971 resultados para Radiation Protection
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Mode of access: Internet.
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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.
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Bien que les technologies d’imagerie soient un acquis réel de la médecine moderne, leur introduction ne semble pas avoir été précédée d’une démarche réflexive suffisante qui aurait permis d’anticiper les multiples enjeux que rencontre la pratique radiologique actuelle. En effet, à force de se focaliser sur les acquis techniques et scientifiques, le cadre de radioprotection en place semble ne pas avoir suffisamment considéré l’apport essentiel que représente la connaissance des aspects sociaux, éthiques et humains que peuvent amener des domaines comme la bioéthique. Cette insuffisance fait en sorte que l’on se retrouve aujourd’hui face à des enjeux importants relatifs à la radioprotection du patient comme la surutilisation des examens radiologiques ou encore le manque d’information des acteurs du milieu face aux risques des rayonnements. Après un état des lieux des enjeux éthiques en radiologie diagnostique ayant un impact sur la radioprotection médicale des patients, un enjeu majeur de la pratique actuelle, qui est la justification inadéquate des prescriptions d’examens radiologiques, sera analysé selon une approche par principes. De cet exercice, visant à démontrer comment l’éthique peut concrètement contribuer à la radioprotection, découle l’impératif d’une vision nouvelle et globale permettant de proposer des pistes de solution aux controverses liées à l’utilisation actuelle de l’imagerie. Dans une perspective de santé des populations, il est important de contribuer à la diminution de la banalisation du recours au rayonnement ionisant dans la pratique médicale diagnostique en alliant bioéthique et radioprotection. Ce projet de recherche se veut être une étape limitée, mais nécessaire dans l’établissement de ce dialogue interdisciplinaire.
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Thin layers of indium tin oxide are widely used as transparent coatings and electrodes in solar energy cells, flat-panel displays, antireflection coatings, radiation protection and lithium-ion battery materials, because they have the characteristics of low resistivity, strong absorption at ultraviolet wavelengths, high transmission in the visible, high reflectivity in the far-infrared and strong attenuation in the microwave region. However, there is often a trade-off between electrical conductivity and transparency at visible wavelengths for indium tin oxide and other transparent conducting oxides. Here, we report the growth of layers of indium tin oxide nanowires that show optimum electronic and photonic properties and demonstrate their use as fully transparent top contacts in the visible to near-infrared region for light-emitting devices.
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To get a better insight into the radiological features of industrial by-products that can be reused in building materials a review of the reported scientific data can be very useful. The current study is based on the continuously growing database of the By-BM (H2020-MSCA-IF-2015) project (By-products for Building Materials). Currently, the By-BM database contains individual data of about 431 by-products and 1095 building and raw materials. It was found that in case of the building materials the natural radionuclide content varied widely (Ra-226: <DL-27851 Bq/kg; Th-232: <DL-906 Bq/kg, K-40: <DL-17922 Bq/kg), more so than for the by-products (Ra-226: 7-3152 Bq/kg; Th-232: <DL-1350 Bq/kg, K-40: <DL-3001 Bq/kg). The average Ra-226, Th-232 and K-40 contents of the reported by-products were respectively 2.52, 2.35 and 0.39 times higher than the building materials. The gamma exposure of bulk building products was calculated according to IAEA Specific Safety Guide No. SSG-32 and the European Commission Radiation Protection 112 based I-index (EU BSS). It was found that in most cases the I-index without density consideration provides a significant overestimation in excess effective dose.
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Aborda-se a biossegurança aplicada a radiologia dentária relativa à radiação ionizante e a exposição aos agentes biológicos, a que pacientes, grávidas / feto e profissionais são submetidos durante os procedimentos radiológicos. As diferentes doses de radiação emitidas, pelos equipamentos utilizados em radiologia oral, quer nos sistemas analógicos, como digitais. As diversas formas de propagação de micro-organismos, durante a obtenção de imagens radiográficas. As medidas de biossegurança, para prevenção desses riscos em radiologia dentária, através da radioprotecção e do controlo da infeção. A radiação ionizante pela sua elevada energia, é capaz de penetrar na matéria, ionizar os átomos, romper ligações químicas e causar danos nos tecidos biológicos. A exposição a doses elevadas de radiação ionizante pode ainda resultar, na destruição de células ou na indução de cancro. Atualmente a biossegurança em radiologia dentária, tem como principais objetivos, a redução da dose de radiação e evitar a infeção cruzada entre os diferentes agentes envolvidos.