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Development of Photocatalysts Supported on Graphitic Carbon Nitride for the Degradation of Organic Water PollutantsGiri, Atanu 01 January 2018 (has links)
Graphitic carbon nitride (g-C3N4) heterojunction composites with the semiconducting metal oxides, CeO2, ZnO and TiO2 are prepared in situ by co-calcination of the precursor materials or by a solvothermal method. The structural, morphological and the optical properties of the prepared materials are studied using various microscopy and spectroscopy techniques. The synthesized composite materials, CeO2/g-C3N4, ZnO/g-C3N4 and TiO2/g-C3N4 are more efficient in the photocatalytic degradation of the water pollutants indigo carmine (IC) and atrazine than the pure metal oxide, g-C3N4, or their physical mixtures. The CeO2/g-C3N4 and ZnO/g-C3N4 composites also exhibit improved degradation efficiencies of atrazine as compared to the individual metal oxide or g-C3N4 materials. The improved photocatalytic activity of the composites are attributed to the effective electron-hole charge separation within composite heterojunction, resulting from the well matched energy levels of the metal oxide and g-C3N4. This strategy could be helpful for the synthesis of other metal oxide and g-C3N4 composites for photocatalytic applications.
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Síntese de estruturas 3D de nanotubos de carbono verticalmente alinhados, dopados e não-dopados, decorados com nanopartículas de óxido de titânio, sua caracterização microestrutural e de propriedades fotocatalíticas e elétricasAcauan, Luiz Henrique January 2015 (has links)
Neste trabalho foi desenvolvido um procedimento experimental para a fabricação de estruturas 3D de nanotubos de carbono crescidos sobre substrato de cobre e decorados com partículas de óxido de titânio. Foram relacionados os três tipos diferentes de NTCs nesta estrutura (simples, dopados com nitrogênio e tratados com plasma) com a deposição do TiO2 por ALD. Foram igualmente propostas três aplicações para esta estrutura. A síntese dos NTCs verticalmente orientados, dopados e não dopados, foi otimizada dentre alguns parâmetros de síntese como temperatura, agente oxidante e principalmente, o filme catalisador. A introdução de defeitos nos NTCP através do tratamento a plasma oxidativo foi avaliada frente a variáveis como pressão, potência e tempo de exposição. A relação entre os defeitos destes três tipos de NTCs e a deposição de TiO2 por ALD foi avaliada por microscopia eletrônica de transmissão, Raman, XPS e TGA. O procedimento experimental para confecção da estrutura 3D foi desenvolvido etapa por etapa via diversas técnicas experimentais, desde caracterização química, imagem, até testes empíricos. Na estrutura final, foram avaliadas as propriedades fotocatalíticas pela decomposição de corante orgânico em meio aquoso, propriedades capacitivas por voltametria cíclica e propriedades de emissão por campo através de curvas de campo elétrico por corrente de emissão e diagramas F-N. Foram obtidas florestas de NTCs de boa qualidade com até 0.5mm de altura, de diâmetros e número de paredes regulares. Nestes foi possível introduzir defeitos de maneira controlável, mantendo o arranjo da floresta. As florestas de NTCNx alcançam uma altura de até 0,3mm com concentração de nitrogênio de 2% tendo os nanotubos uma estrutura típica “bamboo-like”. Os resultados mostram a relação entre o tipo de defeito e a deposição de TiO2 por ALD, obtendo-se partículas cristalinas para os NTCP e NTCNx, sendo neste ultimo as partículas homogeneamente distribuídas e com tamanho uniforme, enquanto nos NTCOx forma-se uma densa camada de TiO2 composta por grandes grãos monocristalinos A partir de processo como tratamentos térmicos e transferência dos NTC de substrato foi possível obter uma estrutura 3D composta de uma camada carbono grafítico e NTC-VAs sobre um substrato de cobre, sem alterar o arranjo inicial das florestas. As amostras mostraram efeito de emissão de elétrons por campo elétrico, porém estas requerem uma análise mais quantitativa. Os ensaios de fotocatálise mostraram que a imobilização do TiO2 em um suporte denso inviabiliza a degradação do corante em meio aquoso. Os NTCNx apresentaram maior capacitância que as mostras de NTCP, e o TiO2 foi aparentemente ineficaz para a melhoria desta propriedade. / In this work, we propose an experimental procedure for fabrication of 3D carbon nanotubes structures anchored with titanium oxide particles, on a copper substrate. We correlate three different types of CNTs from this structure (pristine, doped with nitrogen and treated with plasma) with the deposition of TiO2 by ALD. It was yet suggested, three applications for this structure. The synthesis of vertically aligned CNTs, doped and undoped, was optimized among several synthesis parameters such as temperature, oxidizing agent and specially, the catalyst film. The introduction of defects in NTCP by oxidative plasma treatment was evaluated against variables such as pressure, power and exposure time. The association between the defects from these three types of CNTs and the deposition of TiO2 by ALD was assessed by transmission microscopy, Raman, XPS and TGA. The experimental procedure for assembling the 3D structure had been studied step by step by various techniques, from chemical and imaging, up to empirical testing. In the final structure, the photocatalytic properties were evaluated by the organic dye decomposition in an aqueous medium, capacitive properties by cyclic voltammetry and field emission properties through electric field versus emission current curves and F-N diagram. Was obtained high quality NTCs with a height up to 0.5mm with regular diameters and number of walls. On these, it was introduced, in a controllable way, a high amount of defects without jeopardizing the forest structure. The NTCNx forest reach a 0,3nm height with a 2% nitrogen concentration in its typical structure “bamboo-like”. The results show the relation between the type of defect and the deposition of TiO2 by ALD, forming crystalline particles over the NTCP and NTCNx, in this last evenly distributed with uniform size, while on the NTCOx is is formed a dense TiO2 layer shaped by large monocrystalline grains. By process such as heat treatments and CNT transferring was achieved a 3d structure composed by a graphitic carbon layer and VACNTs over a cupper substrate, without disturb the forest assembly. The samples showed electron field emission effect, but its assessment for quantitative analysis was limited to technical issues. The photocatalysis tests showed that immobilization of TiO2 on a dense support prevents the dye degradation in an aqueous medium. The NTCNx shown higher capacitance than NTCP, and the TiO2 was apparently ineffective for improvement of this property.
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Élaboration de nanostructures d’oxydes métalliques par post-décharge micro-ondes pour la photolyse de l’eau / Elaboration of metallic oxide nanostructures by microwave plasma afterglow for water splittingImam, Abdallah 15 December 2017 (has links)
Durant cette thèse, des couches minces de fer, de fer-cuivre et de cuivre-zinc déposées par pulvérisation magnétron ont été oxydées par des post-décharges plasma pour synthétiser des nanostructures d’oxydes métalliques. L’oxydation par post-décharge permet un abaissement de la température par rapport à l’oxydation thermique dans la mesure où l’oxygène moléculaire est excité ou dissocié, ce qui fournit des espèces plus réactives comme l’oxygène singulet ou l’oxygène atomique. Cette oxydation à température modérée favorise une croissance anisotrope des cristaux. L’oxydation de couches minces de Fe-Cu a conduit à la croissance de nanolamelles de Fe2O3 et de nanoparois, nanotours et nanofils de CuO. La distribution surfacique de ces nanostructures dépend de la température d’oxydation, de la concentration des espèces réactives et de la composition initiale de la couche mince. L’oxydation de couches minces de Cu-Zn a conduit à la croissance de nanofils ultra-minces de ZnO dans lesquels un confinement quantique peut se produire. Les nanostructures obtenues ont été caractérisées par différentes techniques (microscopies électroniques, diffraction des rayons X et spectrométrie de masse des ions secondaires). Les mécanismes de croissance de ces nanostructures sont basés sur le rôle des contraintes, de la température, de la concentration des espèces réactives ainsi que sur l’influence de la taille des grains sous-jacents. Les nanostructures d’oxydes métalliques obtenues serviront comme photocatalyseurs pour produire de l’hydrogène par photolyse de l’eau. Par ailleurs, les nanofils ultra-minces de ZnO serviront de photocatalyseurs pour la purification de l’eau / In this manuscript, metallic oxide nanostructures were synthesized by the oxidation of iron, iron-copper and copper-zinc thin films by means of a plasma afterglow. Thin films were deposited by magnetron sputtering. The use of plasma afterglows allows a lowering of the temperature compared with the thermal oxidation conditions, given that molecular oxygen is excited or dissociated, which provides more reactive species such as singlet oxygen or atomic oxygen. This oxidation at moderate temperature promotes anisotropic crystal growth. The oxidation of iron–copper thin films leads to the synthesis of Fe2O3 nanoblades and CuO nanowalls, nanotowers and nanowires. The surface distribution of these nanostructures depends on the oxidation temperature, the concentration of the reactive species and the initial composition of the thin layers. The oxidation of copper-zinc thin films leads to the synthesis of ultra-thin ZnO nanowires in which quantum confinement could occur. As-grown nanostructures were characterized by various techniques (electron microscopy, X-ray diffraction and secondary ion mass spectrometry). The growth mechanisms described for these nanostructures relies on the role of stress, temperature, reactive species concentration and on the effect of underlying grain size. As-synthesized nanostructures will serve as photocatalysts to produce hydrogen by water splitting. In addition, ultra-thin ZnO nanowires will also serve as photocatalysts for water purification
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Síntese de estruturas 3D de nanotubos de carbono verticalmente alinhados, dopados e não-dopados, decorados com nanopartículas de óxido de titânio, sua caracterização microestrutural e de propriedades fotocatalíticas e elétricasAcauan, Luiz Henrique January 2015 (has links)
Neste trabalho foi desenvolvido um procedimento experimental para a fabricação de estruturas 3D de nanotubos de carbono crescidos sobre substrato de cobre e decorados com partículas de óxido de titânio. Foram relacionados os três tipos diferentes de NTCs nesta estrutura (simples, dopados com nitrogênio e tratados com plasma) com a deposição do TiO2 por ALD. Foram igualmente propostas três aplicações para esta estrutura. A síntese dos NTCs verticalmente orientados, dopados e não dopados, foi otimizada dentre alguns parâmetros de síntese como temperatura, agente oxidante e principalmente, o filme catalisador. A introdução de defeitos nos NTCP através do tratamento a plasma oxidativo foi avaliada frente a variáveis como pressão, potência e tempo de exposição. A relação entre os defeitos destes três tipos de NTCs e a deposição de TiO2 por ALD foi avaliada por microscopia eletrônica de transmissão, Raman, XPS e TGA. O procedimento experimental para confecção da estrutura 3D foi desenvolvido etapa por etapa via diversas técnicas experimentais, desde caracterização química, imagem, até testes empíricos. Na estrutura final, foram avaliadas as propriedades fotocatalíticas pela decomposição de corante orgânico em meio aquoso, propriedades capacitivas por voltametria cíclica e propriedades de emissão por campo através de curvas de campo elétrico por corrente de emissão e diagramas F-N. Foram obtidas florestas de NTCs de boa qualidade com até 0.5mm de altura, de diâmetros e número de paredes regulares. Nestes foi possível introduzir defeitos de maneira controlável, mantendo o arranjo da floresta. As florestas de NTCNx alcançam uma altura de até 0,3mm com concentração de nitrogênio de 2% tendo os nanotubos uma estrutura típica “bamboo-like”. Os resultados mostram a relação entre o tipo de defeito e a deposição de TiO2 por ALD, obtendo-se partículas cristalinas para os NTCP e NTCNx, sendo neste ultimo as partículas homogeneamente distribuídas e com tamanho uniforme, enquanto nos NTCOx forma-se uma densa camada de TiO2 composta por grandes grãos monocristalinos A partir de processo como tratamentos térmicos e transferência dos NTC de substrato foi possível obter uma estrutura 3D composta de uma camada carbono grafítico e NTC-VAs sobre um substrato de cobre, sem alterar o arranjo inicial das florestas. As amostras mostraram efeito de emissão de elétrons por campo elétrico, porém estas requerem uma análise mais quantitativa. Os ensaios de fotocatálise mostraram que a imobilização do TiO2 em um suporte denso inviabiliza a degradação do corante em meio aquoso. Os NTCNx apresentaram maior capacitância que as mostras de NTCP, e o TiO2 foi aparentemente ineficaz para a melhoria desta propriedade. / In this work, we propose an experimental procedure for fabrication of 3D carbon nanotubes structures anchored with titanium oxide particles, on a copper substrate. We correlate three different types of CNTs from this structure (pristine, doped with nitrogen and treated with plasma) with the deposition of TiO2 by ALD. It was yet suggested, three applications for this structure. The synthesis of vertically aligned CNTs, doped and undoped, was optimized among several synthesis parameters such as temperature, oxidizing agent and specially, the catalyst film. The introduction of defects in NTCP by oxidative plasma treatment was evaluated against variables such as pressure, power and exposure time. The association between the defects from these three types of CNTs and the deposition of TiO2 by ALD was assessed by transmission microscopy, Raman, XPS and TGA. The experimental procedure for assembling the 3D structure had been studied step by step by various techniques, from chemical and imaging, up to empirical testing. In the final structure, the photocatalytic properties were evaluated by the organic dye decomposition in an aqueous medium, capacitive properties by cyclic voltammetry and field emission properties through electric field versus emission current curves and F-N diagram. Was obtained high quality NTCs with a height up to 0.5mm with regular diameters and number of walls. On these, it was introduced, in a controllable way, a high amount of defects without jeopardizing the forest structure. The NTCNx forest reach a 0,3nm height with a 2% nitrogen concentration in its typical structure “bamboo-like”. The results show the relation between the type of defect and the deposition of TiO2 by ALD, forming crystalline particles over the NTCP and NTCNx, in this last evenly distributed with uniform size, while on the NTCOx is is formed a dense TiO2 layer shaped by large monocrystalline grains. By process such as heat treatments and CNT transferring was achieved a 3d structure composed by a graphitic carbon layer and VACNTs over a cupper substrate, without disturb the forest assembly. The samples showed electron field emission effect, but its assessment for quantitative analysis was limited to technical issues. The photocatalysis tests showed that immobilization of TiO2 on a dense support prevents the dye degradation in an aqueous medium. The NTCNx shown higher capacitance than NTCP, and the TiO2 was apparently ineffective for improvement of this property.
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Photosynthèse artificielle : élaboration de matériaux composites pour la valorisation de CO2 par photocatalyse / Artificial photosynthesis : elaboration of composite materials for photocatalytic valorisation of CO2Lofficial, Dina 07 October 2015 (has links)
Une opportunité attrayante consisterait à utiliser l'énergie solaire, abondante et (quasi)inépuisable, pour valoriser le CO2 en carburants. Ceci permettrait de répondre à une double préoccupation : le dérèglement climatique imputable à l’augmentation de la concentration de gaz à effet de serre dans l’atmosphère d’une part, et d’autre part la raréfaction annoncée des ressources en énergie. Les végétaux sont capables de réduire le dioxyde de carbone en composés hydrogénocarbonés et d’oxyder simultanément l’eau en dioxygène par photosynthèse. Cette étude se propose d’élaborer des matériaux capables d’absorber la lumière et d’imiter le processus naturel, notamment son schéma énergétique en Z. La création de systèmes inorganiques comportant des hétérojonctions SCp (cathode) - Métal - SCn (anode) a été envisagée pour répondre à la problématique. Deux stratégies de synthèse ont alors été mises au point afin d’élaborer différents photocatalyseurs composite SCp@M/SCn notamment Cu2O@Pt/TiO2. L’évaluation des performances photocatalytiques a permis de révéler les bénéfices apportés par la présence d’hétérojunctions en termes de séparation des charges photogénérées et de sélectivité quant à la production de composés hydrogénocarbonés par photocatalyse. Ces travaux apportent une pierre importante à l’édifice d’un procédé de « photosynthèse artificielle » / An enticing opportunity would consist in using abundant and inexhaustible solar energy to valorise CO2 into fuels. That might answer in an elegant way to environmental and energetic concerns: the global warming due to atmospheric CO2 concentration increase and the dreaded shortage of energy resources. Green plants are able to reduce carbon dioxide into hydrocarbonated compounds and to oxidise simultaneously water into dioxygen by using photosynthesis. This study will focus on the design of materials able to absorb light and to imitate this natural process and more particularly its typical energetic Z-scheme. The chosen strategy is the creation of inorganic systems with SC-p (cathode) - Metal - SC-n (anode) heterojunctions. Two synthesis strategies were elaborated to obtain composite photocatalysts SCp@M/SCn, and more particularly Cu2O@Pt/TiO2. The evaluation of photocatalytic performances reveals heterojunctions benefits in term of charge separation and selectivity for photocatalytic hydrocarbonated compounds production. This study seems to do its bit towards “artificial photosynthesis” process
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[pt] MODELAGEM DAS PROPRIEDADES DO TIO2 NA PREVISÃO DO BAND GAP UTILIZANDO REDES NEURAIS ARTIFICIAIS / [en] MODELLING OF TIO2 PROPERTIES FOR THE BAND GAP PREDICTION USING ARTIFICIAL NEURAL NETWORKSANNITA DA COSTA FIDALGO 28 December 2020 (has links)
[pt] O dióxido de titânio é amplamente utilizado pela indústria e pesquisa como
fotocatalisador, cuja principal desvantagem ainda é sua aplicação sob luz
visível. Propriedades como quantidade de fases, tamanho do cristalito, área
de superfície específica, volume de poros e valor da banda proibida (Eg)
são explorados por métodos de síntes e para aprimorar a performance do
TiO2. No entanto, elas são ajustadas empiracamente. O presente trabalho
foi realizado a fim de descrever uma relação analítica entre essas propriedades para a fotocatálise, usando Redes Neurais Artificiais (RNAs) como
ferramente estatística. Afim de ter o banco de dados mais representativo,
foram usados 53 artigos. O Eg foi considerado a medida a qual avalia a performance fotocatalítica, sendo o parâmetro de saída da rede. Dois blocos A
e B, distintos pelas variáveis de entrada, foram arranjados em grupos para
investigar a influência das variáveis em pares, com 257 e 220 fotocatalisadores para cada, respectivamente. Exploraram-se diferentes algoritmos de
treinamento (baseados em Retropropagação), tipos de redes (Feedforward,
Cascade forward e Elman), funções de transferência, número de neurônios
e redemulticamadas. Avaliaram-se os modelos pela Soma dos Erros Quadráticos (SSE),pelo coeficiente de correlação de regressão (R2) tanto para
o treinamento e quanto para o teste, pelo comportamento de predição do
banco de dados e pelo diagrama de regressão dos valores preditos pelos observados. Os resultados do bloco A sugerem que as variáveis não aparentam
ter uma relação. Os modelos de múltiplas camadas no bloco B revelaram um
aumento no desempenho. O resultado de maior coeficiente teve topologia
de 4-4-6-1, correspondendo a camada de entrada, primeira camada oculta,
segunda camada oculta e camda de saída, respectivamente. Obteve-se R2
de 84 por cento para o treinamento e 50 por cento para o teste, com SSE de 2.24.Esse
resultado sugere que a rede não é capaz de prever o Eg, mas ela pode ser
aprimorada. Os parâmetros estruturais devem ser revisados, de acordo com
padrões de caracterizações e dados estatísticos. Consequentemente, o modelo pode ser bem ajustado, otimizado e usado na melhoria da fotocatálise. / [en] Titanium dioxide has been widely applied by industry and scientific research
as a photocatalyst,whose main drawback still has been the application under visible light.Properties such as phases amount,crystallite size, specific
surface area, pore volume, and band gap value (Eg)have been explored by
synthesis methods to improve TiO2 s performance. However, they are empirically adjusted.The present work was carried out to describe an analytical
relation between those properties for photocatalysis, using Artificial Neural Networks (ANNs) as a statistical tool. Aiming the most representative
set, 53 literature papers were used for the database. Eg was considered the
measurement which evaluates the photocatalytic performance, namely the
network s out put variable. Two blocks A and B, which are distinguished by
input variables, were arranged into groups to investigate the variables pair
influences, using 257 and 220 photocatalysts vectors for each,respectively.
Modelling attempts examined different training algorithms(based on Back-
propagation), types of networks (Feedforward, Cascade forward and Elman),
transfer functions, number of hidden neurons, and multilayer network.The
developedmodelswereevaluatedbythesumofsquarederror(SSE),the
correlation coefficient(R2) of regression for both training and test data,
the prediction behaviour of the dataset,and the regression diagram of predicted and observed values. The block A results suggest the variables do
not have an apparent relationship. Multilayers models on block B revealed an increase of network identification performance. The result with the
highest coefficient showed 4-4-6-1 topology; corresponding, respectively, to
input, first hidden, second hidden and output layers.It had R2 of 84 percent for
training and to 50 percent fortest, with SSE of 2.24.This result suggests this
network is not able topredict the Eg, but it can be improved. The structural
properties should be reviewed, according to standards of characterization
and statistical data. Hence, the model could be well fitted, optimized, and
used for photocatalysis improvement.
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Study of the Preparation of Mesoporous Magnetic Microspheres and Their ApplicationsEricson, Mårten January 2009 (has links)
Treatment of wastewater using magnetic technology is a rising field. In this thesis, the latest research on the subject is reviewed and several adsorbents with different coatings, which impart them unique properties, are discussed. Separation of particles from aqueous solution using magnetic technology is more convenient compared to conventional techniques, such as filtration and centrifugation. The adsorbents described in this thesis are effective for adsorption of several types of contaminants, such as heavy metals and different types of dyes. Magnetic microspheres were synthesised using porous polystyrene microspheres as template. The microspheres were first sulfonated using chlorosulfonic acid followed by stirring in the presence of ferrous chloride which then was oxidised and magnetic nanoparticles were formed on the surface. The sulfonated microspheres had a surface area of 420 m2/g and the magnetic 175 m2/g, indicative of Fe3O4 nanoparticles were successfully formed in the pores. The weight fraction of the Fe3O4 nanoparticles in the magnetic microspheres was 33 %. Adsorption and desorption studies of the cationic dye, methylene blue, using mesoporous magnetic microspheres were performed. The results show that the mesoporous magnetic microspheres have good ability to adsorb methylene blue at low concentrations. In a cycle study the adsorption efficiency were nearly 100 % throughout the study. Using a 6/4 EtOH/H2O with saturated KCl solution the desorption efficiency in the cycle study were about 95 %. The microspheres were used as carriers for TiO2 in order to overcome the problem with the separation of TiO2 from solution. The TGA results show that the microspheres contained about 12 % of TiO2. The TiO2 coated microspheres were used for the photocatalytic degradation of phenol. However, the TiO2 microspheres did not work. This was a result from that the phenol had too little contact with the TiO2. A possible way of solving this problem could be to decrease the size of the microspheres, thus increase the surface area. Lysozyme was adsorbed and separated using the porous microspheres. The lysozyme adsorption worked best at pH 9.6, which is the pI for lysozyme. The lysozyme could be extracted from the microspheres by using a pH 13 buffer. Also, by using MeOH/H2O and EtOH/H2O solutions with saturated KCl the lysozyme could be desorbed. An adsorption and desorption mechanism was also presented. / Vattenrening med magnetisk teknologi är en ny och alltmer uppmärksammad teknik. Magnetisk separation är ett enkelt och snabbt sätt att separera något från en lösning. Magnetisk separation är mer lätthanterligt jämfört med traditionell separationsteknik såsom centrifugering och filtrering. Med porösa polystyren mikrosfärer som mall, syntetiserades magnetiska mikrosfärer. Först så sulfonerades mikrosfärerna med klorosulfonisk syra, följt av att de rördes om i en järnkloridlösning. Magnetiska nanopartiklar bildades i porerna och på ytan av mikrosfärerna. Sulfonerade mikrosfärerna hade en specifik ytarea på 420 m2/g och de magnetiska 175 m2/g, detta indikerar att Fe3O4-nanopartiklar bildades på ytan och i porerna. Massfraktionen av Fe3O4 var 33 %. Adsorption- och desorptionsstudier på de magnetiska mikrosfärerna utfördes. Färgämnet metylblått användes i studien. Resultaten visade att magnetiska mikrosfärerna hade en bra adsorptionsförmåga vid låga koncentrationer av metylblått. Cykelstudier visade att adsorptionsverkningsgraden var nära 100 % under flera adsorptionscykler. Desorptionsförsök med olika lösningsmedel visade att en mättad KCl 6/4 EtOH/H2O lösning gav en desorptions-verkningsgrad på ca 95 %. Mikrosfärerna användes som mall och kärna för att syntetisera en TiO2-fotokatalysator, detta för att överkomma problemet som finns med separation av rent TiO2 pulver från lösning. TGA resultaten visade att mikrosfärerna innehöll ca 12 % TiO2. De syntetiserade TiO2-mikrosfärerna användes till att bryta ner fenol fotokatalytiskt. Dock fungerade inte detta experiment. En anledning var att fenolen hade för lite kontakt med TiO2. En lösning på detta problem är att använda mikrosfärer med högre specifik ytarea. Proteinet lysozym användes som modellprotein för försök att separera proteiner från lösning genom att använda porösa mikrosfärer. Resultatet visade att lysozym kunde adsorberas vid pH 9.6. Med en pH 13 buffer kunde lysozymet sedan extraheras från mikrosfärerna. En mekanism för adsorptionen och desorptionen på mikrosfärerna presenterades.
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Synthesis of Nanostructured Catalyst Powders and Thin Film Reactors by Flame Aerosol Deposition and Their Applications in Partial OxidationWang, Zhong-Min January 2004 (has links)
No description available.
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3D Structured Graphenes as (Photo)CatalystsGarcía Mulero, Ana 20 March 2023 (has links)
[ES] En la actualidad, el elevado consume energético y el aumento de la concentración de CO2 en la atmósfera han hecho necesaria la búsqueda de nuevas opciones para los procesos actuales. Una respuesta ha sido el aprovechamiento de la radiación solar para producir H2 a partir de la ruptura fotocatalítica del agua o la reducción del CO2 emulando a la naturaleza. Para ello, se propone el uso de materiales basados en carbono, de mayor abundancia y accesibilidad que los metales y óxidos metálicos.
Además, un punto a tener en cuenta es la morfología, ya que haciendo uso del denominado "efecto de confinamiento" de los materiales 3D mejora notablemente la capacidad catalítica de los mismos.
Es por esto por lo que, en la presente Tesis Doctoral, se ha desarrollado la posibilidad de obtener materiales grafénicos con estructuración tridimensional, presentado microporos en los que tiene lugar dicho efecto de confinamiento. De este modo, estos materiales son capaces de promover tanto la reacción de oxidación de la benzilamina como la reacción fotocatalítica de obtención de H2 a partir de agua y la de reducción de CO2. Concretamente, los materiales se han obtenido, por un lado, mediante el uso de agentes plantilla y la capacidad de recubrimiento de polisacáridos naturales como es el quitosano; y por otro, sin agentes plantilla, aprovechando la estructura de las ciclodextrinas como precursores del grafeno microporoso. Además, estos últimos materiales se han dopado con heteroátomos, en concreto fósforo, para mejorar la actividad fotocatalítica de estos materiales microporosos basados en carbono. / [CA] En l'actualitat, l'elevat consum energètic i l'augment de la concentració de CO2 en l'atmosfera han fet necessària la cerca de noves opcions per als processos actuals. Una resposta ha sigut l'aprofitament de la radiació solar per a produir H2 a partir de la ruptura fotocatalítica de l'aigua o la reducció del CO2 emulant a la naturalesa. Per a això, es proposa l'ús de materials basats en carboni, de major abundància i accessibilitat que els metalls i òxids metàl·lics.
A més, un punt a tindre en compte és la morfologia, ja que fent ús del denominat "efecte de confinament" dels materials 3D millora notablement la capacitat catalítica d'aquests.
És per això que, en la present Tesi Doctoral, s'ha desenvolupat la possibilitat d'obtindre materials grafénics amb estructuració tridimensional, presentat microporus en els quals té lloc aquest efecte de confinament. D'aquesta manera, aquests materials són capaços de promoure tant la reacció d'oxidació de la benzilamina com la reacció fotocatalítica d'obtenció d'H2 a partir d'aigua i la de reducció de CO2. Concretament, els materials s'han obtingut, d'una banda, mitjançant l'ús d'agents plantilla i la capacitat de recobriment de polisacàrids naturals com és el quitosan; i per un altre, sense agents plantilla, aprofitant l'estructura de les ciclodextrines com a precursors del grafé microporós. A més, aquests últims materials s'han dopat amb heteroàtoms, en concret fòsfor, per a millorar l'activitat fotocatalítica d'aquests materials microporosos basats en carboni. / [EN] Nowadays, the high energy consumption and the increase of the concentration of CO2 in the atmosphere have made it necessary to search for new options for the current processes. One possible answer has been the use of solar radiation to produce H2 from the overall photocatalytic water splitting or the photoreduction of CO2, by emulating nature. In this context, carbon-based materials, which are more abundant and accessible than metals and metal oxides, are proposed as catalysts.
In addition, a point to take into account is the morphology, since making use of the so-called "confinement effect" of 3D materials significantly improves their catalytic capacity.
This is the reason why, in this Doctoral Thesis, the possibility of obtaining graphene materials with three-dimensional structuring has been developed, presenting micropores in which this confinement effect takes place. In this way, these materials have been able to promote both the oxidation reaction of benzylamine and the photocatalytic reaction of obtaining H2 from water and the reduction of CO2. Specifically, the materials have been obtained, on the one hand, by using template agents and the coating capacity of natural polysaccharides such as chitosan; and on the other hand, without template agents, taking advantage of the structure of cyclodextrins as precursors of microporous graphene. In addition, the latter materials have been doped with heteroatoms, specifically phosphorus, to improve the photocatalytic activity of these carbon-based microporous materials. / El autor agradece el proyecto PID2021-126071OB-C21 financiado
por MICINN/AEI /10.13039/501100011033/ a FEDER Una manera de hacer
Europa, por la financiación recibida, y al Ministerio por la FPU que me
ha permitido desarrollar estos 4 años de trabajo. / García Mulero, A. (2023). 3D Structured Graphenes as (Photo)Catalysts [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/192544
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Sol-gel synthesized nanomaterials for environmental applicationsYang, Xiangxin January 1900 (has links)
Doctor of Philosophy / Department of Chemical Engineering / Larry E. Erickson / Over the past decade, nanomaterials have been the subject of enormous interest. Their defining characteristic is a very small size in the range of 1-100 nm. Due to their nanometer size, nanomaterials are known to have unique mechanical, thermal, biological, optical and chemical properties, together with the potential for wide-ranging industrial applications. Here, we synthesized nanocrystalline metal oxides through the sol-gel process and used these materials as desulfurization adsorbents and photocatalysts.
Deep desulfurization of fuels has received more and more attention worldwide, not only because of health and environmental consideration but also due to the need for producing ultra-low-sulfur fuels, which can only be achieved under severe operating conditions at high cost using hydrodesulfurization (HDS). Consequently, development of new and affordable deep desulfurization processes to satisfy the decreasing limit of sulfur content in fuels is a big challenge. Sol-gel derived Cu/Al[subscript]2O[subscript]3 and Zn/Al[subscript]2O[subscript]3 adsorbents have been demonstrated to be effective in the removal of thiophene from a model solution. Results showed that Cu[superscript]+ was the active site and thermal treatment under vacuum was critical for Zn/Al[subscript]2O[subscript]3 since a defective, less crystalline spinel led to stronger interaction between zinc ions and thiophene molecules in the adsorption process. The kinetic study suggested that most of the adsorption occurred in the first 30 min, and adsorption equilibrium was attained after 1.5 h. Both adsorbents showed good regenerative property.
TiO2 is considered the most promising photocatalyst due to its high efficiency, chemical stability, non-toxicity, and low cost for degradation and complete mineralization of organic pollutants. However, the use of TiO[subscript]2 is impaired because it requires ultraviolet (UV) activation ([Lambda]<387 nm). The shift of optical response of TiO[subscript]2 from the UV to the visible light region would have a profound positive effect on the efficient use of solar energy in photocatalytic reactions. We shifted the optical response of TiO[subscript]2 and improved the photocatalytic efficiency through size modification and transition metal ion and nonmetal atom doping. Experimental results showed that C and V co-doped TiO[subscript]2 catalysts had much higher activity than commercial P25 TiO[subscript]2 towards the degradation of acetaldehyde under visible light irradiation. For the first time, we reported that activities were comparable in the dark and under visible light irradiation for co-doped TiO[subscript]2 with 2.0 wt% V. C and N co-doped TiO[subscript]2 exhibited higher activity for the degradation of methylene blue than pure TiO[subscript]2 under visible light and UV irradiation. Possible mechanisms were discussed based on the experimental results.
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