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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Mild Preparation of Anode Materials for Lithim Ion Batteries: from Gas-Phase Oxidation to Salt-free Green Method

Holze, Rudolf, Wu, Yuping 27 November 2009 (has links) (PDF)
Natural graphite from cheap and abundant natural sources is an attractive anode material for lithium ion batteries. We report on modifications of such a common natural graphite, whose electrochemical performance is very poor, with solutions of (NH4)2S2O8, concentrated nitric acid, and green chemical solutions such of e.g. hydrogen peroxide and ceric sulfate. These treatments resulted in markedly im-proved electrochemical performance (reversible capacity, coulombic efficiency in the first cycle and cycling behavior). This is attributed to the effective removal of active defects, formation of a new dense surface film consisting of oxides, improvement of the graphite stability, and introduction of more nanochannels/micropores. These changes inhibit the decomposition of electrolyte solution, pre-vent the movement of graphene planes along a-axis direction, and provide more passage and storage sites for lithium. The methods are mild, and the uniformity of the product can be well controlled. Pilot experiments show promising results for their application in industry.
2

Design of new catalysts for the mild oxidation of propene to acrolein / Préparation de nouveaux catalyseurs pour l'oxydation ménagée du propène en Acroléine

Tonelli, Matteo 10 December 2015 (has links)
Pas de résumé / Pas de résumé
3

Mild Preparation of Anode Materials for Lithim Ion Batteries: from Gas-Phase Oxidation to Salt-free Green Method

Holze, Rudolf, Wu, Yuping 27 November 2009 (has links)
Natural graphite from cheap and abundant natural sources is an attractive anode material for lithium ion batteries. We report on modifications of such a common natural graphite, whose electrochemical performance is very poor, with solutions of (NH4)2S2O8, concentrated nitric acid, and green chemical solutions such of e.g. hydrogen peroxide and ceric sulfate. These treatments resulted in markedly im-proved electrochemical performance (reversible capacity, coulombic efficiency in the first cycle and cycling behavior). This is attributed to the effective removal of active defects, formation of a new dense surface film consisting of oxides, improvement of the graphite stability, and introduction of more nanochannels/micropores. These changes inhibit the decomposition of electrolyte solution, pre-vent the movement of graphene planes along a-axis direction, and provide more passage and storage sites for lithium. The methods are mild, and the uniformity of the product can be well controlled. Pilot experiments show promising results for their application in industry.
4

Záporná elektroda lithných sekundárních článků / Negative Electrode of Lithium Secondary Cells

Makovička, Jaromír January 2008 (has links)
The thesis deals with a study of the various carbon materials for negative electrode of lithium ion accumulators. The object of the work is to gain the most knowledge about these materials and to project their possible improvements. In the first part of the work is described the latest knowledge about carbon materials and their application. In the following parts of the work is handled about manufacture,optimization of composition of electrode and the choice of carbon material for liquid and gel electrolyte.
5

Bulk TiO2 vs alternative Ti-based photocatalysts for the mild aerobic oxidation of alcohols / Masse de TiO2 versus photocatalyseurs alternatifs à base de titane de l’oxydation ménagée et aérobie d’alcools

Obaid, Diaa 26 October 2017 (has links)
Des oxydes semi-conducteurs, en particulier TiO2 commercialement disponible ou des échantillons mésoporeux synthétisés, ont été testés comme photocatalyseurs de l'oxydation ménagée et aérobie d'alcools dans l'acétonitrile sous UV. L'alcool benzylique a été oxydé principalement en benzaldéhyde (rendement = 60%) en présence de TiO2-P25. Malheureusement, ce catalyseur tend à se désactiver. Le rôle du dioxygène dans le processus d'oxydation a été souligné après avoir testé différents solvants. Les alcools aliphatiques ont également été étudiés. Ainsi, le cyclohexanol a donné principalement de la cyclohexanone (rendement = 70%). Parallèlement, une approche colloïdale a été développée pour déposer les nanoparticules d'oxyde de titane sur des supports de silice mésoporeux SBA-15 transparents aux UV afin d'éviter les phénomènes d'agrégation lors des tests. Après optimisation de leur synthèse (quantité d'eau, nature de l'acide et de l'alcool), des nanoparticules sphériques non cristallines stables de 5 nm de diamètre ont été obtenues. En utilisant la méthode d'imprégnation à "deux solvants", ces dernières ont été introduites avec succès dans les mésopores de deux échantillons de SBA-15, l'un avec un diamètre moyen des pores de 6 nm, l'autre de 8. Les analyses MET ont souligné que le matériau SBA-15 avec les pores les plus grands a conduit à l'incorporation de davantage de nanoparticules. A priori, les interactions silice / oxyde de titane dans les matériaux résultants semblent favorables puisque les quantités inférieures de TiO2 dans les tests de photocatalyse correspondants ont conduit à de meilleurs taux de conversion que ceux obtenus avec P25 ou la suspension mère de colloïdes. / A series of metal oxides semiconductors, including commercially available TiO2 or synthesized mesoporous samples, were tested as photocatalysts for the aerobic mild oxidation of alcohols in acetonitrile under UV. Benzyl alcohol, used as a reference, was oxidized mainly into benzaldehyde. Best yield (60%) was obtained with TiO2-P25. Unfortunately, this catalyst tended deactivate with time. The role of dioxygen solubility in the oxidation process was emphasized through the test of different solvents. Aliphatic alcohols were also studied. Among them, cyclohexanol gave mainly cyclohexanone with a yield of 70%. Parallely, a colloidal approach was developed for the deposition of titanium oxide nanoparticles on UV transparent mesoporous silica supports in order to take advantage of their important specific surface area and avoid aggregation phenomena during the photocatalysis tests. After optimizing the synthesis protocol (amount of water, nature of the acid and alcohol), spherical, non-crystalline stable nanoparticles with 5 nm diameter were obtained. Using the “two-solvents” impregnation method, these particles were successfully introduced in the mesopores of two SBA-15 silica samples differing by their mean pore diameter (either 6 or 8 nm). TEM measurements emphasized that the SBA-15 material with the largest pores led to the incorporation of more nanoparticles in its mesopores. Clearly, silica/ titanium dioxide interactions in the resulting materials appeared to play a positive role since lower amounts of TiO2 in the corresponding photocatalysis tests led to improved conversion rates of benzylalcohol compared to those performed with P25 or the parent suspension of colloids.

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