Design normal: memória e invisibilidade dos objectos

As últimas décadas têm sido caracterizadas por uma crescente indefinição do design, que refletindo um dia-a-dia cada vez mais complexo, não pode mais ser encarado como actividade fechada no projecto e acabada no produto. O seu universo aumentou e dispersou-se em mercados menores, alargando o seu alcance e sua importância, transformando-o em termo quantitativo e inflacionário. A crescente atenção de que é alvo dramatizou a sua relação com o consumo, o ruído nas prateleiras e a superficialidade da generalização de uma perspectiva do projecto focada nos new media, validando uma abordagem narcisista e de dispensa do diálogo com a indústria, tornaram-no sinónimo de especial. Este trabalho procura confirmar e refletir sobre a existência de um universo de produtos concretos e abordagens que de forma consciente partilham esta noção do contexto actual, em primeiro lugar, sugerindo caminhos alternativos e reacções resultantes da prática e discurso. Em segundo lugar procura analisar se tal reacção pode ser considerada como um movimento. Partindo de uma revisão bibliográfica, e de uma reflexão sobre um universo de produtos do dia-a-dia, procura-se, em terceiro lugar, interpretar e organizar as diversas formas e estratégias de rejeição da noção de design especial. Da procura de abordagens opostas a especial resulta uma ideia base de normal, normal sem ser banal, expressa na exposição Super Normal. Da extensão a um universo maior de produtos, reacções e autores, resulta a ideia de normal como um conceito mais abrangente, mas composto por conceitos menores, mais específicos, mais concretos e fáceis de identificar nos objectos. A organização e interpretação dessas abordagens resulta num triângulo de conceitos que constroem a noção de normal pela procura da evolução por recurso à memória e ao conhecimento, da invisibilidade pela integração e diluição do produto e projecto, e da liberdade como meio de adequação ao contexto actual. O livro resultante reflete uma abordagem definida de uma época, e não todo o panorama. A sistematização do conceito de normal a partir da segmentação em ideias menores, mais concretas e identificáveis nos produtos, procura proporcionar a consulta organizada de reacções ao contexto dominante actual, à ideia de especial, mas mais do que regras, procura fornecer um documento de reflexão a visitar no acto de projectar, seja como um todo, ou em partes.

Nonaqueous sol-gel routes to doped metal oxide nanoparticles: synthesis, characterization, assembly and properties

The results presented in this thesis have been achieved under the Ph.D. project entitled “Nonaqueous Sol-Gel routes to doped metal oxide nanoparticles: Synthesis, characterization, assembly and properties”. The purpose of this study is the investigation of metal oxide nanostructures doped with metals of a diverse nature, leading to different type of applications. The easier control over the reaction kinetics in solvothermal routes, compared to aqueous methods, allows to better match the reactivity between metal oxide precursors, paving the way to a facile and low temperature production of doped oxides. In this manuscript diverse examples of the exploitation of the “Benzyl Alcohol Route” are discussed. Such a powerful pathway was utilized for the synthesis of transition metal doped zirconia, hafnia and various perovskites, and the study of their magnetic properties, as well as the synthesis of rare earth doped zirconium oxide. A further extension, proving the solidity of the synthetic method, is shown for the preparation of Li4Ti5O12 nanocrystals carrying excellent electrochemical properties for lithium-ion battery applications. Finally, the effect of doping and other reaction parameters on the assembly of the nanocrystals is discussed. These studies were carried out principally at the University of Aveiro, as well as at the University of Montpellier II and at the Seoul National University due to complementary available expertises and equipments.

Catalytic routes to convert saccharides to furanic aldehydes

The conversion of plant biomass-derived carbohydrates (preferably non-edible) into added-value products is envisaged to be at the core of the future biorefineries. Carbohydrates are the most abundant natural organic polymers on Earth. This work deals with the chemical valorisation of plant biomass, focusing on the acid-catalysed conversion of carbohydrates (mono and polysaccharides) to furanic aldehydes, namely 2-furaldehyde (Fur) and 5-hydroxymethyl-2-furaldehyde (Hmf), which are valuable platform chemicals that have the potential to replace a variety of oil derived chemicals and materials. The investigated reaction systems can be divided into two types depending on the solvent used to dissolve the carbohydrates in the reaction medium: water or ionic liquid-based systems. The reaction temperatures were greater than 150 ºC when the solvent was water, and lower than 150 º C in the cases of the ionic liquid-based catalytic systems. As alternatives to liquid acids (typically used in the industrial production of Fur), solid acid catalysts were investigated in these reaction systems. Aiming at the identification of (soluble and insoluble) reaction products, complementary characterisation techniques were used namely, FT-IR spectroscopy, liquid and solid state NMR spectroscopy, TGA, DSC and GC´GC-ToFMS analyses. Complex mixtures of soluble reaction products were obtained and different types of side reactions may occur. The requirements to be put on the catalysts for these reaction systems partly depend on the type of carbohydrates to be converted and the reaction conditions used. The thermal stability is important due to the fact that formation of humins and catalyst coking phenomena are characteristically inherent to these types of reactions systems leading to the need to regenerate the catalyst which can be effectively accomplished by calcination. Special attention was given to fully inorganic nanoporous solid acids, amorphous or crystalline, and consisting of nano to micro-size particles. The investigated catalysts were silicoaluminophosphates, aluminosilicates and zirconium-tungsten mixed oxides which are versatile catalysts in that their physicochemical properties can be fine-tuned to improve the catalytic performances in the conversion of different substrates (e.g. introduction of mesoporosity and modification of the acid properties). The catalytic systems consisting of aluminosilicates as solid acids and water as solvent seem to be more effective in converting pentoses and related polysaccharides into Fur, than hexoses and related polysaccharides into Hmf. The investigated solid acids exhibited fairly good hydrothermal stabilities. On the other hand, ionic liquid-based catalytic systems can allow reaching simultaneously high Fur and Hmf yields, particularly when Hmf is obtained from D-fructose and related polysaccharides; however, catalyst deactivation occurs and the catalytic reactions take place in homogeneous phase. As pointed out in a review of the state of the art on this topic, the development of truly heterogeneous ionic liquid-based catalytic systems for producing Fur and Hmf in high yields remains a challenge.