemistry. In chapter 6, we applied the better results from the front chapter to the organic radical battery, and compared their electrical performance.

thin-film electrode

microcontact printing

polymer brush

nitroxide radical

organic radical battery.

Estudos por RPE de um radical nitróxido em monocristal: interação com prótons e relaxação eletrônica / EPR studies of a nitroxide radical in a single crystal: proton interactions and electronic relaxation

Alonso, Antonio

27 May 1986

No presente trabalho foram estudados os espectros de RPE de um radical nitróxido, 4-hidroxi-2,2,6,6-tetrametilpiperidina-l-oxil (TEMPOL, 11), introduzido como impureza em uma matriz diamagnética, 4-hidroxi-2,2,6,6-tetrametilpiperidina (I), de estrutura conhecida. O uso do radical deuterado, 4-hidroxi-2,2,6,6 -tetrametilpiperidina-d17-l-oxil (PD-TEMPOL, 111) mostrou um aumento considerável na resolução dos espectros para a maioria das orientações do campo magnético. A interação do grupo paramagnético N-O com os prótons vizinhos foram estudadas e os tensores superhiperfinos de dois prótons fortemente acoplados foram determinados. Um desses prótons forma ponte de hidrogênio com o grupo N-O e a distância estimada é 2,09ª&#176. Os autovalores do tensor são: -5,2; 5,4 e -5,1 gauss. O segundo próton está mais distanciado do radical e provavelmente não forma ponte com o radical. Os valores nas direções principais são: 2,0; -1,7;e -2,7 gauss. Com a finalidade de estudar o envolvimento dos prótons na relação eletrônica dos radicais foram estimados os tempos de relaxação T1 e T2 no intervalo de temperatura de -160 a 25&#176C através do método de saturação continua. Foram obtidos os valores em diversas orientações para os radicais protonado (II) e deuterado - (III) para compará-los. Os valores de T2 obtidos são praticamente constante no intervalo de temperatura onde foram medidos e sistematicamente são maiores para o radical deuterado. O tempo de relaxação spin-rede, T1 é dependente da orientação para ambos os radicais. Em geral é obtida urna dependência linear de T1-1 versus T que foi explicada considerando um mecanismo de relaxação por tunelamento dos protons vizinhos entre dois poços de potenciais. Para o radical protonado é observada uma descontinuidade na curva de T1-1 versu T na região de -60&#176C; para o radical deuterado - isto é observado somente para algumas orientações. Este comporta mento poderia ser explicado como devido o congelamento da vibração das pontes de hidrogênio em torno desta temperatura. Um alagamento das linhas de RPE é observado para muitas orientações a partir de -100D&#176C que foi interpretado como devido o congelamento da rotação dos grupos metilas, do radical no caso (II) e da matriz no caso (I) / In the present work the ESR spectra of a nitroxide radical, 4-hydroxi-2,2,6,6-tetramethylpiperidine-l-oxyl (TANOL, lI), introduced as impurity in a diamagnetic host, 4-hydroxi-2, 2,6,6-tetramethylpiperidine (1), of know structure, has been investigated. The use of the deuterated radical, 4-hydroxi-2,2, 6,6-tetramethylpiperidine-d17-1-oxyl (PD-TANOL, 111) showed an improved resolution in the ESR spectra for most orientations of the magnetic field. The interactions of protons in the neighbourhood of the paramagnetic group N-O were studied and the superhyperfine tensors for the two strongly compled protons were determined one of these protons is hydrogen bonded to the N-O and the distance is estimated to be 2,09ª&#176. The superhyperfine tensor has principal values -5.2; +5.4; -5.1 gauss. The second proton is further away from the electron and probably is not hydrogen bonded. The principal values for this proton are 2.0; -1.7 and -2,7 gauss. In order to study the involvment of the protons in the electronic relaxation of the radicaIs, the relaxation times T1 and T2 were estimated in the temperature range -160&#176C 25&#176C for many orientations and comparing data for the protonated and deuterated radicaIs II and III, using the continuous wave saturation method. It is shown that the relaxation time T2 is practically constant in the temperature range studied and that it is sistematically greater for the deuterated radical implying narrower lines. The spin-lattice relaxation time TI is dependent upon the orientation of the magnetic field for both radicaIs. In general a linear temperature dependence of T1-1 versus T is obtained and a mechanism of tunelling of protons between close potential walls in used to explain this behavior. In the case of the protonated radical for many orientations of the magnetic field a break is observed in the T1-1 versus T curve around -60&#176C for the deuterated radical this is observed only for fewer orientations. This behaviour could be explained as due to the freezing of hydrogen bonds vibration near this temperature. For many orientations it is also observed that below -100&#176C a broadening of the ESR lines occurs which is probably re1ated to the freezing of the rotations of the methyl groups of the radical, in the case of II, and of the hast I in the case of radical III

Electronic relaxation

EPR spectroscopy

Espectroscopia de RPE

Estudos de monocristal

Interações com prótons

Nitroxide radical

Proton interactions

Radical nitróxido

Relaxação eletrônica

Single crystal studies

Estudos por RPE de um radical nitróxido em monocristal: interação com prótons e relaxação eletrônica / EPR studies of a nitroxide radical in a single crystal: proton interactions and electronic relaxation

Antonio Alonso

27 May 1986

No presente trabalho foram estudados os espectros de RPE de um radical nitróxido, 4-hidroxi-2,2,6,6-tetrametilpiperidina-l-oxil (TEMPOL, 11), introduzido como impureza em uma matriz diamagnética, 4-hidroxi-2,2,6,6-tetrametilpiperidina (I), de estrutura conhecida. O uso do radical deuterado, 4-hidroxi-2,2,6,6 -tetrametilpiperidina-d17-l-oxil (PD-TEMPOL, 111) mostrou um aumento considerável na resolução dos espectros para a maioria das orientações do campo magnético. A interação do grupo paramagnético N-O com os prótons vizinhos foram estudadas e os tensores superhiperfinos de dois prótons fortemente acoplados foram determinados. Um desses prótons forma ponte de hidrogênio com o grupo N-O e a distância estimada é 2,09ª&#176. Os autovalores do tensor são: -5,2; 5,4 e -5,1 gauss. O segundo próton está mais distanciado do radical e provavelmente não forma ponte com o radical. Os valores nas direções principais são: 2,0; -1,7;e -2,7 gauss. Com a finalidade de estudar o envolvimento dos prótons na relação eletrônica dos radicais foram estimados os tempos de relaxação T1 e T2 no intervalo de temperatura de -160 a 25&#176C através do método de saturação continua. Foram obtidos os valores em diversas orientações para os radicais protonado (II) e deuterado - (III) para compará-los. Os valores de T2 obtidos são praticamente constante no intervalo de temperatura onde foram medidos e sistematicamente são maiores para o radical deuterado. O tempo de relaxação spin-rede, T1 é dependente da orientação para ambos os radicais. Em geral é obtida urna dependência linear de T1-1 versus T que foi explicada considerando um mecanismo de relaxação por tunelamento dos protons vizinhos entre dois poços de potenciais. Para o radical protonado é observada uma descontinuidade na curva de T1-1 versu T na região de -60&#176C; para o radical deuterado - isto é observado somente para algumas orientações. Este comporta mento poderia ser explicado como devido o congelamento da vibração das pontes de hidrogênio em torno desta temperatura. Um alagamento das linhas de RPE é observado para muitas orientações a partir de -100D&#176C que foi interpretado como devido o congelamento da rotação dos grupos metilas, do radical no caso (II) e da matriz no caso (I) / In the present work the ESR spectra of a nitroxide radical, 4-hydroxi-2,2,6,6-tetramethylpiperidine-l-oxyl (TANOL, lI), introduced as impurity in a diamagnetic host, 4-hydroxi-2, 2,6,6-tetramethylpiperidine (1), of know structure, has been investigated. The use of the deuterated radical, 4-hydroxi-2,2, 6,6-tetramethylpiperidine-d17-1-oxyl (PD-TANOL, 111) showed an improved resolution in the ESR spectra for most orientations of the magnetic field. The interactions of protons in the neighbourhood of the paramagnetic group N-O were studied and the superhyperfine tensors for the two strongly compled protons were determined one of these protons is hydrogen bonded to the N-O and the distance is estimated to be 2,09ª&#176. The superhyperfine tensor has principal values -5.2; +5.4; -5.1 gauss. The second proton is further away from the electron and probably is not hydrogen bonded. The principal values for this proton are 2.0; -1.7 and -2,7 gauss. In order to study the involvment of the protons in the electronic relaxation of the radicaIs, the relaxation times T1 and T2 were estimated in the temperature range -160&#176C 25&#176C for many orientations and comparing data for the protonated and deuterated radicaIs II and III, using the continuous wave saturation method. It is shown that the relaxation time T2 is practically constant in the temperature range studied and that it is sistematically greater for the deuterated radical implying narrower lines. The spin-lattice relaxation time TI is dependent upon the orientation of the magnetic field for both radicaIs. In general a linear temperature dependence of T1-1 versus T is obtained and a mechanism of tunelling of protons between close potential walls in used to explain this behavior. In the case of the protonated radical for many orientations of the magnetic field a break is observed in the T1-1 versus T curve around -60&#176C for the deuterated radical this is observed only for fewer orientations. This behaviour could be explained as due to the freezing of hydrogen bonds vibration near this temperature. For many orientations it is also observed that below -100&#176C a broadening of the ESR lines occurs which is probably re1ated to the freezing of the rotations of the methyl groups of the radical, in the case of II, and of the hast I in the case of radical III

Espectroscopia de RPE

Estudos de monocristal

Interações com prótons

Radical nitróxido

Relaxação eletrônica

Electronic relaxation

EPR spectroscopy

Nitroxide radical

Proton interactions

Single crystal studies

Chimie de coordination de radicaux nitronyl-nitroxyde pontants pour l’élaboration de matériaux magnétiques moléculaires : synthèse, structures cristallines, propriétés magnétiques et spectroscopie électronique / Coordination chemistry of bridging nitronyl-nitroxide radicals towards conception of molecule-based magnetic materials : synthesis, crystal structures, magnetic properties and electronic spectroscopy

Lannes, Anthony

23 September 2014

Au cours des dernières décennies, l'électronique s'est développée de manière à répondre au besoin grandissant de stocker et traiter toujours plus d'information, et elle a évolué de manière incessante vers une miniaturisation extrême. Dans ce contexte, les molécules-aimants, qui sont des entités moléculaires magnétiques, présentent une bistabilité magnétique permettant de stocker l'information dans des unités de la taille d'une molécule. Le principal frein aux applications tient aux basses températures auxquelles ces molécules présentent de telles propriétés (< 15K). Il est donc important de comprendre les mécanismes mis en jeu au sein de ces entités afin d'augmenter les températures de fonctionnement. Un moyen prometteur est de ponter deux ions de lanthanides par un ligand radicalaire. Cette approche a conduit à la conception de la molécule-aimant ayant à ce jour la plus haute température de blocage (14 K). Ce travail de thèse est dédié à la conception et à la caractérisation des structures, ainsi qu'à l'étude des propriétés magnétiques et des relations magnéto-structurales par spectroscopie électronique de molécules aimants et d'aimants à base moléculaires. Ces systèmes sont élaborés à partir d'ions de lanthanides(III) ou de manganèse(II) et de radicaux libres organiques de types nitronyl-nitroxyde. Une attention particulière sera dirigée vers la réalisation de complexes dinucléaires de lanthanides pontés par un ligand radicalaire, et sur l'étude de la brique monomérique. Nous avons exploré la possibilité d'utiliser le radical NITBzImH comme ligand radicalaire pontant des briques moléculaires de type [Ln(β- dicétone)3] et [Ln(NO3)3]. Nous nous sommes intéressés au comportement magnétique inhabituel d'un polymère de coordination de manganèse(II) pontés par les radicaux NITIm, parent de NITBzImH, puis nous avons commencé à nous intéresser à l'effet produit en remplaçant les manganèses(II) par des lanthanides(III) / For the past decades, electronics have been developed in order to meet the increasing need of information storage, always evolving to the constant upgrade of their components: better, faster, smaller. Twenty-five years ago, the recently created field of molecular magnetism allowed designing entities responding to the aforementioned requirements: Single- Molecule-Magnets (SMMs). On the one hand, those are compounds showing magnetic bistability affording to stock information and on the other hand, they are the smallest entities available to design any information support. In spite of those remarkable qualities, they require very low temperature (< 15 K) to display their properties. Thus, it is of primary importance to understand underlying mechanisms in order to increase this temperature range. One promising route is to connect lanthanide dimer by a radical bridge. This method has led to the discovery of a SMM, whose blocking temperature is the highest known to date (14 K). This thesis work has been dedicated to the conception of SMMs and molecular-based magnets, as well as the characterization of their structures and magnetic properties, and their magneto-structural relationships by electronic spectroscopy. Those systems were mostly based on lanthanide(III) or manganese(II) ion and nitronyl-nitroxide organic free radicals. A special focus was made to the synthesis of dinuclear lanthanide complexes bridged by an organic free radical, and to the study of their mononuclear complex. We have studied the potential of NITBzImH radical as a bridge for [Ln(β-diketonate)3] and [Ln(NO3)3] molecular bricks. We also took interest to the unusual magnetic behavior of a manganese(II) coordination polymer, where each metal center is bridged by a NITIm radical, closely related to NITBzImH radical. Finally, we started to explore the changes induced by switching manganese(II) to lanthanide(III)

Molécules-aimants

Lanthanides

Radical nitronyl-nitroxyde

Spectroscopie de luminescence

Spectroscopie Raman

Tautomérisme de valence

Single Molecule Magnets

Lanthanides

Nitronyl-nitroxide radical

Luminescence spectroscopy

Raman spectroscopy

Valence tautomerism

541.224 2

Nové přístupy k chemické modifikaci diamantových povrchů / Novel approaches to chemical modification of diamond surface

Bartoň, Jan

January 2020

1 Abstract Diamond is a unique material for its physical and chemical stability. However, many advance applications rely on surface functionalisation. Here, two types of diamond were modified on the surface - thin layer of chemical vapor deposition (CVD) and nanodiamond particles (NDs) high pressure and high temperature (HPHT). The aim of CVD surface modification was to prepare photosensitised, conductive, diamond electrodes for dye sensitized solar cells (DSSC). For this purpose, a thin diamond layer doped with boron was deposited on the silicon wafer. Boron doping provided p-type (semi)conductivity to diamonds. The surface of the diamond was hydrogenated with H-plasma, and a short carbon linker with a protected amino group was UV-photografted to the surface. In another study, a photoconverting dye (P1) was covalently attached to the amine-linker. Furthermore, a dye designed based on donor-π-acceptor (D-π-A) concepts was attached to the surface. Finally, a systematic study was done for differently conductive diamond layer and the underlying silicon wafer These experiments gradually lead to the highest ever reported photocurrents of 6.6 µA cm2 for a flat photosensitised boron-doped-diamond (BDD) electrode. Monomolecular layer surface functionalizations on CVD diamond are difficult to detect or even quantify...