Conception de sondes théranostiques moléculaires impliquand la PDT à excitation biphotonique / Conception of molecular theranostic probes implying two-photon excitation PDT

Galland, Margaux

28 June 2018

La thérapie photodynamique (PDT) est une technique thérapeutique qui permet un traitement localisé par irradiation lumineuse d’un photosensibilisateur (PS) grâce à la génération d’une espèce cytotoxique, généralement de l’oxygène singulet. Cependant, de nombreux PS sont également luminescents et les deux processus sont compétitifs. L’emploi de métaux de transition est connu pour améliorer le processus de PDT mais l’impact des ions lanthanides(III) en PDT est encore peu connu. Par ailleurs, l’utilisation de l’absorption biphotonique a de nombreux avantages parmi lesquels la possibilité d’exciter le PS dans la fenêtre de transparence biologique pour des applications en milieux biologiques.Les travaux de cette thèse visent à étudier quel est l’influence de la complexation d’un atome de lanthanide(III) à un PS sur la photophysique de désexcitation de ce dernier. Les complexes synthétisés et ceux étudiés ont montré que l’effet dépend du lanthanide(III). Il est ainsi possible, avec un choix judicieux du métal, de favoriser une voie de désexcitation par rapport à une autre. En particulier, l’ion Gd(III) se révèle avoir un effet bénéfique important pour la génération d’oxygène singulet et cet effet s’ajoute à celui que des atomes lourds comme le brome peuvent avoir. L’ion Yb(III) en revanche, favorise de manière générale le transfert d’énergie par effet d’antenne et la luminescence du lanthanide est alors le processus majoritaire. Enfin, l’emploi de Gd(III) complexé à un PS excitable à deux photons ouvre la voie à des agents théranostiques moléculaires combinant l’IRM en tant que fonction d’imagerie et la PDT pour la thérapie. / Photodynamic Therapy (PDT) is a therapeutic technique which consists in generating a highly reactive species, generally singlet oxygen, by shining light on a photosensitizer (PS). However, many PS are also luminescent and both processes are competitive. The use of transition metals is well known to enhance the PDT effect, but little is known about the effect of lanthanide(III) metals.On the other hand biphotonic absorption has numerous advantages, among them the possibility to excite the PS in the so-called biological transparency window for biological applications.The aim of this PhD is to get a better comprehension of the effect of complexation of a lanthanide(III) atom with a PS on the photophysics and deactivation pathways of the latter. The synthesis and conducted studies of lanthanide complexes showed that the effect is dependent on which lanthanide(III) metal is used. Thus by choosing carefully the lanthanide metal, one can favor one deactivation pathway over another. In particular, the Gd(III) ion turns out to be very efficient in promoting singlet oxygen generation and its effect is additive to the already known positive effect of heavy atoms such as bromine. On the opposite, the Yb(III) ion mainly favors the energy transfer through the antenna effect and the complex preferentially emits light.Finally, using Gd(III) linked to a two-photon excited PS opens the path to molecular theranostic probes combining MRI as a imagery technique and PDT as a therapeutic one.

Thérapie photodynamique

Oxygène singulet

Luminescence

Lanthanide

Macrocycles azotés

Photodynamic therapy

Singlet oxygen

Luminescence

Lanthanide

Azamacrocycles

Atividade de mieloperoxidase e produção de oxigênio singlete em neutrófilos e células monocíticas / Activity of Myeloperoxidase and singlet oxygen production in neutrophils and monocytic cells

Wilton Antonio da Silva Cruz

09 September 2010

A enzima mieloperoxidase (MPO), presente em leucócitos da linhagem granulocítica e monocítica, tem papel fundamental na produção de espécies reativas de oxigênio (ERO). Existem fortes evidências que alguns produtos gerados a partir de reações catalisadas por mieloperoxidase (MPO) tenham papel na sinalização celular. Dentre estes produtos, chama atenção o oxigênio singlete (1O2). Em fagócitos, esta ERO poderia participar tanto do processo de morte de patógenos, quanto da sinalização de eventos da inflamação. O nosso grupo de pesquisa trabalha com a hipótese de que a localização da MPO, e consequentemente, os sítios de produção de 1O2 definem a função da enzima e do 1O2. O interesse particular no 1O2 deve-se também ao fato de que sua detecção não é trivial e relativamente pouco é conhecido sobre sua produção por sistemas biológicos se comparado a outras EROs. Neste estudo trabalhamos com a questão da localização de MPO em neutrófilos e monócitos humanos e com a detecção de 1O2 através da utilização de sondas específicas. Nos experimentos realizados avaliamos a produção de 1O2 pela utilização da sonda 9,10 difenilantraceno (DPA) e também empregando o éster 9,10-antracenil-3-bispropionato de etila (ABPE) como captador de 1O2. Apesar da proposta de uso do DPA revestindo partículas a serem fagocitadas ter sido feita anteriormente (Garcia F., mestrado concluído em 2006) houve dificuldades na utilização desta técnica que foram reconsideradas neste trabalho. Com esta sonda também obtivemos imagens em microscopia confocal, através da fluorescência do DPA e perda desta fluorescência após reação com 1O2. As análises dos resultados com a microscopia confocal em neutrófilos confirmam que 1O2 está sendo realmente formado no fagolissosomo, quando as células são ativadas por partículas opsonizadas. Em monócitos também houve a possibilidade de utilizar DPA como sonda para 1O2. Neste caso observamos um decréscimo mais lento da fluorescência quando comparado com neutrófilos e também um apagamento mais difuso da sonda. Acreditamos que as diferenças observadas, na formação de 1O2, para neutrófilos e mononucleares em microscopia confocal podem ser devido a diferentes formas de compartimentalização da enzima nestes dois tipos celulares. É possível que isto tenha uma função biológica específica, uma vez que, 1O2 parece ser um importante sinalizador no processo inflamatório. Dado o interesse na detecção de 1O2 em células do sistema imune, também utilizamos uma nova sonda, o éster 9,10-antracenil-3-bispropionato de etila (ABPE). A detecção neste caso é feita pelo monitoramento de um endoperóxido por HPLC. Os resultados obtidos com essa nova sonda demonstram-se mais satisfatórios quando comparados ao DPA, permitindo uma melhor detecção da produção de 1O2 por fagócitos. / The enzyme myeloperoxidase (MPO), present in leukocytes of granulocytic and monocytic lineage, plays a fundamental role in the production of reactive oxygen species (ROS). There is strong evidence that some products generated from reactions catalyzed by myeloperoxidase (MPO) have a role in cell signaling. Among these products, calls attention singlet oxygen (1O2). In phagocytes, ROS could participate in this process both the death of pathogens, the signaling events of inflammation. Our research group works on the assumption that the location of the MPO, and consequently, the production sites to define the role of 1O2 and 1O2 enzyme. The particular interest in the 1O2 is also due to the fact that its detection is not trivial and relatively little is known about its production by biological systems compared to other ROS. In this study we worked with the question of localization of MPO in human neutrophils and monocytes and the detection of 1O2 by using specific probes. In the experiments we evaluated the production of 1O2 by use of a probe 9.10 difenilantraceno (DPA) and also using the 9.10-ester antracenil bispropionato-3-acid ethyl esters (ABPE) 1O2 as a pickup. Although the proposed use of the DPA coating particles to be phagocytized have been made previously (F. Garcia, MA completed in 2006) hove difficulties in using this technique have been reconsidered in this work. With this probe also obtained images in confocal microscopy, by fluorescence of DPA and loss of fluorescence after reaction with 1O2. The analysis of results with confocal microscopy confirmed that in neutrophils 1O2 is actually being formed in fagolissosomo, when cells are activated by opsonized particles. Monocytes were also able to use DPA as a probe to 1O2. In this case we observe a slower decrease in fluorescence when compared with neutrophils and also a more diffuse effacement of the probe. We believe that the observed differences in the formation of 1O2 for neutrophils and mononuclear cells in confocal microscopy may be due to different forms of compartmentalization of the enzyme in these two cell types. It is possible that this has a specific biological function, since, 1O2 seems to be an important sign in the inflammatory process. Given the interest in the detection of 1O2 cells of the immune system, also used a new probe, the 9.10-ester antracenil bispropionato-3-acid ethyl esters (ABPE). The detection in this case is made by an endoperoxide monitoring by HPLC. The results obtained with this new probe show is more satisfactory when compared to the DPA, allowing better detection of 1O2 production by phagocytes.

Espécies reativas de oxigênio

Mieloperoxidase

Monócitos

Neutrófilos

Oxigênio singlete

Monocytes

Myeloperoxidase

Neutrophils

Reactive oxygen species

Singlet oxygen

Desativação de estados singlete excitados de: (i) aldeídos alífáticos, por haletos de alquila (ii) antracenos, por sulfetos aromáticos / Deactivation of singlet excited states of: (I) aliphatic aldehydes, by alkyl halides (II) anthracene, by aromatic sulphides

Daisy de Brito Rezende

23 December 1986

Neste trabalho estudou-se a desativação de estados singlete 1π,π* e 1n, π* através da supressão da fluorescência de antraceno e de uma série de aldeídos alifáticos. Existem alguns dados na literatura referentes à supressão da fluorescência de compostos carbonílicos alifáticos por aminas, olefinas e haletos de alquila . No caso específico da desativação de estados 1n, π* de aldeídos alifáticos, alguns autores sugeriram a possibilidade de existir mais de um mecanismo envolvido no processo de supressão. Assim, delimitamos, como um dos objetivos deste trabalho, o estudo da natureza das interações envolvidas na supressão da fluorescência de aldeídos alifáticos por haletos de alquila. Foi possível determinar uma constante de supressão aparente apenas para o sistema pentanal-iodeto de etila. Verificamos que esta aparente supressão podia ser explicada por um efeito de absorção competitiva, dependente da concentração do supressor, no comprimento de onda de excitação (λ = 310 nm). Concluímos, também, que os dados de literatura referentes à supressão da fluorescência de cetonas por brometo de sec-butila podem ser explicados pelo tipo de purificação, inadequada, deste composto. Portanto, nossos resultados estão em das acordo com aqueles relatados para cetonas de estrutura análoga aos aldeídos estudados. De fato, concluímos que haletos de alquila não suprimem a fluorescência nem de alcanonas nem de aldeídos alifáticos. Estudou-se, também, a desativação de estados 1π,π* de compostos aromáticos. Embora este processo seja objeto de uma vasta gama de estudos, a natureza das interações envolvidas na estabilização do exciplex, proposto como intermediário na transferência de energia de vários processos endotérmicos, é objeto de alguma controvérsia. Neste trabalho, estudou-se a supressão de fluorescência de antraceno por sulfetos aromáticos derivados do tiofenol ou do tiocresol. As constantes experimentais de supressão foram calculadas através da equação de Stern-Volmer, utilizando-se as intensidades de fluorescência não-corrigidas. A ausência de correlação entre a cinética de supressão de fluorescência e os parâmetros de ressonância de excitação indica que este mecanismo não e o predominante na estabilização do exciplex. Por outro lado, estudando o efeito da temperatura, foi possível concluir que, a não ser para o derivado n-propílico do orto-tiocresol, não há ~ variação significativa do valor da constante de supressão, indicando que a magnitude da energia de ativação envolvida no processo de supressão é baixa. Ainda, verificamos que há correlação linear entre os parâmetros de Weller e as constantes de supressão, para todos os sulfetos, com exceção dos derivados n-propílicos que apresentam constantes de supressão maiores do que aquelas referentes a outros sulfetos de potencial de oxidação de mesma magnitude. o conjunto de dados pode ser explicado admitindo-se um processo de transferência de carga, onde o doador é o sulfeto e o aceptor é o antraceno e, no qual, a reversibilidade da formação do exciplex desempenhe um papel importante. / In this work fluorescence quenching of the 1π,π* states of anthracene and 1n, π* states of aliphatic aldehydes was studied. There are some literature data regarding fluorescence quenching of carbonyl aliphatic compounds by amines, olefins and alkylhalides. Specifically, for aliphatic aldehydes there is the possibility that quenching occurs by more than one path. We chose as one of the objectives of this work, to understand the nature of interactions in-the deactivation of singlet excited states of aliphatic aldehydes by alkylhalides. It was possible only to determine an apparent quenching rate constant for the pentanal-ethyliodide system. This apparent quenching is due to a competitive absorption effect, at the wavelength of excitation (310 nrn) ,which is proportional to the quencher concentration. We also verified that the reported fluorescence quenching of ketones by sec-butylbromide can be due to impurities present in the halide. The results obtained in the present work totally disagree with those reported for ketones with structure analogous to the aldehydes utilized. In fact, we conclude that alkylhalide do not quench the fluorescence of either alkanones or aliphatic aldehydes. We also studied the deactivation of1π,π* states of aromatic compounds. Although the literature contains several studies about fluorescence quenching of aromatic compounds, the nature of the binding energy of the excited complex is the object of some controversy. In this work, we studied fluorescence quenching of anthracene by aromatic sulphides derived from thiophenol or thiocresol. Quenching constants were calculated by means of the Stern-Volmer equation, employing uncorrected fluorescence intensities. The absence of correlation between fluorescence quenching kinetics and excitation resonance parameters indicates that this mechanism does not provide the maincontribution to exciplex stabilization. On the other hand, we found that, except for the n-propyl derivative of ortho-thiocresol, there was no significant variation of quenching rate constants with temperature, which indicates a low activation energy value for this processo We verified a linear correlation between fluorescence rate constants and Weller parameters except for n-propyl derivatives, whose rate constants are greater than sulphides of the same oxidation potential. The data obtained in this study can be explained assuming formation of a charge transfer complex between anthracene and the sulphide, the first being the acceptor and the,other being the charge donnor, in which case the reversibility of the exciplex formation step must play an important role.

Estado singlete excitado

Exciplexes

Supressão de fluorescência

Exciplexes

Excited singlet state

Fluorescence queching

Reatividade de lipídeos e metabólitos da cafeína frente a estados excitados de flavinas / Reactivity of lipids and caffeine metabolites front of excited states of flavins

Regina Spricigo Scurachio

18 September 2015

A presente tese descreve o estudo cinético e mecanístico da desativação do estado singlete- e triplete-excitado de flavinas por esteróis (colesterol e ergosterol), vitamina D, coenzima Q10, vitamina K, ácidos graxos e metabólitos da cafeína. Através da análise de Stern-Volmer da supressão de fluorescência da riboflavina pelo colesterol, ergosterol, vitamina D, vitamina K, e pela coenzima Q10 observa-se que o estado singlete excitado da riboflavina é desativado com constante de velocidade superior ao limite da difusão. No entanto, a presença de colesterol, ergosterol, vitamina D, vitamina K e coenzima Q10 não afeta o tempo de vida do estado singlete excitado da riboflavina como demonstrado por experimentos de contagem de fótons resolvido no tempo sugerindo a formação de um complexo precursor [riboflavina...substrato]. O complexo 1:1 formado entre a riboflavina e a vitamina D apresenta Ka = 4 x 104 ± 3 mol⋅L-1 a 25 0C com ΔH0 = -36 ± 7 kJ⋅mol-1 e ΔS0 = -5 ± 3 J⋅mol-1 ⋅K-1. O complexo 1:1 entre a riboflavina e a vitamina K (vit K) e a riboflavina com a coenzima Q10 (CoQ10) apresentam Ka = 1 x 103 ± 1 mol⋅L-1 com ΔH0 = -110 ± 22 kJ⋅mol-1 e ΔS0 = 51 ± 9 J ⋅mol-1⋅K-1 para a vit K e Ka = 4 x 102 ± 1 mol⋅L-1, ΔH0 = -120 ± 27 kJ ⋅mol-1 e ΔS0 = 41 ± 7 J ⋅mol-1⋅K-1 para a CoQ10 a 25 0C. Para a desativação do estado triplete da riboflavina, foram obtidas constantes bimoleculares de velocidade variando de 1,4 x 108 L ⋅mol-1⋅s-1 (vit D) a 1,4 x 109 L ⋅mol-1⋅s-1 (CoQ10). Observa-se supressão da emissão de fluorescência da riboflavina na presença de metabolitos da cafeína, no entanto, sem alterar o tempo de vida do estado singlete excitado da riboflavina sugerindo a formação de um complexo precursor [riboflavina...substrato]. O complexo formado entre a riboflavina e os metabólitos da cafeína apresentam Ka = 295 ± 1 mol⋅L-1 com ΔH0 = -45 ± 8 kJ⋅mol-1 e ΔS0 = 12 ± 1 J⋅mol-1⋅K-1 para o ácido 1,7-dimetil úrico, Ka = 289 ± 1 mol⋅L-1 com ΔH0 = -38 ± 5 kJ ⋅mol-1 e ΔS0 = 9 ± 2 J ⋅mol-1⋅K-1 para o ácido 1-metil úrico e Ka = 275 ± 1 mol⋅L-1 com ΔH0 = 16 ± 3 kJ ⋅mol-1 e ΔS0 = 6 ± 1J ⋅mol-1⋅K-1 para a 1,7-dimetilxantina a 25 0C. Para a desativação do estado triplete da riboflavina, foram obtidas constantes de velocidade de 3kq = 4,2 x 108 L.mol-1.s-1 para a 1,7-dimetilxantina, 3kq = 1,0 x 108 L.mol-1.s-1 para o ácido 1,7-dimetil úrico e 3kq = 1,4 x 108 L.mol-1.s-1 para o ácido 1-metil úrico. Os ésteres metílicos (oleato de metila, ácido linoléico conjugado (CLA), linoleato de metila, linolenato de metila, araquidonato de metila, eicosapentanoato de metila, e docosahexanoato de metila) não desativam o estado singlete-excitado da riboflavina. Entretanto, os ésteres metílicos se mostraram reativos frente ao estado triplete da riboflavina com constantes de velocidades 3kq variando de 8,4 x 105 a 3,3 x 107 L⋅smol-1 ⋅s-1 com uma dependência linear do número de hidrogênios bis-alílicos com excessão do CLA. / The present thesis describes the kinetic and mechanistic studies of flavin singlet- and triplet-excited states deactivation by sterols (ergosterol and cholesterol), vitamin D, coenzyme Q10, vitamin K, fatty acids, and caffeine metabolites. From the Stern-Volmer analysis of the riboflavin fluorescence quenching by cholesterol, ergosterol, vitamin D, vitamin K and coenzyme Q10, it is noted that the singlet-excited state of riboflavin is deactivated with a rate constant exceeding the diffusion limit. However, the presence of cholesterol, ergosterol, vitamin D, vitamin K, coenzyme Q10 did not affect the lifetime of singlet-excited riboflavin as probed by single photon counting experiments suggesting the formation of a ground-state precursor complex [riboflavin ...substrate]. The 1:1 complex formed between riboflavin and vitamin D showed Ka = 4 x 104 ± 3 mol⋅L-1 a 25 0C with ΔH0 = -36 ± 7 kJ⋅mol-1 and ΔS0 = -5 ± 3 J⋅mol-1 ⋅K-1. The 1:1 complex formed between riboflavin and vitamin K (vit K) and riboflavin with coenzyme Q10 (CoQ10) showed Ka = 1 x 103 ± 1 mol⋅L-1 with ΔH0 = -110 ± 22 kJ⋅mol-1 and ΔS0 = 51 ± 9 J ⋅mol-1⋅K-1 for vit K e Ka =4 x 102 ± 1 mol⋅L-1, ΔH0 = -120 ± 27 kJ ⋅mol-1 and ΔS0 = 41 ± 7 J ⋅mol-1⋅K-1 for CoQ10 a 25 0C. For the deactivation of triplet riboflavin, bimolecular rate constants were found to vary from 1,4 x 108 L ⋅mol-1⋅s-1 (vit D) a 1,4 x 109 L ⋅mol-1⋅s-1 (CoQ10). The caffeine metabolites quench fluorescence emission of riboflavin however, without affecting the lifetime of the singlet-excited state, suggesting the formation of a ground state precursor complex [riboflavin ... substrate]. The complex formed between riboflavin and caffeine metabolites showed Ka = 295 ± 1 mol⋅L-1 with ΔH0 = -45 ± 8 kJ⋅mol-1 and ΔS0 = 12 ± 1 J⋅mol-1⋅K-1for 1,7-dimetyl uric acid, Ka = 289 ± 1 mol⋅L-1 with ΔH0 = -38 ± 5 kJ ⋅mol-1 and ΔS0 = 9 ± 2 J ⋅mol-1⋅K-1 for 1-methyl uric acid and Ka = 275 ± 1 mol⋅L-1 with ΔH0 = 16 ± 3 kJ ⋅mol-1 and ΔS0 = 6 ± 1J ⋅mol-1⋅K-1 for 1,7-dimethylxanthine at 25 0C. For the deactivation of triplet riboflavin, rate constant were obtained with 3kq = 4,2 x 108 L.mol-1.s-1 para a 1,7-dimethylxanthine, 3kq = 1,0 x 108 L.mol-1.s-1 for 1,7-dimethyl uric acid, and 3kq = 1,4 x 108 L.mol-1.s-1 for 1-methyl uric acid. The methyl esters (methyl oleate, conjugated linoleic acid (CLA), methyl linoleate, methyl linoleate, methyl arachidonate, methyl eicosapentanoate, and methyl docosahexanoate) did not quench the singlet-excited riboflavin. However, the methyl esters were shown to be reactive towards triplet riboflavin with rate constants ranging from 8,4 x 105 a 3,3 x 107 L⋅mol-1 ⋅s-1and depending linearly with the number of bis-allylic hydrogens with exception to CLA.

estado triplete

estado singlete

flavinas

Lipideos

metabólitos da cafeína

caffeine metabolites

flavins

Lipids

singlet state

triplet state

Transformation of Trace Organic Contaminants Involving Reactive Oxygen Species Driven By Solar Lights

Vo, Hao T.H., Vo, Hao T.H.

January 2017

The presence of trace organic compounds (TOrCs) in wastewater effluent and surface waters has raised attention due to their health and environmental effects. Some TOrCs are naturally attenuated via biodegradation, photo-degradation and/or adsorption, but some persist in the environment as contaminants in surface and ground waters. Thus, it is crucially important to understand their transformation pathways and their mechanisms following their discharge into the environment. This work presents research in three parts: • The first part represents an investigation of photo-transformation of TOrCs (e.g., furfuryl alcohol, p-cresol, gemfibrozil) under UV254, UVA and natural sunlight, and involving reactive oxygen species including singlet oxygen, hydroxyl radicals, triplet excited states, and specific inorganic radicals that are created by effluent organic matter (EfOM). Singlet oxygen was the only ROS, generated from effluent organic matter (EfOM) that mainly contributed to the photo-transformation of these selected TOrCs. A comprehensive mechanism and complementary kinetic model were proposed to predict the trajectories of TOrC removals via reaction with singlet oxygen. Simulations built on predicted quantum efficiencies accounted for light shading and competitive effects. Agreement between measurements and simulations was excellent. • The second part of the dissertation summarizes expected removal efficiencies for fifty-five TOrCs in alternative engineered and natural treatment processes including conventional biological treatment, advanced oxidation processes (AOP), reverse osmosis (RO), granular activated carbon (GAC), and sunlight photolysis. • The last section of the dissertation follows the trajectories of a series of TOrCs and total estrogenic activity in the Santa Cruz River, following their discharge from a wastewater treatment plant in the Tucson area. The study suggests that some TOrCs tend to persist in the environment while others experience photo (or other) transformations that diminish their concentrations or activities with distance and time of travel in the river. The attenuation of estrogenic activity was dependent on sunlight and the presence of specific (unidentified) wastewater components.

Advanced oxidation process

Direct photolysis

Indirect photolysis

Photolysis

Reactive oxygen species

Singlet oxygen

Preserving hyperpolarised nuclear spin order to study cancer metabolism

Marco-Rius, Irene

January 2014

Monitoring the early responses of tumours to treatment is a crucial element in guiding therapy and increasing patient survival. To achieve this, we are using magnetic resonance imaging (MRI), which can provide detailed physiological information with relatively high temporal and spatial resolution. In combination with the dynamic nuclear polarisation (DNP) technique, high signal-to-noise is obtained, resulting in a powerful tool for in vivo 13C metabolic imaging. However, detection of hyperpolarised substrates is limited to a few seconds due to the exponential decay of the polarisation with the longitudinal relaxation time constant T1. This work aimed to improve the combination of hyperpolarisation and metabolic NMR/ MRI by extending the observation timescale of the technique. Working with quantum mechanical properties of the detected substrates, long lifetimes might be accessible by using the nuclear singlet configuration of two coupled nuclei. The singlet state is immune to intramolecular dipole-dipole relaxation processes, which is one of the main sources of signal decay in MRI. In favourable situations, the singlet relaxation time constant can be much longer than T1, so transfer of the polarisation into the singlet state may allow one to extend the usable time period of the nuclear hyperpolarisation. Here we studied the relaxation of hyperpolarised metabolites, including those found in the TCA cycle, and examined the possibility of extending their observation timescale by storing the polarisation in the long-lived singlet state. The polarisation remains in this state until it is eventually required for imaging. We also investigate how one may track polarised metabolites after injection into a subject due to the transfer of polarisation to the solvent by Overhauser cross-relaxation, so that the 13C polarisation remains untouched until imaging is required. In this way we should be able to interrogate slower metabolic processes than have been examined hitherto using hyperpolarised 13C MRS, and better understand metabolic changes induced in tumours by treatment.

616.99

Synthesis of Peropyrene and Tetracene Derivatives for Photochemical Applications

Rodríguez López, Marco Tulio

05 1900

A novel route for the synthesis of the polycyclic aromatic hydrocarbon peropyrene (Pp) is reported along with the efforts to synthesize derivatives of Pp, 2,2′- and 5,5′-linked tetracene dimers as candidates for study as singlet fission materials in photovoltaic devices. Peropyrene was synthesized by the McMurry coupling conditions from phenalenone and low-valent titanium species. The crystal structure of Pp is formed by π-stacked molecular pairs in a herringbone arrangement. The direct functionalization of Pp was studied, and several indirect methods for the functionalization of Pp via phenalenone derivatives are reported. Nucleophilicly dependent, regioselective Michael addition pathways for phenalenone are described. Phenalenone forms a nucleophilic complex with bispinacolatodiboron and yields chiral 3,3′-linked phenalenone dimers and a bicyclo[3.2.1]octane derivative product of an unusual 3,4 addition. An active complex product of phenalenone and (dimethylphenylsilyl)boronic acid pinacolic ester forms Pp directly. The synthesis of 2,2′- and 5,5′-linked tetracene dimers led to the study of the reduction of 1-arylprop-2-yn-1-ol derivatives via TFA-catalyzed hydride transfer from triethylsilane. Substrates with terminal and TMS-protected alkynes showed silane exchange upon reduction. A TMS-protected, terminal alkyne became triethylsilyl-protected by about 50% whereas only triethylsilyl-protected, terminal alkyne was observed from the reduction of an unprotected, terminal alkyne. A new conformational polymorph of 1,4-bis(triisopropylsilyl)buta-1,3-diyne is reported. Five other rotamers are studied by density functional theory as possible candidates of conformational polymorphism by the analysis of torsional strain energies. The relative stabilities and interconversion equilibria of the seven conformational isomers are studied.

peropyrene

phenalenone

tetracene

singlet fission

3,4 addition

silane exchange

conformational polymorphism

Dimers.

Investigating Photosensitized Properties of Natural Organic Matter and Effluent Organic Matter

Niu, Xi-Zhi

05 1900

The photosensitized processes significantly enhance photolysis of various chemicals in the aqueous system with dissolved organic matter (DOM) as sensitizer. The excitation of chromophores on the DOM molecule further generates reactive species as triplet states DOM, singlet oxygen, hydroxyl radical, carbonate radical etc. We investigated the photosensitization properties of Beaufort Fulvic Acid, Suwannee River Fulvic Acid, South Platte River Fulvic Acid, and Jeddah wastewater treatment plant effluent organic matter with a sunlight simulator. DOM photochemical properties were characterized by observing their performances in 3DOM*, singlet oxygen, hydroxyl radical production with indirect probing protocols. Sensitized degradation of 0.1 μM and 0.02 μM 2, 4, 6- Trimethylphenol exhibited higher pseudo-first-order rate constant than that of 10 μM. Pre-irradiated DOMs were found to be depressed in photochemical properties. Photolysis of 5 different contaminants: ibuprofen, bisphenol A, acetaminophen, cimetidine, and caffeine were found to be enhanced in the presence of sensitizers. The possible reaction pathways were revealed. Long time irradiance induced change in contaminants degradation kinetics in some DOM solutions, which was proposed to be due to the irradiation initiated indirect transformation of DOMs. Key Words: Photolysis Dissolved Organic Matter, Triplet State DOM, Singlet Oxygen, Hydroxyl Radical, Contaminants Degradation.

Photolysis Dissolved Organic Matter

Triplet State DOM

Singlet Oxygen

Hydroxyl Radical

Contaminants Degradation

Control of Spin State Dynamics in Quantum Dot-Molecular Composites for Energy Multiplication / エネルギー増倍を目指した量子ドット－有機分子複合系におけるスピンダイナミクスの制御

Zhang, Jie

25 January 2021

京都大学 / 0048 / 新制・課程博士 / 博士(理学) / 甲第22876号 / 理博第4642号 / 新制||理||1667(附属図書館) / 京都大学大学院理学研究科化学専攻 / (主査)教授 寺西 利治, 教授 島川 祐一, 教授 長谷川 健 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DGAM

Quantum dots

Singlet fission

Photon upconversion

Energy transfer

Triplet states

400

Mobility of small molecules in PEO-PPO-PEO triblock copolymer (F127 and P104) hydrogels

Hosseini Nejad, Heliasadat

12 August 2021

Pluronics are triblock copolymers of poly(ethylene oxide) (PEO) and poly(propylene oxide) (PPO) available in different molecular weights and PPO/PEO ratios. Pluronic hydrogels are able to dissolve hydrophobic compounds and they have application in different areas including drug delivery systems and oil recovery. The structure of Pluronic polymers can be designed for specific application by changing the size and ratio of the PPO and PEO blocks. In aqueous environments, the PPO blocks of different unimers form aggregates as they are more hydrophobic compared to the PEO blocks, and in the aggregates the PPOs have less exposure to water. The PEO blocks that are still hydrophilic remain soluble in water and form a shell around the PPO aggregated core. Moreover, some of the Pluronic copolymer aqueous solutions can form hydrogels at elevated temperatures. The aim of this thesis is to study the microheterogeneity of two different Pluronic hydrogels using singlet excited state probes and also study the mobility of small molecules in Pluronic hydrogels using triplet excited state probes. In the first project, the properties of different microenvironments in Pluronic F127 (PEO99PPO65PEO99) were characterized. The quenching of singlet excited state probes was used to determine the number and characteristics of solubilization sites in F127 hydrogels. This method was used to gain information on the accessibility of different quenchers to singlet excited molecules bound to the micellar structures. Singlet excited states are short lived, and these excited states do not move within the gel before their decay to the ground state. The techniques used for these studies were steady-state fluorescence and time-resolved fluorescence spectroscopies. My results showed that there are different solubilization sites in F127 micelles and the accessibility of quenchers to the singlet excited molecules bound to the micellar structure depends on the nature of the quencher and the size of the excited molecules. In the second project, the different microenvironments in Pluronic P104 (PEO27PPO61PEO27) were characterized, and these results were compared with those obtained for the Pluronic F127. Pluronic P104 has similar units of PPO blocks as F127 but different units of PEO blocks which results in different properties between these two Pluronic copolymers. My results showed that the solubilization sites inside Pluronic micelles changes with the change in PEO/PPO ratio. In the third project, I studied the mobility of different small molecules between aqueous and micellar environments in the F127 hydrogel by quenching triplet excited state probes. Excited triplet states are suitable for such studies because their lifetimes are longer than the lifetimes for singlet excited states. The laser flash photolysis technique was used for this aim. The results showed that the exit from the micellar environment is slow and depend on the size and hydrophobicity of the probe molecules. / Graduate / 2022-05-11

Pluronic

hydrogel

fluorescence

singlet excited state

triplet excited state

quenching

supramolecular dynamics