Potentiostatic Reversible Photoelectrochromism: An Effect Appearing in Nanoporous TiO2/Ni(OH)2 Thin Films

In the field of energy saving, finding composite materials with the ability of coloring upon both illumination and change of the applied electrode potential keeps on being an important goal. In this context, chemical bath deposition of Ni(OH)2 into nanoporous TiO2 thin films supported on conducting glass leads to electrodes showing both conventional electrochromic behavior (from colorless to dark brown and vice versa) together with photochromism at constant applied potential. The latter phenomenon, reported here for the first time, is characterized by fast and reversible coloration upon UV illumination. The bleaching kinetics shows first order behavior with respect to the NiIII centers in the film, and an order 1.2 with respect to electrons in the TiO2 film. From a more applied point of view, this study opens up the possibility of having two-mode smart windows showing not only conventional electrochromism but also reversible darkening upon illumination.

Argamassas de auto-limpeza : da formulação às aplicações

Atualmente assiste-se a um grave problema de salubridade visual das cidades, designadamente no espaço edificado/ construído. A sujidade é uma ameaça que, junto com os graffitis, tem contribuído para a degradação precoce dos espaços urbanos. A fim de se enfrentar este problema, que tem vindo a proliferar nas cidades, um pouco por todo o mundo, a presente dissertação de mestrado ambiciona contribuir para a sistematização da informação existente sobre a produção e caracterização de argamassas de auto-limpeza. As argamassas de auto-limpeza são produzidas por uma de duas formas: com a adição de nanopartículas de dióxido de titânio (TiO2) na sua matriz ou com a aplicação de um filme fino à base de TiO2 na sua superfície. Esta segunda é apontada como a técnica mais eficaz e económica. Salienta-se o facto do TiO2 ser um dos nanomateriais mais utilizados na construção pelas suas propriedades fotocatalíticas que o capacitam como um dos mais exímios fotocatalisadores, aquando da fotocatálise heterogénea. É graças ao processo de fotodegradação química da fotocatálise, que na presença de luz solar e da ação da água, que o TiO2 é ativado, desencadeando reações químicas que aumentam a eficácia e eficiência fotocatalítica. Analisou-se um conjunto de trabalhos de investigação recentes que comprovam que o uso das argamassas de auto-limpeza é adequado e benéfico em intervenções em edifícios novos como em obras de conservação e reabilitação de edifícios antigos. Além de reduzirem os investimentos em obras de limpeza, manutenção/conservação e reabilitação, prolongam a conservação das fachadas e melhoram os níveis da qualidade do ar. Apesar do crescente número de patentes pedidas e concedidas nesta área, as normas aplicáveis ainda não se encontram uniformizadas. Nesse sentido, a experiência do Japão deve ser tida como exemplo para que os restantes países desenvolvam de forma consensual as suas próprias normas e patentes, permitindo, futuramente, conferir maior credibilidade, segurança no uso dos nanomateriais e uma maior permeabilidade no setor da construção. Elencam-se alguns nano-produtos à base de nano TiO2 comercializados que têm vindo a ser aplicados sobretudo na China, Japão e na Alemanha.

Utilização de açúcares em nanopartículas para a veiculação de fármacos

Dissertação para obtenção do grau de Mestre no Instituto Superior de Ciências da Saúde Egas Moniz

Preparação e caracterização de micro/nanopartículas de quitosano para libertação de cisplatina

Nos últimos anos, a crescente necessidade de desenvolvimento de novos e inovadores sistemas para a libertação de fármacos, tem levado a comunidade científica à pesquisa de novos materiais, maioritariamente de origem polimérica. O aparecimento destes materiais abre novas possibilidades aos campos de investigação da medicina e farmacologia, uma vez que os polímeros podem ser facilmente modificados (por reticulação física ou química) e processados nas mais diversas formas. Entre os novos materiais estudados encontra-se o quitosano, um polímero de origem natural extraído das carapaças de animais marinhos. O quitosano tem sido exaustivamente investigado devido a um conjunto de características, como biocompatibilidade, biodegradabilidade e ausência de toxicidade. O objectivo do presente trabalho consiste na preparação de microsferas de quitosano pelo método de emulsão água-em-óleo, seguido de reticulação, para utilização como sistemas de libertação de fármacos. Após análise da literatura disponível, verifica-se que existe um hiato de informação sobre o impacto das condições iniciais da preparação de microsferas nas suas características de tamanho e forma, pelo que se considerou importante colmatar a presente falta com este estudo, uma vez que o conhecimento da morfologia das microsferas preparadas é fulcral para estudos de difusão. Em estudos de libertação de fármacos, o quitosano geralmente apresenta elevadas taxas de difusão e biodegradação, juntamente com reduzidas propriedades mecânicas. Na tentativa de melhorar estas propriedades, as microsferas de quitosano são reticuladas quimicamente com genipin, um reticulante de origem natural. Para o estudo do impacto das variáveis de entrada no tamanho e na morfologia das microsferas, variou-se a concentração de quitosano, a concentração de genipin e a velocidade de agitação da emulsão água-em-óleo, pois na informação existente na literatura está patente que estas são as variáveis mais relevantes. Depois de obtidas as microsferas, foram recolhidas imagens com uma camara de alta resolução acoplada a um microscópio óptico, sendo que a dimensão e a morfologia destas foi analisada por análise de imagem, com recurso ao software de imagem ImageJ®. Foram medidos os parâmetros de tamanho, designadamente o diâmetro equivalente, o perímetro e os diâmetros de Feret (máximo e mínimo), e os parâmetros de forma: a circularidade e o factor de forma (AR). Os resultados obtidos mostram que o diâmetro equivalente das microsferas de quitosano reticuladas com genipin (bem como todas as restantes propriedades de tamanho) diminui com a diminuição quer da concentração de polímero quer da concentração de reticulante. O aumento da velocidade de agitação da emulsão também se reflecte numa diminuição da dimensão das microsferas. As variáveis de entrada não aparentam ter qualquer tipo de impacto sobre as características de forma, embora os resultados indiciem que as microsferas mais pequenas, de menor diâmetro equivalente são as que, aparentemente, apresentam maior esfericidade. Estes resultados, de natureza qualitativa, foram consolidados por recurso a Análise de Variância (ANOVA)

A Two-Step Sol–Gel Method for Synthesis of Nanoporous TiO2

This article reports a study of the effects of synthesis parameters on the preparation and formation of mesoporous titania nanopowders by employing a two-step sol-gel method. These materials displayed crystalline domains characteristic of anatase. The first step of the process involved the hydrolysis of titanium isopropoxide in a basic aqueous solution mediated by neutral surfactant. The solid product obtained from step 1 was then treated in an acidified ethanol solution containing the same titanium precursor to thicken the pore walls. Low pH and higher loading of the Ti precursor in step 2 produced better mesoporosity and crystallinity of titanium dioxide polymorphs. The resultant powder exhibited a high surface area (73.8 m(2)/g) and large pore volume (0.17 cm(3)/g) with uniform mesopores. These materials are envisaged to be used as precursors for mesoporous titania films as a wide band gap semiconductor in dye-sensitized nanocrystalline TiO2 solar cells.

Cobalt promoted TiO2/GO for the photocatalytic degradation of oxytetracycline and Congo Red

A family of titania derived nanocomposites synthesized via sol-gel and hydrothermal routes exhibit excellent performance for the photocatalytic degradation of two important exemplar water pollutants, oxytetracycline and Congo Red. Low loadings of Co3O4 nanoparticles dispersed over the surfaces of anatase TiO2 confer visible light photoactivity for the aqueous phase decomposition of organics through the resulting heterojunction and reduced band gap. Subsequent modification of these Co3O4/TiO2 composites by trace amounts of graphene oxide nanosheets in the presence of a diamine linker further promotes both oxytetracycline and Congo Red photodegradation under simulated solar and visible irradiation, through a combination of enhanced photoresponse and consequent radical generation. Radical quenching and fluorescence experiments implicate holes and hydroxyl radicals as the respective primary and secondary active species responsible for oxidative photodegradation of pollutants.

Size-controlled TiO2 nanoparticles on porous hosts for enhanced photocatalytic hydrogen production

Nanocystalline TiO2 particles were successfully synthesized on porous hosts (SBA-15 and ZSM-15) via a sol-gel impregnation method. Resulting nanocomposites were characterized by XRD, TEM, BET surface analysis, Raman and UV-vis diffuse reflectance spectroscopy, and their photocatalytic activity for H2 production evaluated. XRD evidences the formation of anatase nanoparticles over both ZSM-5 and SBA-15 porous supports, with TEM highlighting a strong particle size dependence on titania precursor concentration. Photocatalytic activities of TiO2/ZSM-5 and TiO2/SBA-15 composites were significantly enhanced compared to pure TiO2, owing to the smaller TiO2 particle size and higher surface area of the former. TiO2 loadings over the porous supports and concomitant photocatalytic hydrogen production were optimized with respect to light absorption, available surface reaction sites and particle size. 10%TiO2/ZSM-5 and 20%TiO2/SBA-15 proved the most active photocatalysts, exhibiting extraordinary hydrogen evolution rates of 10,000 and 8800μmolgTiO2 -1 h-1 under full arc, associated with high external quantum efficiencies of 12.6% and 5.4% respectively under 365nm irradiation.

Novel sol–gel preparation of (P2O5)0.4–(CaO)0.25–(Na2O)X–(TiO2)(0.35−X) bioresorbable glasses (X = 0.05, 0.1, and 0.15)

Quaternary phosphate-based glasses in the P2O5–CaO–Na2O–TiO2 system with a fixed P2O5 and CaO content of 40 and 25 mol% respectively have been successfully synthesised via sol–gel method and bulk, transparent samples were obtained. The structure, elemental proportion, and thermal properties of stabilised sol–gel glasses have been characterised using X-ray diffraction (XRD), energy dispersive X-ray spectroscopy (EDX), 31P nuclear magnetic resonance (31P NMR), titanium K-edge X-ray absorption near-edge structure (XANES), fourier transform infrared (FTIR) spectroscopy, and differential thermal analysis (DTA). The XRD results confirmed the amorphous nature for all stabilized sol–gel derived glasses. The EDX result shows the relatively low loss of phosphorus during the sol–gel process and Ti K-edge XANES confirmed titanium in the glass structure is in mainly six-fold coordination environment. The 31P NMR and FTIR results revealed that the glass structure consist of mainly Q1 and Q2 phosphate units and the Ti4+ cation was acting as a cross-linking between phosphate units. In addition DTA results confirmed a decrease in the glass transition and crystallisation temperature with increasing Na2O content. Ion release studies also demonstrated a decrease in degradation rates with increasing TiO2 content therefore supporting the use of these glasses for biomedical applications that require a degree of control over glass degradation. These sol–gel glasses also offer the potential to incorporate proactive molecules for drug delivery application due to the low synthesis temperature employed.

UV-stable paper coated with APTES-modified P25 TiO2 nanoparticles

In order to inhibit the photocatalytic degradation of organic material supports induced by small titania (TiO2) nanoparticles, highly photocatalytically active, commercially available P25-TiO2 nanoparticles were first modified with a thin layer of (3-aminopropyl) triethoxysilane (APTES), which were then deposited and fixed onto the surface of paper samples via a simple, dip-coating process in water at room temperature. The resultant APTES-modified P25 TiO2 nanoparticle-coated paper samples exhibit much greater stability to UV-illumination than uncoated blank reference paper. Very little, or no, photo-degradation in terms of brightness and whiteness, respectively, of the P25-TiO2-nanoparticle-treated paper is observed. There are many other potential applications for this Green Chemistry approach to protect cellulosic fibres from UV-bleaching in sunlight and to protect their whiteness and maintain their brightness. © 2014 Elsevier Ltd.

Improved lithium storage properties of electrospun TiO2 with tunable morphology:from porous anatase to necklace rutile

Three-dimensional TiO2 with tunable morphology and crystalline phase was successfully prepared by the electrospinning technique and subsequent annealing. Porous-shaped anatase TiO2, cluster-shaped anatase TiO2, hierarchical-shaped rutile (minor) TiO2 and nano-necklace rutile (major) TiO2 were achieved at 500, 600, 700 and 800°C, respectively. The mechanism of the formation of these tailored morphologies and crystallinity was investigated. Lithium insertion properties were evaluated by galvanostatic and potentiostatic modes in half-cell configurations. By combining the large surface area, open mesoporosity and stable crystalline phase, the porous-shaped anatase TiO2 exhibited the highest capacity, best rate and cycling performance among the four samples. The present results demonstrated the usefulness of three-dimensional TiO 2 as an anode for lithium storage with improved electrode performance. © 2013 The Royal Society of Chemistry.

On the impact of Cu dispersion on CO2 photoreduction over Cu/TiO2

A family of Cu/TiO2 catalysts was prepared using a refined sol–gel method, and tested in the photocatalytic reduction of CO2 by H2O to CH4 using a stirred batch, annular reactor. The resulting photoactivity was benchmarked against pure TiO2 nanoparticles (synthesised by an identical sol–gel route). CO2 photoreduction exhibited a strong volcano dependence on Cu loading, reflecting the transition from 2-dimensional CuOx nanostructures to 3-dimensional crystallites, with optimum CH4 production observed for 0.03 wt.% Cu/TiO2.

Síntese e imobilização de nanopartículas de ouro em fibras regeneradas via exaustão para potencial aplicação biomédica

The advancement of nanotechnology in the synthesis and characterisation of nanoparticles (NP's) has played an important role in the development of new technologies for various applications of nano-scale materials that have unique properties. The scientific development in the last decades in the field of nanotechnology has sought ceaselessly, the discovery of new materials for the most diverse applications, such as biomedical areas, chemical, optical, mechanical and textiles. The high bactericidal efficiency of metallic nanoparticles (Au and Ag), among other metals is well known, due to its ability to act in the DNA of fungi, viruses and bacteria, interrupting the process of cellular respiration, making them important means of study, in addition to its ability to protect UVA and UVB. The present work has as its main objective the implementation of an innovative method in the impregnation of nanoparticles of gold in textile substrate, functionalized with chitosan, by a dyeing process by exhaustion, with the control of temperature, time and velocity, thus obtaining microbial characteristics and UV protection. The exhausted substrates with colloidal solutions of NPAu's presented the colours, lilac and red (soybean knits) due to their surface plasmon peak around 520-540 nm. The NPAu's were synthesized chemically, using sodium citrate as a reducing agent and stabilizer. The material was previously cationised with chitosan, a natural polyelectrolyte, with the purpose of functionalising it to enhance the adsorption of colloid, at concentrations of 5, 7, 10 and 20 % of the bonding agent on the weight of the material (OWM). It was also observed, through an experimental design 23 , with 3 central points, which was the best process of exhaustion of the substrates, using the following factors: Time (min.), temperature (OC) and concentration of the colloid (%), having as a response to variable K/S (ABSORBÂNCIA/ Kubelka-Munk) of the fibres. Furthermore, it was evidenced as the best response, the following parameters: concentration 100%, temperature 70 ºC and time 30 minutes. The substrate with NPAu was characterised by XRD; thermal analysis using TGA; microstructural study using SEM/EDS and STEM, thus showing the NP on the surface of the substrate confirming the presence of the metal. The substrates showed higher washing fastness, antibacterial properties and UV radiation protection.