Obten??o de ferrita de cobalto atrav?s de dois m?todos de s?ntese: m?todo de complexa??o combinando EDTA/Citrato e m?todo hidrot?rmico / Obtaining cobalt ferrite through two synthesis methods: Complexation Method Conbining EDTA/Citrate and Hydrothermal Method

Medeiros, Indira Aritana Fernandes de

17 December 2013

Made available in DSpace on 2014-12-17T15:01:34Z (GMT). No. of bitstreams: 1 IndiraAFM_DISSERT_Parcial.pdf: 1021016 bytes, checksum: 339ff82fc9edc8d5f827859010abd0dc (MD5) Previous issue date: 2013-12-17 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / In this work it was synthesized and characterized the cobalt ferrite (CoFe2O4) by two methods: complexation combining EDTA/Citrate and hydrothermal investigating the influence of the synthesis conditions on phase formation and on the crystallite size. The powders were mainly characterized by x-ray diffraction. In specific cases, it was also used scanning electron microscopy (SEM), energy dispersive spectroscopy (EDS), x-ray fluorescence (XRF) and isotherms of adsorption and desorption of nitrogen (BET method). The study of the crystallite size was based on the interpretation of x-ray diffractograms obtained and estimated by the method of Halder-Wagner-Scherrer and Langford. An experimental design was made in order to assist in quantifying the influence of synthesis conditions on the response variables. The synthesis parameters evaluated in this study were: pH of the reaction medium (8, 9 and 10), the calcination temperature (combined complexation method EDTA/Citrate 600?C, 800?C and 1000?C), synthesis temperature (hydrothermal method 120?C, 140?C and 160?C), calcination time (combined complexation method EDTA/Citrate - 2, 4 and 6 hours) and time of synthesis (hydrothermal method 6, 15 and 24 hours). By the hydrothermal method was possible to produce mesoporous powders with high purity, with an average crystallite size up to 7 nm, with a surface area of 113.44 m?/g in the form of pellets with irregular morphology. By using the method of combined complexation EDTA/Citrate, mesoporous powders were produced with greater purity, crystallite size up to 22nm and 27.95 m?/g of surface area in the form of pellets with a regular morphology of plaques. In the experimental design was found that the hydrothermal method to all the studied parameters (pH, temperature and time) have significant effect on the crystallite size, while to the combined complexation method EDTA/Citrate, only temperature and time were significant / Neste trabalho foi sintetizada e caracterizada a ferrita de cobalto (CoFe2O4) atrav?s dos m?todos complexa??o combinada EDTA/Citrato e hidrot?rmico, investigando a influ?ncia das condi??es de s?ntese na forma??o da fase e no tamanho m?dio de cristalito. Os p?s foram caracterizados principalmente por difra??o de raios-x. Em casos espec?ficos, tamb?m foi utilizado microscopia eletr?nica de varredura (MEV), espectroscopia de energia dispersiva (EDS), fluoresc?ncia de raios-x (FRX) e isotermas de adsor??o e dessor??o de nitrog?nio (M?todo BET). O estudo do tamanho de cristalito foi baseado na interpreta??o dos difratogramas de raios-x obtidos e estimado atrav?s do m?todo de Halder-Wagner-Langford (HWL) e de Scherrer. Um planejamento experimental foi realizado com a finalidade de auxiliar na quantifica??o da influ?ncia das condi??es de s?ntese nas vari?veis-resposta. Os par?metros de s?ntese avaliados neste trabalho foram: pH do meio reacional (8, 9 e 10), temperatura de calcina??o (m?todo de complexa??o combinando EDTA/Citrato 600?C, 800?C e 1000?C), temperatura de s?ntese (m?todo hidrot?rmico 120?C, 140?C e 160?C), tempo de calcina??o (m?todo de complexa??o combinando EDTA/Citrato 2, 4 e 6 hrs) e tempo de s?ntese (m?todo hidrot?rmico 6, 15 e 24 hrs). Pelo m?todo hidrot?rmico foi poss?vel produzir p?s mesoporosos com elevado grau de pureza, com tamanho m?dio de cristalito de at? 7nm, com ?rea superficial de 113,44m?/g e na forma de aglomerados com morfologia irregular. Ao se utilizar o m?todo de complexa??o combinando EDTA/Citrato foram produzidos p?s mesoporosos com maior pureza, cristalitos com at? 22nm de tamanho, 27,95m?/g de ?rea superficial e na forma de aglomerados com morfologia regular de placas. No planejamento experimental foi constatado que no caso do m?todo hidrot?rmico todos os par?metros estudados (pH, Temperatura e tempo) apresentam efeito significativo no tamanho de cristalito, enquanto que, para o m?todo de complexa??o combinando EDTA/Citrato, apenas a temperatura e o tempo foram significativos / 2020-01-01

CNPQ::ENGENHARIAS::ENGENHARIA QUIMICA

Hydrothermal Synthesis of Carbon Nanoparticles for Various Applications

Sadhanala, Hari Krishna

January 2016

Carbon nanoparticles (CNPs) have drawn great attention in the last few years owing to their unique properties such as excellent water solubility, chemical stability, inertness, low toxicity, good bio-compatibility, and tunable photo physical properties. Recently, researchers have focused on hetero atom (N, S and B) doped CNPs due to their excellent properties. These properties make the CNPs and doped CNPs as potential candidates for a wide range of applications. For example, metal ion detection in aqueous solution, bio-imaging, bio-sensing, photovoltaic devices, cleavage of deoxyribonucleic acid (DNA), and catalysis. Therefore, CNPs are alternative to inorganic semiconductor nanoparticles. However, CNPs with diameter less than 10 nm have been prepared using various approaches including top down and bottom methods. Cutting the bulk carbon from high dimensional to zero dimensional by using either physical or chemical process are classified as top down method. Bottom up method refers the conversion of organic precursor to nano-carbon by using thermal pyrolysis, microwave based hydrothermal method, cage opening of C60 molecules. In the present work, I have dealt with the facile synthesis of CNPs and different hetero atom doped carbon nanoparticles (N-CNPs, B-CNPs, and BN-CNPs) using the hydrothermal method. Based on their intriguing physical and chemical properties, these CNPs/doped-CNPs have been explored for various applications such as (i) metal-free catalysts, (ii) color tunability from red to blue and bio-imaging, (iii) ammonia sensing, (iv) white light generation, and (v) detection of picric acid (PA) in aqueous solution. Finally, I have presented 3D nanodendrites of N-CNPs and Pd NPs and their excellent catalytic mass activity for methanol electro-oxidation and ultra-fast reduction of 4-nitrophenol.

Hydrothermal Synthesis

Carbon Nanoparticles (CNPs)

Nitrogen Co-doped Carbon Nanoparticles

Bifunctional Catalysts

Nanodendrites

White Light Phosphor

Boron-doped Carbon Nanoparticles

N-doped Carbon Nanoparticles

White Light Emitting Diodes

Carbon Nanoparticles - Synthesis

White-Light-Emitting-Diodes

Materials Science

Synthèse par voie hydrothermale et caractérisation des micro/nanostructures d’Oxyde de Zinc / Synthesis and characterization of micro / nanostructures of ZnO obtained by hydrothermal method

Bekhti, Widad

02 February 2015

L'oxyde de zinc (ZnO) est un matériau semi-conducteur qui présente des caractéristiques très intéressantes telles que : un gap directe à 3.3 eV à température ambiante, une forte énergie excitonique (60 meV à température ambiante) associé à un caractère piézoélectrique. Ces propriétés permettent de considérer le ZnO parmi les nanomatériaux prometteurs, dans une grande variété d'applications : dans le domaine de l'optoélectronique, de l'énergie photovoltaïque ou de l'environnement. Pour que ces dispositifs deviennent exploitables à l'échelle industrielle, certaines conditions doivent être satisfaites comme le contrôle de la taille des nanostructures ainsi que de leur forme, l'impact de la technique de synthèse sur l'environnement, l'économie de l'énergie utilisée dans la production du matériau. C'est dans ce cadre que nous nous sommes intéressés à l'étude de la croissance des micro / nanostructures de ZnO, en particulier à une dimension (1D). Nos échantillons sont obtenus par la synthèse hydrothermale. Cette méthode nous a permis de réaliser des nanostructures de ZnO de très bonnes qualités cristallines sous pression contrôlée (inférieur ou égal à 15 bar) et à basse température (inférieur à 250 °). Ces conditions de préparation ont l'avantage de limiter la consommation en énergie. D'autre part, nous avons utilisé l'eau comme solvant dans la préparation des solutions, ce qui présente un effet positif pour l'environnement (démarche d'éco-conception ou « green chemistry »). Dans la première partie de ce travail, nous avons étudié l'influence d'un ensemble de paramètres expérimentaux tels que : le temps, la quantité de base, la température… sur la croissance de nanorods afin de déterminer les conditions optimales pour l'obtention de nanorods homogènes, plus denses et avec une faible distribution de tailles. Dans la deuxième partie, nous nous sommes intéressés à l'étude de l'influence induite par les cations présents dans les solutions suite à l'hydrolyse des bases sur la morphologie des micro / nanostructures de ZnO. Enfin, les échantillons obtenus ont fait l'objet d'une caractérisation à la fois structurale et morphologique afin d'exploiter au mieux la richesse des géométries et les tailles des micro / nanocristaux élaborés / Zinc oxide (ZnO) is a material that belongs to the family of transparent conducting oxides (TCO) materials. Because of its important physical and chemical properties, ZnO is widely studied since the elaboration to application. It is considered as semiconductor material which has very interesting features such as a direct gap 3.37 eV at room temperature, a strong exciton energy (60 meV at room temperature) assigned to a character piezoelectric. ZnO thin films are elaborated using different techniques including physical and chemical methods. For our part, we are interested in studying the growth of micro / nanostructures of ZnO, especially one-dimensional (1D) using hydrothermal synthesis. This method allowed us to achieve ZnO nanostructures with very good crystalline qualities under controlled pressure (< 15 bar) and low temperature (<250 ° C). These preparation conditions have the advantage to limit the energy consumption. On the other hand, we have used water as solvent in the preparation of solutions which has a positive effect on the environment (eco-design or “green chemistry”). In the first part of this work, we have studied the influence of some experimental parameters such as time, the amount of base, temperature… on the growth of nanorods in order to determine the optimal conditions of the growth of the nanorods forms and their distributions. In the second part, we are interested to study the influence of the cations present in the solution on the morphology of the micro / nanostructures of ZnO. Finally, the obtained samples were characterized by XRD and SEM for the structure and the morphology and by Raman for optical properties. The different analysis of the results obtained from different techniques show a good compromise

Micro / nanorods de ZnO

Synthèse hydrothermal

Hydrolyse des cations

Adsorption des cations

Auto-assemblage orienté

Diagrammes Williamson-Hall

Spectroscopie Raman

Micro / nanorods of ZnO

Hydrothermal synthesis

Cations hydrolysis

Cation adsorption

Directed self-assembly

Williamson-Hall diagrams

Raman spectroscopy

620.1

ZnSe ceramics and phosphate glasses for optical applications in the visible and infrared ranges / Céramiques de ZnSe et verres de phosphate pour des applications optiques dans le visible et l'infrarouge

Zhou, Gang

21 October 2014

Une étude en deux parties a été effectuée sur la préparation et la caractérisation de céramiques de ZnSe et de verres de phosphate à des fins optiques. Pour préparer des poudres de ZnSe, deux voies de synthèse ont été utilisées: i) hydrothermales; ii) le broyage à billes. La taille des particules ainsi que leur morphologie a été analysée par différentes techniques (DRX, MEB…). Ensuite, deux technologies de frittage, pressage à chaud (HP) et frittage flash (SPS), ont été mises en œuvre pour obtenir des échantillons massifs de ZnSe optiquement transparents. La meilleure transmission obtenue dans le domaine du moyen infrarouge, pour les échantillons HP et SPS, est supérieure à 50% et 40% respectivement. Pour obtenir des verres de phosphate avec une grande durabilité chimique, des cations avec une intensité de champ élevée tels que Nb5+ et Ti4+ ont été incorporés dans un verre de phosphate. La transparence dans le domaine du visible a été obtenue en utilisant de petites quantités d'agents d'oxydation tels que les sulfates ou les nitrates. L’utilisation de la spectroscopie par réflectance diffuse a permis de déterminer les coordonnées chromatiques afin d’évaluer le bénéfice de ces ajouts. / A two-part study was conducted on the preparation and characterization of ZnSe ceramic and phosphate glasses for optical applications in the visible and infrared range. To prepare ZnSe powders, two synthetic routes were used: i) hydrothermal; ii) ball milling. The size and morphology of synthesized powders were analyzed using different techniques (XRD, SEM…). Then two sintering technologies, hot pressing (HP) sintering and spark plasma sintering (SPS) sintering have been implemented to obtain optically transparent ZnSe bulk samples. The best transmission obtained in the mid-infrared range, using HP and SPS, is greater than 50% and 40% respectively. To synthesize phosphate glasses with a high chemical durability, cations with high field strength such as Nb5+ and Ti4+ were incorporated into a phosphate matrix. The transparency in the visible range was obtained using small amounts of oxidation agents such as sulfates or nitrates. The use of diffuse reflectance spectroscopy led to determination of the chromaticity coordinates to evaluate the benefit of these additions.

Céramique

Verres de phosphates

Infrarouge

Synthèse par voie hydrothermale

Mécanosynthèse

Hot-Pressing

Spark plasma sintering

Durabilité chimique

Coordonnées de chromaticité

Ceramic

Phosphate glasses

Infrared

Hydrothermal synthesis

Ball milling

Hot-Pressing

Spark plasma sintering

Chemical durability

Chromaticity coordinates

Synthèse de nouveaux solides microporeux à base de silice en présence de structurants organiques originaux / Synthesis of new silica-based microporous solids in the presence of original structure-directing agents

Dodin, Mathias

17 December 2010

La synthèse de matériaux zéolithiques est régie par de nombreux paramètres, en particulier la nature de l'hétéroélément associé au silicium et celle de l'agent organique structurant. Ainsi, l'introduction de germanium dans les milieux réactionnels ainsi que l'utilisation de structurants dérivés d'imidazole, les cations 1-éthyl-3-méthylimidazolium et 1-butyl-3-méthylimidazolium, ont permis la découverte de deux nouveaux solides microporeux nommés respectivement IM-16 et IM-20 et présentant des topologies de charpente inédites (respectivement UOS et UWY). De plus, un troisième germanosilicate poreux nommé IM-17 a été obtenu en présence du cation décaméthonium. Chacun de ces trois matériaux possède un système tridimensionnel de canaux avec des ouvertures de 8 et 10 atomes T (IM-16) ou de 10 et 12 atomes T (IM-17 et IM-20), ainsi que des unités de construction composites d4r au sein de leur charpente. Enfin, une partie importante du travail a été consacrée à l'élaboration de molécules structurantes originales (dérivés du décahydro-dicyclopenta[b,d]pyrrole) puis de leur emploi en synthèse hydrothermale. Ces essais ont permis d'obtenir divers matériaux déjà connus, parmi lesquels les zéolithes IM-12 (UTL), ITQ-7 (ISV), ITQ-17 (BEC) et ITQ-21. / The synthesis of zeolitic materials is ruled by numerous parameters, particularly the nature of the heteroelement associated with silicon and of the organic structure-directing agent (SDA). The introduction of germanium into the synthesis gels and the use of imidazole-derived SDAs, the cations 1-ethyl-3-methylimidazolium and 1-butyl-3-methylimidazolium, allowed us to discover two new microporous solids named IM-16 and IM-20 and exhibiting novel framework structures (respectively UOS and UWY). Furthermore, a third porous germanosilicate named IM-17 was obtained in the presence of the decamethonium cation. Each of these materials possesses a three-dimensional channel system with 8- and 10-ring pores (IM-16) or 10- and 12-ring pores (IM-17 and IM-20), as well as double-4-ring (d4r) composite building units in their framework. Finally, an important part of this work was dedicated to the elaboration of original SDAs (decahydro-dicyclopenta[b,d]pyrrole derivatives) and their use in hydrothermal synthesis. This led to the synthesis of several known zeolites such as IM-12 (UTL), ITQ-7 (ISV), ITQ-17 (BEC) and ITQ-21.

Zéolithe

Germanosilicate

Synthèse hydrothermale

Détermination structurale sur poudre

Méthode Rietveld

Unité d4r

Imidazolium

19F, 29Si MAS NMR

Zeolite

Germanosilicate

Hydrothermal synthesis

Structure determination from powder

Rietveld method

D4r unit

Imidazolium

19F, 29Si MAS NMR

Syntéza a příprava bezolovnaté piezokeramiky / Synthesis and fabrication of lead-free piezoceramics

Řeháková, Bára

January 2018

The topic of this thesis is synthesis and preparation of lead-free pizoceramic with perovskite structure, in particular potassium-sodium niobate (KNN). In theoretical part are described possibilities of KNN synthesis and of it’s shaping and sintering. Experimental part deals with three types of synthesis described in the theretical part – solid state reaction, hydrothermal synthesis, sol-gel synthesis, and subconsequentional shaping of prepared powders by uniaxial pressing, cold isostatic pressure method, sintering (classical in oven, in some cases SPS – spark plasma sintering) of such green body and their following properties like relative density, grain size or charge constant. Preparation of KNN powder by each described method took place, followed by shaping and sintering. Best properties were shown by SPS sintered samples, which reached the highest density and lowest grain growth.

Síntesis de zeolitas como catalizadores para la optimización de procesos químicos de interés industrial

Cumplido Comeche, María Pilar

21 March 2022

[ES] Las zeolitas son sólidos inorgánicos, microporosos y cristalinos compuestos por la unión de tetraedros TO4 (T = Si, Ge, B, Al, Ti...). Estos tetraedros están unidos unos con otros por sus vértices, formando sistemas de canales y cavidades de dimensiones moleculares. Las propiedades de las zeolitas varían en función de la composición química de su estructura y de la topología y tamaño de sus canales. Por ello, el rango de aplicación de las zeolitas en la industria es muy amplio, presentando un especial interés en procesos de catálisis, adsorción y separación. Existen zeolitas con estructuras interesantes para su aplicación como catalizadores en reacciones químicas de interés industrial, pero que, debido a la composición química de su estructura, presentan una baja estabilidad y/o una pequeña o nula cantidad de centros activos. Un ejemplo son las zeolitas ITQ-13 (ITH), ITQ-15 (UTL), ITQ-24 (IWR) e ITQ-34 (ITR). La presente tesis doctoral se ha centrado en la síntesis de dichas estructuras zeolíticas, realizando modificaciones en su composición química para su posterior aplicación como catalizadores. Mediante la optimización de los procesos de síntesis hidrotermal y el desarrollo de diferentes tratamientos post-síntesis, se ha aumentado considerablemente la estabilidad de la estructura zeolítica y la fortaleza ácida de las zeolitas ITQ-13, ITQ-15, ITQ-24 e ITQ-34. Además, en las zeolitas ITQ-15 e ITQ-24 ha sido posible la incorporación de titanio en sus estructuras. Todos los procesos desarrollados evitan problemas presentes en los procesos de síntesis descritos en bibliografía para estas zeolitas, como problemas de obturación de los sistemas de canales o problemas de reproducibilidad. Por otro lado, se ha estudiado la utilización de ADEs quirales para la síntesis de zeolitas con propiedades enantioselectivas, además de las descritas previamente, para su utilización en procesos de catálisis asimétrica. / [CA] Les zeolites són sòlids inorgànics, microporosos i cristal·lins compostos per la unió de tetraedres TO4 (T = Si, Ge, B, Al, Ti...). Aquests tetraedres estan units uns amb altres pels seus vèrtexs, formant sistemes de canals i cavitats de dimensions moleculars. Les propietats de les zeolites varien en funció de la composició química de la seua estructura i de la topologia i dimensions dels seus canals. Per això, el rang d'aplicació de les zeolites en la indústria és molt ampli, presentant un especial interès en processos de catàlisi, adsorció i separació. Hi ha zeolites amb estructures interessants per a la seua aplicació com a catalitzadors en reaccions químiques d'interès industrial, però que presenten una baixa estabilitat i/o una xicoteta o nul·la quantitat de centres actius a causa de la composició de la seua estructura. Un exemple són les zeolites ITQ-13 (ITH), ITQ-15 (UTL), ITQ-24 (IWR) i ITQ-34 (ITR). La present tesi doctoral, s'ha centrat en la síntesi de les dites estructures zeolítiques amb modificacions en la seua composició química per a un posterior us com catalitzadors. Per mitjà de l'optimització dels processos de síntesi hidrotermal i el desenvolupament de diferents tractaments post-síntesi, s'ha augmentat considerablement l'estabilitat de l'estructura zeolítica i la fortalesa àcida de les zeolites ITQ-13, ITQ-15, ITQ-24 i ITQ-34. A més, en les zeolites ITQ-15 i ITQ-24 ha sigut possible la incorporació de titani en les seues estructures. Tots els processos desenvolupats eviten problemes presents en els processos de síntesis descrits en bibliografia per a aquestes zeolites, como a problemes d'obturació dels sistemes de canals o problemes de reproductibilitat. D'altra banda, s'ha estudiat la utilització d'ADEs quirals per a la síntesi de zeolites amb propietats enantioselectives, a més de les descrites prèviament, per a la seua utilització en processos de catàlisi asimètrica. / [EN] Zeolites are inorganic, microporous and crystalline materials formed by linking together tetrahedrons TO4 (T = Si, Ge, B, Al, Ti...). These tetrahedrons are connected with each other by their vertexes forming channels systems and cavities of molecular dimensions. Zeolite properties vary depending on the chemical composition of its framework and the topology and size of its channels. Because of that, zeolites have a wide field of industrial applications, notably in catalytic, adsorption and separation processes. There are zeolites with interesting structures to its application as catalysts in chemical reactions of industrial relevance, but its chemical composition gives rise to a material with low stability and/or small or zero amount of acid centers. An example are the zeolites ITQ-13 (ITH), ITQ-15 (UTL), ITQ-24 (IWR) and ITQ-34 (ITR). Taking account the good possibilities of these zeolites as catalyst, this thesis is focused on their synthesis with chemical composition modifications. The zeolitic framework stability and the acidic strength in zeolites ITQ-13, ITQ-15, ITQ-24 and ITQ-34 have been significantly enhanced. That has been possible by the optimization of the hydrothermal synthesis processes and the development of different post-synthesis treatments. In addition, titanium has been incorporated to the framework structures of ITQ-15 and ITQ-24 zeolites. All the developed processes avoid the problems present in the synthesis processes described in the literature for these zeolites, such as the partial blockage of the channel system or reproducibility problems. Furthermore, chiral organic compounds are studied as SDA in the synthesis of zeolites with enantioselective properties, with the objective to their use in asymmetric catalysis processes. / Cumplido Comeche, MP. (2022). Síntesis de zeolitas como catalizadores para la optimización de procesos químicos de interés industrial [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/181697 / TESIS

Síntesis hidrotermal

Zeolita ITQ-15

Zeolita ITQ-34

Zeolita ITQ-13

Propiedades texturales de zeolitas

Materiales microporosos

Catalizadores

Zeolitas

Síntesis de zeolitas

Zeolita ITQ-24

Catalysts

Microporous materials

Zeolites

Zeolite synthesis

Hydrothermal synthesis

Estudo de titanatos nanoestruturados obtidos por tratamento hidrot?rmico de ?xido de tit?nio em meio alcalino / Studies on nanostructured titanates obtained by alkali hydrothermal treatment of titanium oxide

Morgado J?nior, Edisson

24 August 2007

Made available in DSpace on 2014-12-17T15:42:01Z (GMT). No. of bitstreams: 1 EdissonMJ.pdf: 6565731 bytes, checksum: 5d6fdd6db6fc25a30c6100d96fff1edc (MD5) Previous issue date: 2007-08-24 / TiTanate NanoTubes (TTNT) were synthesized by hydrothermal alkali treatment of TiO2 anatase followed by repeated washings with distinct degrees of proton exchange. TTNT samples with different sodium contents were characterized, as synthesized and after heattreatment (200-800?C), by X-ray diffraction, scanning and transmission electron microscopy, electron diffraction, thermal analysis, nitrogen adsorption and spectroscopic techniques like FTIR and UV-Vis diffuse reflectance. It was demonstrated that TTNTs consist of trititanate structure with general formula NaxH2&#8722;xTi3O7?nH2O, retaining interlayer water in its multiwalled structure. The removal of sodium reduces the amount of water and contracts the interlayer space leading, combined with other factors, to increased specific surface area and mesopore volume. TTNTs are mesoporous materials with two main contributions: pores smaller than 10 nm due to the inner volume of nanotubes and larger pores within 5-60 nm attributed to the interparticles space. Chemical composition and crystal structure of TTNTs do not depend on the average crystal size of the precursor TiO2-anatase, but this parameter affects significantly the morphology and textural properties of the nanostructured product. Such dependence has been rationalized using a dissolution-recrystallization mechanism, which takes into account the dissolution rate of the starting anatase and its influence on the relative rates of growth and curving of intermediate nanosheets. The thermal stability of TTNT is defined by the sodium content and in a lower extent by the crystallinity of the starting anatase. It has been demonstrated that after losing interlayer water within the range 100-200?C, TTNT transforms, at least partially, into an intermediate hexatitanate NaxH2&#8722;xTi6O13 still retaining the nanotubular morphology. Further thermal transformation of the nanostructured tri- and hexatitanates occurs at higher or lower temperature and follows different routes depending on the sodium content in the structure. At high sodium load (water washed samples) they sinter and grow towards bigger crystals of Na2Ti3O7 and Na2Ti6O13 in the form of rods and ribbons. In contrast, protonated TTNTs evolve to nanotubes of TiO2(B), which easily convert to anatase nanorods above 400?C. Besides hydroxyls and Lewis acidity typical of titanium oxides, TTNTs show a small contribution of protonic acidity capable of coordinating with pyridine at 150?C, which is lost after calcination and conversion into anatase. The isoeletric point of TTNTs was measured within the range 2.5-4.0, indicating behavior of a weak acid. Despite displaying semiconductor characteristics exhibiting typical absorption in the UV-Vis spectrum with estimated bandgap energy slightly higher than that of its TiO2 precursor, TTNTs showed very low performance in the photocatalytic degradation of cationic and anionic dyes. It was concluded that the basic reason resides in its layered titanate structure, which in comparison with the TiO2 form would be more prone to the so undesired electron-hole pair recombination, thus inhibiting the photooxidation reactions. After calcination of the protonated TTNT into anatase nanorods, the photocatalytic activity improved but not to the same level as that exhibited by its precursor anatase / Titanatos nanoestruturados, particularmente TiTanatos NanoTubulares (TTNT), foram sintetizados por tratamento hidrot?rmico alcalino de TiO2-anat?sio seguido de repetidas lavagens com diversos graus de troca prot?nica. Amostras de TTNT com diferentes teores de s?dio foram caracterizadas na forma de p? seco e ap?s calcina??o (200-800?C) por difra??o de raios-X, microscopia eletr?nica de varredura e transmiss?o, difra??o de el?trons, an?lise t?rmica, adsor??o de nitrog?nio e t?cnicas espectrosc?picas de infravermelho e de reflet?ncia difusa no UV-Vis?vel. Demonstrou-se que tais materiais de paredes multilamelares s?o trititanatos de f?rmula geral NaxH2&#8722;xTi3O7?nH2O, retendo ?gua entre as lamelas. A remo??o de s?dio da estrutura reduz a quantidade de ?gua contraindo o espa?o interlamelar levando, combinado a outros fatores, ao aumento da ?rea e do volume de poros espec?ficos. Os TTNTs s?o materiais mesoporosos com duas contribui??es principais: poros menores que 10 nm devido ao volume interno dos nanotubos e poros entre 5 e 60 nm devido aos espa?os interpart?cula. A composi??o qu?mica e a estrutura cristalina do TTNT n?o dependem do tamanho de cristalito do TiO2-anat?sio precursor, todavia este par?metro afeta significativamente a morfologia e as caracter?sticas texturais do produto nanoestruturado. Tal depend?ncia foi racionalizada atrav?s de um mecanismo de dissolu??o-recristaliza??o que leva em conta a velocidade de dissolu??o do TiO2 de partida e sua influ?ncia sobre a taxa de crescimento de nanofolhas intermedi?rias em rela??o ? taxa de seu curvamento a nanotubos. A estabilidade t?rmica do TTNT ? definida pelo teor de s?dio e em pequena extens?o pelo tipo de anat?sio de partida. Foi demonstrado que o TTNT ap?s perder a ?gua intercalada entre 100 e 200?C se transforma pelo menos parcialmente num hexatitanato NaxH2&#8722;xTi6O13 intermedi?rio ainda nanotubular. A transforma??o t?rmica do tri- e hexatitanato nanoestruturados ocorre em maior ou menor temperatura e segue diferentes rotas dependendo do teor de s?dio. No caso de alto s?dio sinterizam e crescem at? grandes cristais de Na2Ti3O7 e Na2Ti6O13 na forma de bast?es e fitas acima de 600?C. No caso da amostra protonizada evoluem para nanotubos de TiO2(B) que facilmente se convertem em nanobast?es de anat?sio acima de 400?C. Al?m de hidroxilas e acidez de Lewis t?picos dos ?xidos de tit?nio, os TTNTs apresentam uma pequena contribui??o de acidez prot?nica capaz de se coordenar com a piridina a 150?C, e que ? perdida ap?s sua calcina??o e transforma??o ? anat?sio. O ponto isoel?trico do TTNT variou dentro da faixa 2,5- 4,0, indicando o comportamento de um ?cido fraco. Apesar de se revelar um semicondutor exibindo banda de absor??o t?pica no espectro de UV-vis?vel com energia de bandgap ligeiramente superior ao do respectivo TiO2-anat?sio precursor, os TTNTs apresentaram baixo desempenho fotocatal?tico na degrada??o de corantes cati?nico e ani?nico. Concluiu-se que a causa fundamental reside em sua estrutura de titanato lamelar que, em rela??o ? forma TiO2, apresentaria maior probabilidade de recombina??o do par el?tron-lacuna (e-/h+), inibindo as rea??es de fotoxida??o. A transforma??o do TTNT prot?nico ? nanobast?es de anat?sio melhorou a atividade fotocatal?tica, por?m ainda sem atingir o mesmo desempenho do TiO2-anat?sio precursor

S?ntese hidrot?rmica alcalina

Materiais nanoestruturados

Transforma??o de fases

Titanatos lamelares

Tit?nia

Nanotubos

Mecanismo de dissolu??o-recristaliza??o

Alkaline hydrothermal synthesis

Nanostructured materials

Layered titanates

Titania

Nanotubes

Phase transformation

Dissolution-recrystallization mechanism

Borophosphate der Haupt- und Nebengruppenmetalle: Synthese, Charakterisierung und Strukturchemische Klassifizierung

Ewald, Bastian

05 December 2006

Es werden neue Erkenntnisse über Borphosphat und Borophosphate der Haupt- und Nebengruppenmetalle vorgestellt. Neben Hydrothermalsynthesen und Feststoffreationen, die üblicherweise zur Synthese von Borophosphaten angewendet werden, haben insbesondere die solvothermalen Experimente mit Alkoholen bzw. Alkohol-Wasser-Mischungen zu neuen Ergebnissen geführt. Es wurden neue Borophosphate und Borat-Phosphate in den Systemen MxOy–B2O3–P2O5(–H2O) (M = K+, Rb+, Mg2+, Sc3+, Pr3+, Sm3+, In3+) dargestellt, weitere Verbindungen enthalten neben Mg2+ weitere Kationen der Haupt- und Nebengruppenmetalle (Ca, Sr, Ba, Mn, Fe, Co, Zn). Darüberhinaus gelang die Darstellung bislang unbekannter Scandium- und Lanthanphosphate(III) sowie von sauren Alkalimetall-Scandiumphosphaten(V). Aus Synthesen in Gegenwart von Ethylendiamin und Diazabizyklooktan wurden ferner zwei neue templatierte Scandiumphosphate mit porösen Gerüststrukturen erhalten. Die Kristallstrukturen aller Verbindungem wurden rötgenographisch anhand von Einkristallaufnahmen oder Pulverdaten aufgeklärt. Die Charakterisierung der Präparate erfolgte mit Röntgenpulverdiffraktometrie, EDX- und Elementaranalysen sowie durch Schwingungsspektroskopie und thermische Stabilitätsuntersuchungen. Zur Klassifizierung von (Metallo)borophosphaten wird eine Struktursystematik vorgeschlagen, welche Borophosphate und Metalloborophosphate entsprechend ihrer anionischen Teilstrukturen hierarchisch klassifiziert und in Analogie zur Terminologie der Silikate (nach Liebau) beschreibt. In Anlehnung an bestehende Konzepte für Boratminerale geht das Klassifizierungsschema dabei von einfachen Oligomeren aus. In einer struktursystematischen Übersicht wurden alle bis dato bekannten (Metallo)Borophosphate hierarchisch klassifiziert und sind in einer Übersicht vorgestellt. Beobachtete Verknüpfungsregeln und der Einfluss der Zusammensetzung B:P auf die Dimensionalität und die Verknüpfungsmuster der anionischen Teilstruktur werden diskutiert.

Borophosphate

Metalloborophosphate

Struktursystematik

Kristallstruktur

Scandium

Lanthan

Seltenerd

Indium

Magnesium

Kalium

Rubidium

Phosphate

Borate

Borat-Phosphate

Hydrothermalsynthese

Solvothermalsynthese

Übergangsmetalle

borophosphate

metalloborophosphate

structural chemistry

crystal structure

scandium

indium

magnesium

lanthanum

kalium

rubidium

phosphate

borate

borat-phosphate

hydrothermal synthesis

solvothermal synthesis

rare earth

transition metal

ddc:540

rvk:VE 9357

Phosphate

Strukturauflösung

Hydrothermalsynthese

Übergangsmetall

Kristallstruktur

Influence de la morphologie d’oxydes à base de cérium sur les relations (micro)structures/propriétés / Influence of the morphology of cerium-based oxide on the relation (micro) structure/properties

Feral-Martin, Cédric

07 October 2010

Les oxydes à base de Cérium, ont fait l’objet de nombreuses études ces dernières décennies et se sont révélés des matériaux de choix, dans le domaine de la catalyse hétérogène. L’objectif à l’heure actuelle, est donc d’accroître la réactivité de ces oxydes, tout en élargissant leur gamme de températures optimales d’utilisation. Dans ce contexte particulier, il semble possible de moduler les propriétés des oxydes à base de cérium en contrôlant la morphologie des cristallites. Ce travail de thèse a donc été consacré à la détermination, l’élaboration et à la caractérisation de matériaux oxydes à base de cérium de morphologies contrôlées. Nous avons tout d’abord déterminé cristallographiquement et thermodynamiquement les morphologies accessibles au système étudié puis par traitement hydrothermale assistée par chauffage micro-ondes nous avons synthétisé les dites morphologies. Après caractérisation de la réactivité par ATG et thermographie Infrarouge nous avons optimisé ces matériaux par un dopage extrinsèque tout d’abord (dépôt de métaux précieux), puis par un dopage intrinsèque ensuite (Yttrium et Fer). Enfin, l’obtention de morphologies non accessibles cristallographiquement nous a amené à approfondir le(s) processus de germination croissance de ces particules et la forte réactivité des matériaux dopés fer nous a poussé à une caractérisation fine de la microstructure de ces matériaux. Au final nous avons pu corréler l’influence de la morphologie des cristallites sur la réactivité propre de l’ensemble des familles de matériaux étudiés. / Recent decades, numerous studies on cerium-based oxides have been realized and have revealed that cerium-based oxides were materials of choice in the field of heterogeneous catalysis. The aim now is therefore to increase the reactivity of these oxides, while expanding their range of optimal temperatures of Use. In this particular context, it seems possible to modulate the properties of cerium-based oxides by controlling the morphology of the crystallites. This thesis has been devoted to the identification, development and characterization of materials based on cerium oxides of controlled morphology. We first determined possible morphologies for the studied system, by hydrothermal synthesis by micro-wave assisted heating we have synthesized these morphologies and we characterized reactivity of these materials by infrared thermography and TGA. We have optimized these materials first, by extrinsic doping (deposition of precious metals) and then by intrinsic doping (Yttrium and Iron). New morphologies have been synthesized so we have studied the processes of nucleation-growth set in. The high reactivity of iron-doped materials has led us to a detailed characterization of the microstructure of these materials. Finally correlation reactivity/morphologies of crystallites have been achieved.

Morphologie

Oxydes à bases de Cérium

Au/CeO2

Propriétés de surface

Processus germination/croissance

Réactivité

Propriétés interfaces

Met

Morphology

Cerium-based oxides

Au/CeO2

Surface properties

Tem

Process of germination/growth

Reactivity

Interface properties