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SYNTHESIS, CHARACTERIZATION AND APPLICATIONS OF REDUCED GRAPHENE OXIDE AND COMPOSITE MEMBRANES FOR SELECTIVE SEPARATIONS AND REMOVAL OF ORGANIC CONTAMINANTSAher, Ashish 01 January 2019 (has links)
Among the next generation materials being investigated for membrane development, partially reduced Graphene Oxide (rGO) has received increasing attention from the membrane community. rGO-based nanofiltration membranes have shown promising results in applications such as partial desalination, organic contaminant removal, gas-phase separations, and separations from solvent media. rGO offers a unique platform compared to common polymeric membranes since it can be used for separation applications in both aqueous and organic solvent media. An rGO-based platform could also be utilized to synthesize reactive membranes, giving rGO membranes the additional capability of reactively removing organic contaminants. This research focuses on the synthesis of rGO and nanocomposite membranes for applications including the separation of high-value phenolic compounds from a solvent-water mixture, removal of organic contaminants, and treatment of refinery wastewater.
First, the behavior of a rGO membrane in water and isopropanol was investigated along with its ability to separate high-value, lignin-derived oligomeric compounds from a solvent-water mixture. This study revealed the formation of stable sorbates of water in the GO channels that resulted in declined membrane permeance and improved size-exclusion cutoff. Through controlled reduction of GO by heat treatment, it was demonstrated that physicochemical properties of the GO membrane could be modulated and separation performance tuned based on the extent of reduction. A varying degree of interlayer spacing was attained between the GO laminates by controlling the O/C ratio of GO. This allowed the rGO membrane to achieve tunable molecular separation of lignin-derived model oligomeric compounds from a solvent-water mixture.
Second, the mechanism of ionic transport through the rGO membrane was studied as well as its application in partial desalination and removal of persistent organic contaminants from water. Through comprehensive experimental investigations and mathematical analysis, along with the aid of the extended Nernst Planck equation, the impacts of steric hindrance and charge interactions on the underlying ion transport mechanism were quantified. Charge interactions were observed to be the dominant exclusion mechanism for the rGO membranes. The application of rGO membranes for treatment of high TDS produced water was investigated with the goal of partial hardness and dissolved oil removal. In addition, this study demonstrated the removal of emerging organic contaminants, specifically perfluorooctanoic acid, by rGO membranes and elucidated a charge interaction-dominated exclusion mechanism for this contaminant, as well.
Finally, rGO-based and microporous polyvinylidene fluoride (PVDF)-based catalytic membrane platforms were synthesized for removal of organic contaminants via an oxidative pathway. Herein, an advanced oxidation process was integrated with membrane technology by the in-situ synthesis of Fe-based nanoparticles. The unique capability to oxidatively remove contaminants in a continuous mode of operation was explored in addition to the separation performance of the membrane. The rGO-based platform achieved high oxidative removal of trichloroethylene via a sulfate-free, radical-mediated pathway, while simultaneously removing humic acids from water and potentially eliminating undesired side reactions. A PVDF-based microporous catalytic membrane platform was shown to effectively remove organic impurities, such as Naphthenic acids, from high TDS produced water by the same pathway. The enhancement of reaction extent for elevated temperatures and longer residence times was also quantified in this study.
These studies benefit the membrane community in the following ways: 1) The work identifies the critical role of the physicochemical properties of GO, such as the O/C ratio and water sorption, for determining the permeability-selectivity of rGO membranes for solvent nanofiltration. 2) Investigations of ion transport through rGO membranes led to an understanding of a charge-dominated separation mechanism for ion retention. The Nernst-Planck equation-based approach employed in this study would enable further assessment and comparison of rGO membranes under a wide set of parameters. 3) Catalytic membrane platforms (rGO and microporous PVDF-based) were synthesized for conducting advanced oxidation reactions in the porous membrane domain, demonstrating potential applications in environmental remediation of organic contaminants.
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Characterization of high-density prion protein oligomers in rapid progressive and sporadic Alzheimer’s diseaseShafiq, Mohsin 14 January 2019 (has links)
No description available.
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Using native mass spectrometry to study the role of homo-oligomeric proteins in gene regulation by using TRAP as a model protein systemHolmquist, Melody L. 06 November 2020 (has links)
No description available.
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Synthesis and photophysical property investigation of beads on a chain (BoC) silsesquioxane hybrid oligomers: probable pseudo conjugationMahbub, Shahrea 29 August 2022 (has links)
No description available.
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Synthesis and Characterization of Molecules and π-Conjugated Materials Containing Low-Coordinate PhosphorusChen, Xufang January 2005 (has links)
No description available.
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Validation fonctionnelle d'approches nutritionnelles à allégation "Bien veillir", capables de prévenir le vieillissement cérébral et les maladies neurodégénératives / Functional validation of nutritional approaches to allegation "well aging", able to prevent brain aging and neurodegenerative diseasesAllouche, Ahmad 13 December 2012 (has links)
La maladie d'Alzheimer (MA) est une démence neurodégénérative caractérisée par des pertes de la mémoire et des troubles cognitifs. La toxicité des oligomères solubles du peptide [bêta]-amyloïde (A[bêta]Os) est centrale dans la phase précoce de la maladie. L'absence de traitements curatifs, l'aspect chronique des mécanismes pathogéniques et le partage de facteurs de risque communs avec les pathologies cardiovasculaires, notamment les paramètres alimentaires et le métabolisme lipidique, doivent inciter à considérer l'intérêt de méthodes préventives permettant d'empêcher l'apparition de la maladie. Dès lors, l'approche nutritionnelle apparaît comme une stratégie capable de limiter sa prévalence. Une souris modèle des stades précoces de MA nous a permit d'évaluer le potentiel préventif d'une alimentation enrichie en acide docosahexaénoïque (DHA, C22:6, n-3). Les résultats obtenus montrent qu'un apport alimentaire suffisant en DHA conduit à en enrichir les membranes dans les différentes structures cérébrales. En conséquence, les fonctions synaptiques sont préservées, même après exposition aigüe aux A[bêta]Os, ce qui maintient les capacités cognitives des souris exposées. Nous avons ensuite développé des stratégies nutritionnelles permettant d'évaluer les effets bénéfiques de DHA contre la dyslipidémie induite par l'alimentation et les déficits cognitifs associés au vieillissement normal ou pathologique. Les résultats obtenus à l'issue de notre étude révèlent qu'un apport alimentaire en DHA est capable de prévenir la dyslipidémie provoquée par un régime riche en lipides et de retarder le déclin cognitif lié au vieillissement cérébral normal ou pathologique / Alzheimer's disease is a neurodegenerative aging-related dementia that is characterized by loss of memory and cognitive disorders. Toxicity of soluble oligomers of [beta]-amyloid peptide (sOA[beta]) is a key element in early stages of the disease. Absence of curative therapies, chronic aspects of the pathogenic mechanisms implicated and influence of common risk factors shared with the cardiovascular diseases, including dietary parameters and lipid metabolism, should widely encourage considering the interest of preventive interventions allowing slowing the progression and delaying the clinical onset of Alzheimer's-related troubles. Therefore, nutritional approaches could appear as a strategy able to reduce the prevalence of this disease. Early Alzheimer's mouse model allowed us to assess the preventive potential of diets supplemented in docosahexaenoic acid (DHA, C22:6 n-3). Our results show that adequate dietary intake of DHA lead to increased levels in different brain structures. Consequently, hippocampal and cortical synaptic functions were preserved, even upon acute exposure to A[beta] oligomers, maintaining or improving the cognitive capacities of A[beta]-exposed mice. These improvements were positively correlated with DHA-enrichment associated in hippocampus and with preserved synaptic integrity. We also designed nutritional strategies in order to evaluate the beneficial effects of DHA on diet-induced dyslipidemia as well as on cognitive impairment and neurodegenerative processes associated with normal or pathologic aging. Our results show that dietary DHA can prevent high-fat diet-induced dyslipidemia and delay cognitive decline related with normal or pathological aging
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Estudo comparativo da neuroproteção por anticorpos anti-A? contra a toxicidade de oligômeros de A? em cultura diferenciada de neuroblastoma humano / Comparative study of neuroprotection by anti-A? antibodies against the toxicity of A? oligomers in differentiated culture of human neuroblastomaPinheiro, Nathalia Réges 15 August 2017 (has links)
A Doença de Alzheimer (DA) é a principal causa de demência na população idosa e tende a se tornar um grave problema de saúde pública com o aumento da expectativa de vida da população mundial. A perda progressiva de memória, principal sintoma da demência em pacientes com DA, é atribuída a danos sinápticos e à perda neuronal desencadeadas pelo desequilíbrio entre a produção e a depuração do peptídeo A?. Evidências surgidas nos últimos 20 anos apontam os oligômeros solúveis de A? (A?O), produtos de agregação do peptídeo A?, como as principais espécies neurotóxicas na DA. Por conta disso, e também pela ausência de métodos diagnósticos pre-mortem e tratamento eficientes para essa demência, a busca por anticorpos conformacionais específicos para A?O está em ascensão. Testes clínicos com IgG anti-A? resultaram em efeitos colaterais inflamatórios mediados pela porção não variável Fc. Então, anticorpos conformacionais artificiais do tipo scFv, desprovidos de porção Fc, foram selecionados contra A?O. Dentre eles, está NUsc1, que é neuroprotetor contra A?O em cultura primária de neurônios. Neste trabalho, avaliamos a toxicidade de A?Os na linhagem de neuroblastoma humano SH-SY5Y diferenciada em neurônios maduros e comparamos a neuroproteção conferida por diferentes anticorpos contra A?Os, por ensaio de viabilidade celular com MTT. Também avaliamos a especificidade de NUsc1 por A?O comparativamente a lisozima monomérica e oligomérica em ensaio de ELISA, já que outros anticorpos conformacionais reconhecem epítopo compartilhado por estados oligoméricos de outras proteínas amiloidogênicas. Para a validação de células SH-SY5Y como modelo in vitro de neurônios maduros, a diferenciação foi induzida com ácido retinoico e BDNF e as células foram marcadas para as proteínas MAP2 e NeuN em ensaio de imunofluorescência. Células submetidas ao protocolo de diferenciação apresentaram aumento dos níveis dessas proteínas, mudança morfológica condizente com o esperado na maturação neuronal. Posteriormente, o desafio da cultura com A?O indicou morte celular dose-dependente e reversão desta morte segundo a dose administrada dos anticorpos 6E10 e NU-4. Obtivemos um sinal cerca de 400 vezes maior no reconhecimento de A?O por NUsc1 que para oligômeros de lisozima, quando presentes na mesma concentração, indicando forte especificidade de NUsc1 por A?O. Além disso, NUsc1 purificado em sistema de gelfiltração em HPLC não apresenta citotoxicidade em concentração equivalente a dos anticorpos 6E10 e NU-4 em ensaios de neuroproteção em cultura de SH-SY5Y diferenciada, sugerindo que, se NUsc1 for tão eficiente quanto estas IgG\'s, este poderá ser usado em dose não citotóxica. Portanto, podemos concluir que NUsc1 apresenta grande potencial como ferramenta diagnóstica e terapêutica para a DA, mas que mais experimentos para expandir sua validação e potencial ainda são necessários. / Alzheimer\'s Disease (AD) is the leading cause of dementia in the elderly population and tends to become a serious public health problem with increasing life expectancy of the world\'s population. Progressive memory loss, the main symptom of dementia in patients with AD, is attributed to synaptic damage and neuronal loss triggered by imbalance between production and clearance of the A? peptide. Evidence from the last 20 years indicates that soluble A? oligomers (A?O), A? peptide aggregation products, as the main neurotoxic species in AD. Because of this, and also because of the absence of efficient pre-mortem diagnostic and treatment methods for this dementia, the search for conformational antibodies specific for A?O is on the rise. Clinical tests with anti-A? IgG\'s resulted in inflammatory side effects mediated by the non-variable Fc portion. Then, artificial conformational antibodies of the scFv type, lacking the Fc portion, were selected against A?O. Among them is NUsc1, which is neuroprotective against A?O in primary neuronal culture. In this work, we evaluated the toxicity of A?Os in the differentiated SH-SY5Y human neuroblastoma line in mature neurons and compared the neuroprotection conferred by different antibodies against A?O types by MTT cell viability assay. We also evaluated the specificity of NUsc1 for A?O compared to monomeric and oligomeric lysozyme in the ELISA assay, since other conformational antibodies recognize epitope shared by oligomeric states of other amyloidogenic proteins. For the validation of SH-SY5Y cells as an in vitro model of mature neurons, differentiation was induced with retinoic acid and BDNF and the cells were labeled for MAP2 and NeuN proteins in immunofluorescence assay. Cells submitted to the differentiation protocol presented increased levels of these proteins, a morphological change consistent with the expected neuronal maturation. Subsequently, the challenge of culture with A?O indicated dose-dependent cell death and reversion of this death according to the administered dose of 6E10 and NU-4 antibodies. We obtained a 400-fold higher signal in the recognition of A?O by NUsc1 than for lysozyme oligomers, when present at the same concentration, indicating strong specificity of A?O by NUsc1. In addition, NUsc1 purified on HPLC gel-filtration system does not exhibit cytotoxicity at concentration equivalent to 6E10 and NU-4 antibodies in neuroprotection assays in differentiated SH-SY5Y culture, suggesting that, if NUsc1 is as efficient as these IgG\'s, it may be used in a non-cytotoxic dose. Therefore, we can conclude that NUsc1 presents great potential as a diagnostic and therapeutic tool for AD, but that further experiments to expand its validation and potential are still necessary.
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Implication de la phospholipase A2 cytoplamique dans la pathogénèse de la maladie d'Alzheimer / Involvement of cytosolic phospholipase A2 in Alzheimer's disease pathogenesisDesbene, Cédric 12 November 2012 (has links)
Les oligomères solubles de peptide Bêta-amyloïde (A-bêta) apparaissent comme les acteurs majeurs de la perte synaptique précoce observée au cours de la maladie d'Alzheimer. Notre équipe a précédemment montré que ces oligomères de peptide A-bêta activent la phospholipase A2 cytosolique (cPLA2), qui entraîne la libération d'acide arachidonique à partir des phospholipides membranaires. En utilisant un modèle d'injection intra cérébro ventriculaire unique d'une faible quantité de peptide A-bêta, nous avons pu observer que l'inactivation constitutive du gène de la cPLA2 protége les souris KO contre les perturbations mnésiques et empêche la réduction de l'expression de protéines synaptiques au sein de l'hippocampe, ces deux effets délétères étant constatés chez les animaux wild-type. Par la suite, nous avons montré que l'activation des sphingomyélinases, consécutive à l'exposition aux oligomères A-bêta, est indétectable dans des neurones en culture issus de souris KO. Dans ces mêmes neurones KO, nous avons constaté que la phosphorylation de Akt/PKB n'est pas altérée suite à l'exposition des cellules aux oligomères A-bêta. Enfin, nous avons pu mettre en évidence une diminution de l'expression de la protéine précurseur du peptide A-bêta (protéine APP), tant au niveau d'homogénats hippocampiques que de neurones en cultures, issus de souris KO. Néanmoins, des travaux supplémentaires sont requis pour établir le lien exact entre cette réduction de l'expression d'APP et la résistance aux oligomères A-bêta, tant in vitro qu'in vivo. Toutefois, ces résultats soulignent l'implication de la cPLA2 dans la neuro dégénérescence entrainée par les oligomères A-bêta, et font apparaitre cette enzyme comme une cible thérapeutique potentielle pour le traitement de la maladie d'Alzheimer / Soluble beta-amyloid (A-beta) oligomers putatively play a critical role in the early synapse loss and cognitive impairment observed in Alzheimer's disease. We previously demonstrated that A-beta oligomers activate cytosolic phospholipase A2 (cPLA2) which specifically releases arachidonic acid from membrane phospholipids. By using a single A-beta oligomers intra cerebro ventricular injection, we observed that cPLA2 gene suppression prevents both the alterations of cognitive abilities and the reduction of hippocampal synaptic markers levels which are observed in wild type mice. We further demonstrated that the A-beta oligomers-induced sphingomyelinase activation is suppressed and that the phosphorylation of Akt/PKB is preserved in neuronal cells isolated from KO mice. Interestingly, expression of the A-beta precursor protein (APP) is reduced in hippocampus homogenates and neuronal cells from KO mice, but the relationship with the resistance of these mice to the A-beta oligomers toxicity requires further investigation. These results therefore show that cPLA2 plays a key role in the A-beta oligomers-associated neurodegenerative effects, and as such represents a potential therapeutic target for the treatment of Alzheimer's disease
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Estudo comparativo da neuroproteção por anticorpos anti-A? contra a toxicidade de oligômeros de A? em cultura diferenciada de neuroblastoma humano / Comparative study of neuroprotection by anti-A? antibodies against the toxicity of A? oligomers in differentiated culture of human neuroblastomaNathalia Réges Pinheiro 15 August 2017 (has links)
A Doença de Alzheimer (DA) é a principal causa de demência na população idosa e tende a se tornar um grave problema de saúde pública com o aumento da expectativa de vida da população mundial. A perda progressiva de memória, principal sintoma da demência em pacientes com DA, é atribuída a danos sinápticos e à perda neuronal desencadeadas pelo desequilíbrio entre a produção e a depuração do peptídeo A?. Evidências surgidas nos últimos 20 anos apontam os oligômeros solúveis de A? (A?O), produtos de agregação do peptídeo A?, como as principais espécies neurotóxicas na DA. Por conta disso, e também pela ausência de métodos diagnósticos pre-mortem e tratamento eficientes para essa demência, a busca por anticorpos conformacionais específicos para A?O está em ascensão. Testes clínicos com IgG anti-A? resultaram em efeitos colaterais inflamatórios mediados pela porção não variável Fc. Então, anticorpos conformacionais artificiais do tipo scFv, desprovidos de porção Fc, foram selecionados contra A?O. Dentre eles, está NUsc1, que é neuroprotetor contra A?O em cultura primária de neurônios. Neste trabalho, avaliamos a toxicidade de A?Os na linhagem de neuroblastoma humano SH-SY5Y diferenciada em neurônios maduros e comparamos a neuroproteção conferida por diferentes anticorpos contra A?Os, por ensaio de viabilidade celular com MTT. Também avaliamos a especificidade de NUsc1 por A?O comparativamente a lisozima monomérica e oligomérica em ensaio de ELISA, já que outros anticorpos conformacionais reconhecem epítopo compartilhado por estados oligoméricos de outras proteínas amiloidogênicas. Para a validação de células SH-SY5Y como modelo in vitro de neurônios maduros, a diferenciação foi induzida com ácido retinoico e BDNF e as células foram marcadas para as proteínas MAP2 e NeuN em ensaio de imunofluorescência. Células submetidas ao protocolo de diferenciação apresentaram aumento dos níveis dessas proteínas, mudança morfológica condizente com o esperado na maturação neuronal. Posteriormente, o desafio da cultura com A?O indicou morte celular dose-dependente e reversão desta morte segundo a dose administrada dos anticorpos 6E10 e NU-4. Obtivemos um sinal cerca de 400 vezes maior no reconhecimento de A?O por NUsc1 que para oligômeros de lisozima, quando presentes na mesma concentração, indicando forte especificidade de NUsc1 por A?O. Além disso, NUsc1 purificado em sistema de gelfiltração em HPLC não apresenta citotoxicidade em concentração equivalente a dos anticorpos 6E10 e NU-4 em ensaios de neuroproteção em cultura de SH-SY5Y diferenciada, sugerindo que, se NUsc1 for tão eficiente quanto estas IgG\'s, este poderá ser usado em dose não citotóxica. Portanto, podemos concluir que NUsc1 apresenta grande potencial como ferramenta diagnóstica e terapêutica para a DA, mas que mais experimentos para expandir sua validação e potencial ainda são necessários. / Alzheimer\'s Disease (AD) is the leading cause of dementia in the elderly population and tends to become a serious public health problem with increasing life expectancy of the world\'s population. Progressive memory loss, the main symptom of dementia in patients with AD, is attributed to synaptic damage and neuronal loss triggered by imbalance between production and clearance of the A? peptide. Evidence from the last 20 years indicates that soluble A? oligomers (A?O), A? peptide aggregation products, as the main neurotoxic species in AD. Because of this, and also because of the absence of efficient pre-mortem diagnostic and treatment methods for this dementia, the search for conformational antibodies specific for A?O is on the rise. Clinical tests with anti-A? IgG\'s resulted in inflammatory side effects mediated by the non-variable Fc portion. Then, artificial conformational antibodies of the scFv type, lacking the Fc portion, were selected against A?O. Among them is NUsc1, which is neuroprotective against A?O in primary neuronal culture. In this work, we evaluated the toxicity of A?Os in the differentiated SH-SY5Y human neuroblastoma line in mature neurons and compared the neuroprotection conferred by different antibodies against A?O types by MTT cell viability assay. We also evaluated the specificity of NUsc1 for A?O compared to monomeric and oligomeric lysozyme in the ELISA assay, since other conformational antibodies recognize epitope shared by oligomeric states of other amyloidogenic proteins. For the validation of SH-SY5Y cells as an in vitro model of mature neurons, differentiation was induced with retinoic acid and BDNF and the cells were labeled for MAP2 and NeuN proteins in immunofluorescence assay. Cells submitted to the differentiation protocol presented increased levels of these proteins, a morphological change consistent with the expected neuronal maturation. Subsequently, the challenge of culture with A?O indicated dose-dependent cell death and reversion of this death according to the administered dose of 6E10 and NU-4 antibodies. We obtained a 400-fold higher signal in the recognition of A?O by NUsc1 than for lysozyme oligomers, when present at the same concentration, indicating strong specificity of A?O by NUsc1. In addition, NUsc1 purified on HPLC gel-filtration system does not exhibit cytotoxicity at concentration equivalent to 6E10 and NU-4 antibodies in neuroprotection assays in differentiated SH-SY5Y culture, suggesting that, if NUsc1 is as efficient as these IgG\'s, it may be used in a non-cytotoxic dose. Therefore, we can conclude that NUsc1 presents great potential as a diagnostic and therapeutic tool for AD, but that further experiments to expand its validation and potential are still necessary.
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Propriedades ópticas não-lineares de oligômeros de anilina / Nonlinear optical properties of aniline oligomersFranzen, Paulo Licênio 29 October 2002 (has links)
Apresentamos os resultados do estudo das não-linearidades ópticas de origem eletrônica de duas moléculas da classe dos oligômeros de anilina: o dímero e o tetrâmero. Foram medidas quatro concentrações de tetrâmero, puras e também dopadas em 33 e 100%; uma de dímero pura e outra dopada em 100%. As soluções foram preparadas usando dimetil-sulfóxido (DMSO) como solvente e a dopagem foi realizada com ácido clorídrico. As amostras foram caracterizadas por medidas de absorção linear e fluorescência antes das medidas não-lineares. Obtivemos os valores da primeira hiperpolarizabilidade (?) para todas as amostras, o índice de refração não-linear (n2) do tetrâmero dopado e não dopado, e a absorção não-linear em função da intensidade e da concentração do tetrâmero. As medidas foram realizadas através das técnicas de Varredura-Z, absorção não-linear e espalhamento Hiper-Rayleigh. Os resultados foram interpretados em termos da comparação entre diferentes estados de dopagem e da variação da seção de choque do estado fundamental para o primeiro excitado. / We report on the study of electronic optical non linearities in two aniline oligomers: dimer and the tetramer. Four tetramer concentrations were measured, pure and also 33 and 100% doped; one of dimer non doped another 100% doped. The solutions were prepared using dimethyl sulfoxide (DMSO) as solvent and the doping was performed with hydrochloric acid. The samples were characterized by measurements of linear absorption and fluorescence. We obtained the values of the first hyperpolarizability (?) for all samples, the non linear index of refraction (n2) for non doped and doped tetramer, and the non linear absorption in function of intensity and concentration of the tetramer. The measurements were accomplished through the techniques of Z-Scan, non linear absorption and Hyper-Rayleigh Scattering. The results were interpreted in terms of the comparison among different doping states and of the variation of cross-section for the transition from ground to the first excited states.
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