Le vert et le rouge: a study on the materials, techniques and meaning of the green and red colours in medieval portuguese illuminations

Dissertação para obtenção do Grau de Doutor em Conservação e Restauro

Estudo Comparativo entre Dois Tipos de Eco-Contrastes: Echovist® e Levovist®, Avaliação da Permeabilidade Tubária em Infertilidade Feminina

Na propedêutica inicial do casal infértil, a realização da Sonossalpingografia (SoSG) contrastada através de dois tipos de ecocontrastes, Echovist® e Levovist®, durante a realização da ultra-sonografia ginecológica convencional pode, em casos seleccionados, substituir como exame de “screening” da permeabilidade tubária a Histerossalpingografia (HSG) e a Laparoscopia com cromotubação (LPC). Objectivos: Comparar os resultados da permeabilidade tubária através da SoSG contrastada com Echovist® ou com Levovist® e a HSG e determinar a sua acuidade em relação a LPC considerada “gold-standard”. Pacientes e métodos: Foram avaliadas prospectivamente 90 pacientes inférteis submetidas a SoSG em que se utilizou o contraste ecogénico Echovist® e 28 pacientes em que se utilizou o eco-realçador Levovist®. Para a HSG utilizou-se, em todas as pacientes, contraste iodado e hidrossolúvel Telebrix®. A observação da permeabilidade tubária teve sua avaliação final e sistemática pela LPC. Resultados: No estudo das trompas pelo Echovist® observamos permeabilidade em 67 pacientes (74,4%) e obstruções bilaterais em 23 das pacientes (25,6%) e pelo Levovist®, respectivamente, 22 (78,6%) e 6 pacientes (21,4%). Na comparação da avaliação da permeabilidade tubária entre a SoSG com Echovist® e LPC encontramos: especificidade € 91,3%, sensibilidade (S) 100%, falsos positivos (FP) 8,7%, falsos negativos (FN) 0%, valor preditivo positivo (VPP) 97,1%, valor preditivo negativo (VPN) 100% e Kappa de 96,5%, e entre a HSG e LPC, neste grupo Echovist® foram: E 100%, S 91,04%, FP 0%, FN 8,96%, VPP 100%, VPN 79,31% e Kappa de 88,6%. Na comparação da avaliação da permeabilidade tubária entre a SoSG com Levovist® e LPC encontramos: E 100%, S 100%, FP 0%, FN 0%, VPP 100%, VPN 100% e Kappa de 100%, e entre a HSG e LPC, no grupo Levovist® foram: E 100%, S 86,36%, FP 0%, FN 13,64%, VPP 100%, VPN 66,67% e Kappa de 82,2%. Conclusões: As Sonossalpingografias (SoSG) contrastadas utilizando-se como eco-realçadores o Echovist® ou o Levovist® podem ser consideradas exames complementares equivalentes na rotina da avaliação inicial do factor tubário por apresentarem, além do mesmo composto químico activo, alta sensibilidade, especificidade e concordância, ambos com acuidade superior à HSG quando comparados com a LPC.

An approach to teach Calculus/Mathematical Analysis (for engineering students) using computers and active learning – its conception, development of materials and evaluation

Dissertação para obtenção do Grau de Doutor em Ciências da Educação

Treatment of a nineteenth century male portrait in oil including the characterisation of materials, technique and a study of the lead soap aggregation in the paint composite

Dissertação para obtenção do Grau de Mestre em Conservação e Restauro

Materials handling in hospitals: An analysis of how the storage and materials handling system can be improved, using the example of Hospital Santa Maria

A Work Project, presented as part of the requirements for the Award of a Masters Degree in Management from the NOVA – School of Business and Economics

Eco-bairros: análise de casos internacionais e recomendações para o contexto nacional

Dissertação para obtenção do Grau de Mestre em Engenharia do Ambiente, Perfil de Ordenamento do Território e Impactes Ambientais

Unstabilised rammed earth: characterization of material collected from old constructions in South Portugal and comparison to normative requirements

International Journal of Architectural Heritage, 8: 185–212, 2014

Earth building materials in pre-historic domestic architectures on the south of Portugal

HERITAGE 2008 - World Heritage and Sustainable Development. Barcelos: Green Lines Institute for Sustainable Development, Vol. 2, p. 571-579

Medidas de gestão de eficiência hídrica em empreendimentos turísticos - Caso de estudo Zmar Eco-Campo Resort & Spa

Dissertação para obtenção do Grau de Mestre em Engenharia do Ambiente – Perfil Engenharia Sanitária

Characterization of processed materials by electrical currents: development of equipment and applications

Dissertação para obtenção do Grau de Mestre em Engenharia Mecânica

Electrodialytic remediation of two types of air pollution control residues and their applicability in construction materials

Dissertação para obtenção do Grau de Mestre em Engenharia do Ambiente Perfil de Engenharia de Sistemas Ambientais

Characterization and surface reconstruction of objects in tomographic images of composite materials

Dissertação para obtenção do Grau de Mestre em Engenharia Informática

Design and characterization of Chitin- Glucan polymeric structures for wound dressing materials

The main objective of this work was the development of polymeric structures, gel and films, generated from the dissolution of the Chitin-Glucan Complex (CGC) in biocompatible ionic liquids for biomedical applications. Similar as chitin, CGC is only soluble in some special solvents which are toxic and corrosive. Due to this fact and the urgent development of biomedical applications, the need to use biocompatible ionic liquids to dissolve the CGC is indispensable. For the dissolution of CGC, the biocompatible ionic liquid used was Choline acetate. Two different CGC’s, KiOnutrime from KitoZyme and biologically produced CGC from Faculdade de Ciencias e Tecnologia (FCT) - Universidade Nova de Lisboa, were characterized in order to develop biocompatible wound dressing materials. The similar result is shown in term of the ratio of chitin:glucan, which is 1:1.72 for CGC-FCT and 1:1.69 for CGC-Commercial. For the analysis of metal element content, water and inorganic salts content and protein content, both polymers showed some discrepancies, where the content in CGC-FCT is always higher compared to the commercial one. The different characterization results between CGC-FCT and CGC-Commercial could be addressed to differences in the purification method, and the difference of its original strain yeast, whereas CGC-FCT is derived from P.pastoris and the commercial CGC is from A.niger. This work also investigated the effect of biopolymers, temperature dissolution, non-solvent composition on the characteristics of generated polymeric structure with biocompatible ionic liquid. The films were prepared by casting a polymer mixture, immersion in a non-solvent, followed by drying at ambient temperature. Three different non-solvents were tested in phase inversion method, i.e. water, methanol, and glycerol. The results indicate that the composition of non-solvent in the coagulation bath has great influence in generated polymeric structure. Water was found to be the best coagulant for producing a CGC polymeric film structure. The characterizations that have been done include the analysis of viscosity and viscoelasticity measurement, as well as sugar composition in the membrane and total sugar that was released during the phase inversion method. The rheology test showed that both polymer mixtures exhibit a non- Newtonian shear thinning behaviour. Where the viscosity and viscoelasticity test reveal that CGCFCT mixture has a typical behaviour of a viscous solution with entangled polymer chains and CGCCommercial mixture has true gel behaviour. The experimental results show us that the generated CGC solution from choline acetate could be used to develop both polymeric film structure and gel. The generated structures are thermally stable at 100° C, and are hydrophilic. The produced films have dense structure and mechanical stabilities against puncture up to 60 kPa.

Printable organic and inorganic materials for flexible electrochemical devices

Portuguese Science Foundation - project Electra PTDC/CTM/099124/2008 and the PhD grant SFRH/BD/45224. financial support: Professor E. Fortunato’s ERC 2008 Advanced Grant (INVISIBLE contract number 228144), “APPLE” FP7-NMP-2010-SME/262782-2 and “SMARTEC” FP7-ICT-2009.3.9/258203

Molecular simulation of gas adsorption equilibria in nanoporous materials

This work is divided into two distinct parts. The first part consists of the study of the metal organic framework UiO-66Zr, where the aim was to determine the force field that best describes the adsorption equilibrium properties of two different gases, methane and carbon dioxide. The other part of the work focuses on the study of the single wall carbon nanotube topology for ethane adsorption; the aim was to simplify as much as possible the solid-fluid force field model to increase the computational efficiency of the Monte Carlo simulations. The choice of both adsorbents relies on their potential use in adsorption processes, such as the capture and storage of carbon dioxide, natural gas storage, separation of components of biogas, and olefin/paraffin separations. The adsorption studies on the two porous materials were performed by molecular simulation using the grand canonical Monte Carlo (μ,V,T) method, over the temperature range of 298-343 K and pressure range 0.06-70 bar. The calibration curves of pressure and density as a function of chemical potential and temperature for the three adsorbates under study, were obtained Monte Carlo simulation in the canonical ensemble (N,V,T); polynomial fit and interpolation of the obtained data allowed to determine the pressure and gas density at any chemical potential. The adsorption equilibria of methane and carbon dioxide in UiO-66Zr were simulated and compared with the experimental data obtained by Jasmina H. Cavka et al. The results show that the best force field for both gases is a chargeless united-atom force field based on the TraPPE model. Using this validated force field it was possible to estimate the isosteric heats of adsorption and the Henry constants. In the Grand-Canonical Monte Carlo simulations of carbon nanotubes, we conclude that the fastest type of run is obtained with a force field that approximates the nanotube as a smooth cylinder; this approximation gives execution times that are 1.6 times faster than the typical atomistic runs.