Global environment: An emerging challenge for international cooperation building a legal regime for ozone layer depletion.

Hosseini, Jamaladdin.

January 1992

Global environment is presenting new opportunities and challenges for international cooperation. The depletion of the ozone layer is one of the successful cases where the world community has demonstrated a rare consensus to address a global problem. This study: (1) examines the role of international law and institutions in shaping a regime for ozone layer depletion as formalized in the 1987 Montreal Protocol; (2) evaluates contributions of the ozone regime to the development of international environmental law, and (3) analyzes its implications for future international cooperation. Using regime theories as a methodological framework, the study integrates science, policy, law and institutions to show how they interact to create understandings, practices, and procedures in international relations. Traditionally, regime theorists have focused on power and interest to explain international cooperation. The existing theories were found to be inadequate for the analysis of ozone regime. I have offered an alternate explanation by incorporating the element of "law" into regime studies and linking regimes with "institutions"--the raison d'etre of the regimes. This modified explanation helps to provide a better understanding of the formation of the ozone regime. The study suggests that the ozone regime has produced a new generation of environmental norms. These norms, both procedural and substantive, put "flesh on the bone" of environmental law and keep ozone regime as a political process in motion, thus, adapting to the changing technological and scientific environment. Moreover, the ozone regime marks a turning point in the shift of emphasis from single-issue pollution laws to an encompassing law of the atmosphere. A new form of international cooperation also emerged from ozone negotiations. This cooperation was promoted by joint efforts of the United Nations Environment Programme (UNEP) and the world scientific community. UNEP used scientific findings to persuade the parties to the ozone negotiations to re-evaluate their political stance in light of evolving scientific knowledge. At a time when traditional bases of power seem to be eroding, international institutions are viable structures to initiate efforts to address human concerns and facilitate decisions by the international community. Similarly, the world scientific community may prove influential in future global policymaking, in particular on the issues with high degrees of scientific uncertainty.

Environmental law, International.

Ozone layer depletion.

Atmospheric ozone -- Reduction.

Environmental policy.

Ochrana ozónové vrstvy Země z pohledu práva / Legal protection of the ozone layer

Večeřa, Roman

January 2014

The aim of this thesis is to describe the complete view of protection of the ozone layer. Therefore, it contains information about international, european and national legislation in this area. In addition, international legal aspects of climate change are mentioned. Finally, both ozone regime and climate change regime are compared. The author pays attention to the advantages and disadvantages of legal instruments and tries to find ways how to use ozone legal instruments in climate protection.

Analyse de la composition isotopique de l'ion nitrate dans la basse atmosphère polaire et marine / Isotopic composition of atmospheric nitrate in the marine and polar boundary layer

Morin, Samuel

26 September 2008

Les oxydes d’azote atmosphériques (NOx=NO+NO2) sont des composés clefs en chimie de l’environnement, jouant un rôle central pour la capacité oxydante de l’atmosphère et le cycle de l’azote. La composition isotopique du nitrate atmosphérique (NO?3 particulaire et HNO3 gazeux), constituant leur puits ultime, renseigne sur leur bilan chimique. Le rapport 15N/14N donne une indication de leurs sources, alors que l’anomalie isotopique en oxygène (?17O=d17O-0.52×d18O) révèle la nature de leurs mécanismes d’oxydation. Des études couplées de d15N et ?17O d’échantillons de nitrate atmosphérique collectés dans l’Arctique, en Antarctique et dans l’atmosphère marine au dessus de l’Océan Atlantique, où le bilan des NOx est souvent mal connu ont été effectuées. À ces fins, le défi que constitue la mesure simultanée des trois rapports isotopiques du nitrate (17O/16O, 18O/16O et 15N/14N) dans le même échantillon représentant moins d’une micromole a été relevé. La solution adoptée tire avantage des propriétés d’une bactérie dénitrifiante, utilisée pour convertir le nitrate en N2O, dont la composition isotopique totale a été mesurée en utilisant un système automatisé de chromatographie en phase gazeuse et spectrométrie de masse de rapport isotopique. Les principaux résultats obtenus via les isotopes de l’oxygène permettent l’identification claire de transitions saisonnières entre voies d’oxydation des NOx, y compris le rôle majeur des composés halogénés réactifs au printemps polaire en régions côtières. Les isotopes de l’azote ont quant à eux permis d’apporter de nouvelles contraintes sur le cycle de l’azote dans les régions polaires, grâce au fractionnement significatif induit par les phénomènes de remobilisation post-dépôt affectant le nitrate dans le manteau neigeux, et l’émission de NOx qui en découle / Atmospheric nitrogen oxides (NOx=NO+NO2) are central to the chemistry of the environment, as they play a pivotal role in the cycling of reactive nitrogen and the oxidative capacity of the atmosphere. The stable isotopes of atmospheric nitrate (in the form of particulate NO?3 or gaseous HNO3), their main ultimate sinks, provide insights in chemical budget of NOx : its nitrogen isotopes are almost conservative tracers of their sources, whereas NOx sinks are revealed by its triple oxygen isotopic composition. The long-awaited challenge of measuring all three stable isotope ratios of nitrate (17O/16O, 18O/16O and 15N/14N) in a single sample at sub-micromolar levels has been resolved. The newly developed method makes use of denitrifying bacteria to quantitatively convert nitrate to a stable species (N2O), whose isotope ratios are measured using an automated gas chromatography/isotope ratio mass spectrometry analytical system. Dual measurements of d15N and the isotope anomaly (?17O=d17O-0.52×d18O) of atmospheric nitrate samples collected in the Arctic, the Antarctic and in the marine boundary layer of the Atlantic Ocean, have been used to derive the chemical budget of NOx and atmospheric nitrate in these remote regions. Main results from oxygen isotope measurements pertain to the identification of seasonal and latitudinal shifts in NOx oxidative pathways in these environments (including the role of halogen oxides chemistry in polar regions during springtime), as a function of particle sizes. Nitrogen isotopes are found to provide strong constraints on the budget of reactive nitrogen in polar regions, due to the strong fractionation associated with snowpack photochemical loss of nitrate and its conversion to NOx

Isotopes stables

Nitrate atmosphérique

Ozone

Anomalie isotopique

Stable isotopes

Atmospheric nitrate

Ozone

Isotope anomaly

Oxygen

Nitrogen

Spectroscopie ultraviolet-visible et infrarouge de molécules clés atmosphériques / Ultraviolet-visible and infared spectroscopy of atmospheric key molecules

Gratien, Aline

06 November 2008

Les mesures des constituants mineurs de l’atmosphère sont souvent réalisées à partir du sol, d’avions, de ballons ou encore par les satellites. Celles-ci sont effectuées régulièrement par des spectromètres fonctionnant dans des régions spectrales différentes, en particulier dans les domaines UV-visible et infrarouge. Or, l’analyse et l’interprétation des spectres atmosphériques requièrent une bonne connaissance des paramètres spectroscopiques. Cependant, les mesures de ces paramètres sont généralement effectuées dans un domaine spectral donné (IR ou UV) et peu d’études de laboratoire ont vérifié la cohérence entre les sections efficaces UV et IR. Il est alors difficile de comparer des profils atmosphériques déduits de mesures effectuées dans différents domaines. Le but de cette étude est donc d’intercalibrer les spectres UV et IR de composés atmosphériques en déterminant et/ou e vérifiant la cohérence des sections efficaces publiées dans la littérature. Ces expériences ont été effectuées dans la chambre de simulation du LISA, en acquérant simultanément des spectres UV et IR à température ambiante et à pression atmosphérique au sein d’une cellule optique commune. Ce travail a porté sur trois molécules clés atmosphériques : le formaldéhyde (et ses isotopes), l’ozone et l’acide nitreux. Ces composés jouent un rôle fondamental dans la physico-chimie atmosphérique puisqu’ils constituent les sources du principal oxydant de l’atmosphère : le radical hydroxyle. Ce travail de laboratoire a permis ainsi d’obtenir des spectres précis et cohérents de l’ozone, du formaldéhyde et de l’acide nitreux dans le moyen infrarouge et l’UV-visible afin d’améliorer la précision de leurs mesures. / Optical measurements of atmospheric minor constituents are carried using spectrometers working in different spectral ranges by ground, air or satellite instruments. However, the analysis and interpretation of the corresponding atmospheric spectra require good knowledge of the spectroscopic parameters. Moreover, spectroscopic measurements in laboratory are generally performed in a spectral region (IR or UV) and little of laboratory study has ever verified the consistency between the cross-sections in UV and IR. It is then difficult to compare atmospheric profiles measured in different regions. Consequently, the aim of the study was to intercalibrate spectra in the infrared and ultraviolet regions, by determining and/or checking the coherence of the cross section published in the literature. The experiments were performed at LISA by acquiring simultaneously UV and IR spectra at room temperature and atmospheric pressure using a common optical cell. This work relates to three atmospheric key species : formaldehyde (and its isotopes), ozone and nitrous acid. These compounds play a fundamental role in atmospheric physico-chemistry since they constitute the sources of the principal oxidant of the atmosphere: the hydroxyl radical. This laboratory work enables to have precise and coherent spectra of ozone, formaldehyde and nitrous acid in the mid-infrared and UV-visible regions in order to improve the precision of their measurements.

Sections efficaces d'absorption

Infrarouge

Ultraviolet

Intercalibration

Formaldéhyde

Isotope

Ozone

Acide nitreux

Infrared

Ozone

Rôle de la régulation stomatique et de la capacité de détoxication foliaire dans l'estimation d'un seuil de risque à l'ozone pour la végétation / Role of stomatal regulation and capacity of foliar detoxification in the estimation of ozone critical level for vegetation

Dumont, Jennifer

19 April 2013

L'ozone troposphérique est un polluant atmosphérique majeur qui agit comme une phytotoxine. Il pénètre dans les feuilles par les stomates avant d'être dissout dans l'apoplaste en générant des radicaux libres oxygénés (ROS) provoquant ainsi un stress oxydatif. Deux barrières existent pour restreindre les effets de l'ozone : (i) les stomates qui peuvent limiter les flux entrants par contrôle de la conductance stomatique et (ii) le système de détoxication des ROS issus de la dégradation de l'ozone. Nous avons étudié les effets de l'ozone (120 ppb) sur ces deux moyens de défense chez trois génotypes de peuplier euraméricain (Populus deltoides x Populus nigra) placés en conditions contrôlées dans des chambres phytotroniques. Un effet direct de l'ozone sur la photosynthèse et sur les mouvements stomatiques en réponse à des variations de facteurs environnementaux (ralentissement des phénomènes d'ouverture et de fermeture) a été mis en évidence. Les modèles de calcul de la conductance stomatique, sur lesquels se basent les indicateurs de seuil de risque à l'ozone pour la végétation, doivent donc les prendre en compte. De plus, ces travaux ont mis en évidence le rôle prépondérant des concentrations constitutives en antioxidants dans la tolérance à l'ozone ainsi que la complexité de ces mécanismes de détoxication. La notion de flux effectif d'ozone doit prendre en considération ces deux aspects afin de caractériser au mieux les différences de sensibilité à l'ozone intra et inter spécifique / Tropospheric ozone is a major air pollutant that acts as a phytotoxin. It enters the leaf through the stomata before being dissolved in the apoplast by generating reactive oxygen species (ROS) causing oxidative stress. Two defenses exist to restrict the effects of ozone: (i) the stomata which can limit ozone uptake by regulating stomatal conductance and (ii) the detoxification processes of ROS generated by ozone.We studied the effects of ozone (120 ppb) on these two mechanisms of defense in three euramerican poplar genotypes (Populus deltoides x Populus nigra) under controlled conditions in phytotronic chambers. A direct effect of ozone on photosynthesis and stomatal movements in response to changes in environmental factors (by slowing the stomatal opening and closure) has been highlighted. Models of stomatal conductance, on which indicators of critical level of ozone for vegetation are based, must take them into account. In addition, these studies have highlighted the role of constitutive concentrations of antioxidants in tolerance to ozone as well as the complexity of these detoxification mechanisms. The notion of effective ozone flux must consider these two aspects to better characterize the intra-and inter-specific differences in sensitivity to ozone

Ozone

Peuplier

Détoxication

Conductance stomatique

Ozone

Poplar

Detoxification

Stomatal conductance

571.62

Capteurs à base des couches minces d’oxyde de cuivre (II) (CuO) : Optimisation et modélisation en vue de la détection de gaz / Thin film copper oxide (CuO) gas sensors : Optimization and characterisation for detection applications

Bejaoui, Amina

05 July 2013

L’objectif de ce travail est l’étude et la modélisation d’un capteur de gaz à base d’oxyde métallique semiconducteur de type p (cas de CuO). Pour cela, des couches minces de CuO ont été élaborées dans l‘équipe microcapteurs de IM2NP à partir de deux techniques différentes : la pulvérisation cathodique réactive magnétron radio-fréquence et l’oxydation thermique des couches minces de cuivre déposées par évaporation thermique sous vide. Différentes techniques de caractérisation ont été mises en oeuvre pour évaluer les propriétés des couches minces obtenues en vue de les optimiser pour l’application capteur. La microscopie à force atomique (AFM) et la microscopie électronique à balayage (MEB) ont révélé une nanostructure homogène dont la morphologie présente la porosité désirée. Les analyses par diffraction de rayons X (DRX) ont montré que ces couches minces présentent une monophase de CuO avec une orientation préférentielle (111), les études optiques par ellipsométrie dans le domaine visible ont permis d’estimer les pourcentages de porosité dans chaque couche. Ces couches possèdent la cristallinité et la pureté requises pour l'utilisation en capteurs de gaz. Les performances de ces couches minces de CuO ont été évaluées pour la détection de l’ozone et de l’éthanol. Sur la base de ces résultats, un modèle dynamique a été développé simulant la réaction entre les espèces oxygénées ionisées adsorbées à la surface d'un semiconducteur de type p avec un gaz, qui permet d’évaluer l’influence des paramètres de fonctionnement (Température de fonctionnement, pression d’oxygène et concentration de gaz). / The objective of this work is to study and model a gas sensor based on a p-type metal oxide semiconductor (case of CuO). For this, thin layers of CuO have been developed in the microsensor team at the IM2NP laboratory from two different techniques: radio frequency reactive magnetron sputtering and thermal oxidation of thin copper films deposited by thermal evaporation under vacuum. Different characterization techniques have been implemented to evaluate the properties of the thin films obtained in order to optimize them for sensor applications. Atomic force microscopy (AFM) and scanning electron microscopy (SEM) revealed a homogeneous nanostructured morphology which has the desired porosity. Diffraction analysis (XRD) showed that these thin films have a single phase of CuO with a preferred orientation (111). Optical studies by ellipsometry in the visible spectral region were used to estimate the percentage of porosity in each layer. These layers have the crystallinity and purity required for use in gas sensors. The performances of these thin layers of CuO were evaluated for the detection of ozone and ethanol. Based on these results, a dynamic model was developed to simulate the reaction between the ionized oxygen species adsorbed on the surface of a p-type semiconductor with a gas, which is used to evaluate the influence of operating parameters (working temperature, oxygen concentration and gas pressure).

Capteur

CuO

AFM

DRX

Ellipsométrie

Modélisation

Ozone

Éthanol

Sensor

CuO

AFM

DRX

Ellipsometry

Modeling

Ozone

Ethanol

Étude du métabolisme des lipides membranaires et des gènes associés chez Vigna unguiculata (L.) Walp sous contraintes abiotiques combinées (sécheresse/ozone) / Study of the membrane lipid metabolism and associated genes in Vigna unguiculata (L.) Walp under combined abiotic stress (drought/ozone)

Moura Rebouças, Deborah

31 October 2014

Les changements climatiques globaux sont responsables de l'augmentation de la fréquence des épisodes de sécheresse et de fortes concentrations d'ozone troposphérique, qui peuvent se produire simultanément pour réduire la croissance des plantes en limitant la production agricole et affectant la fourniture de nourriture pour une population mondiale croissante. Ces contraintes environnementales peuvent conduire à la surproduction d'espèces réactives de l'oxygène en favorisant le stress oxydatif et provoquant un déséquilibre métabolique. Les membranes cellulaires sont les premières cibles des dommages induits par le stress et la préservation de l'intégrité cellulaire par le remodelage des lipides membranaires est essentielle pour la survie des plantes dans des conditions défavorables. L'objectif de cette étude était d'étudier les effets de la sécheresse, de l'ozone et des contraintes combinées chez deux cultivars de haricot niébé dotés de différents degrés de tolérance à la sécheresse: EPACE-1 et IT83-D par des réponses physiologiques et par une étude portée sur la teneur et la composition des lipides de membrane, ainsi que dans l'expression de gènes liés à la biosynthèse et la dégradation des ces lipides. La sécheresse et l'ozone (120 ppb), seuls ou en combinaison, ont été appliqués aux plantes après trois semaines de germination pendant deux semaines. Après 7 et 14 jours de traitements, des paramètres physiologiques ont été déterminés. Les lipides extraits de feuilles ont été analysés par chromatographie en phase gazeuse/spectrométrie de masse. L'accumulation de transcrits (VuMGD1, VuMGD2, VuDGD1, VuDGD2, VuCLS, VuFAD7, VuFAD8, VuPLD1 et VuPAT1) a été détecté chez les feuilles par PCR en temps réel. Chez les deux cultivars, la sécheresse a limité la croissance et la photosynthèse par la fermeture des stomates, ce qui a semblé impliquer l'expression génétique de la phospholipase D (VuPLD1). L'ozone a causé des dommages foliaires et de la dégradation des galactolipides, principalement chez IT83-D. Chez ce cultivar, les dommages ont impliqué dans l'augmentation du ratio DGDG:MGDG et de l'expression de VuDGD2. De plus, une diminution partielle de la teneur en phospholipides en réponse à l'ozone a été associée à une augmentation de l'expression de VuPLD1, ce qui suggère un remplacement des phospholipides par DGDG. Contrairement, le cultivar EPACE-1 en présence d'ozone, en même temps que la dégradation des galactolipides, a montré une augmentation de la teneur en lipides de réserve et en DPG (cardiolipine). La combinaison des contraintes a conduit à des résultats similaires à ceux de la sécheresse appliquée séparément, chez les deux cultivars, ce qui reflète probablement la forte restriction de l'absorption de l'ozone en raison de la fermeture des stomates induite par la sécheresse. En conclusion, les présents résultats mettent en évidence le rôle important des lipides membranaires dans les ajustements métaboliques qui se produisent pour régler la tolérance des plantes à la sécheresse et à l'ozone / Global climate changes are responsible for the increased frequency of episodes of drought and high concentrations of tropospheric ozone, which can occur simultaneously to reduce plant growth, limiting agricultural production and affecting the food supply for an increasing world population. These environmental stresses can lead to the overproduction of reactive oxygen species, promoting oxidative stress and causing metabolic imbalance. Cell membranes are the primary targets of damage induced by stresses and the preservation of cell integrity through remodeling of membrane lipids is essential for plant survival under adverse conditions. The objective of this study was to investigate the effects of drought, ozone and the combined stresses in two cowpea cultivars with different degrees of drought tolerance: EPACE-1 and IT83-D through physiological responses and a study focused on the content and composition of membrane lipids, as well as on the expression of genes related to the biosynthesis and degradation of these lipids. Drought and ozone (120 ppb), isolated or in combination, were applied on three-week-old seedlings during two weeks. After 7 and 14 days of treatments, physiological parameters were determined. Lipids extracted from leaves were analyzed by gas chromatography/mass spectrometry. Transcript accumulation (VuMGD1, VuMGD2, VuDGD1, VuDGD2, VuCLS, VuFAD7, VuFAD8, VuPLD1 and VuPAT1) was detected in leaves by real time PCR. In both cultivars, drought inhibited the plant growth and photosynthesis through stomatal closure, which appeared to involve the gene expression of phospholipase D (VuPLD1). Ozone caused foliar injury and degradation of galactolipids, mainly in IT83-D. In this cultivar, the damage resulted in an increase in DGDG:MGDG ratio and in VuDGD2 expression. Furthermore, a partial decrease in the phospholipids content in response to ozone was associated with an increase in VuPLD1 expression, suggesting a replacement of phospholipids by DGDG. Differently, EPACE-1 cultivar in the presence of ozone, concomitantly with the degradation of galactolipids, showed an increase in storage lipids and DPG (cardiolipin) contents. The two stresses in combination led to results similar to those observed in response to the drought treatment alone, in both cultivars, which likely reflected the severe restriction of ozone uptake resulting from drought-induced stomatal closure. In conclusion, the present results highlight the prominent role of membrane lipids in the metabolic adjustments that occur for the plant tolerance to drought and ozone

Contraintes combinées

Lipides membranaires

Ozone

Sécheresse

Vigna unguiculata

Combined stresses

Membrane lipids

Ozone

Drought

Vigna unguiculata

Distribuição espacial do ozônio troposférico em Jundiaí - SP, como subsídio a estudos de exposição da população / Spatial distribution of tropospheric ozone in Jundiaí - SP, as a subsidy to population exposure studies

Pacheco Júnior, Edson

20 June 2018

O monitoramento dos poluentes atmosféricos é um dos principais itens para a gestão do ar em centros urbanos e rurais atualmente. Entretanto, os altos custos de infraestrutura e de manutenção das estações de monitoramento da qualidade do ar inviabilizam muitos países, estados e municípios de implementarem esse intrumento. No Brasil, a gestão da qualidade do ar é restrita a alguns estados. No caso do monitoramento da qualidade do ar, a medida é restrita a algumas cidades. A fim de contribuir com o entendimento dos níveis de ozônio em uma cidade do interior paulista, foram conduzidas vinte e seis campanhas de amostragem semanal do ozônio tropósférico entre setembro de 2016 e setembro de 2017, em Jundiaí. Foram investigadas algumas características que são determinantes para a ocorrência do poluente ao longo das quatro estações e a variação em sete bairros do município. Com o propósito de avaliar o desempenho dos amostradores passivo frente as medições do monitor automático da CETESB, um dos locais selecionados foi a estação de monitoramento da CETESB. Em relação aos sete bairros, contatou-se diferença estatística (p<0,05) através da aplicação da Análise de Variância (ANOVA), sendo constatada diferença em um local do município com o teste de Dunnett. Nas amostras coletadas na estação da CETESB, observou-se correlação da temperatura e a umidade relativa do ar com o ozônio. Essas variáveis inseridas em um modelo de regressão com as amostragens passivas resultou na explicação de 92% (r2=0,921) das medições realizadas pelo monitor automático da CETESB. Por meio da análise das retrotrajetórias de parcelas de ar foi possível verificar que as concentrações de ozônio em Jundiaí possivelmente sejam influenciadas pelas emissões de outras regiões. Além disso, propôs-se contribuir com o desenvolvimento de novas técnicas de monitoramento de ozônio, montando e validando preliminarmente um dispositivo de baixo custo com um sensor programado no hardware Arduino. Foi feita a calibração indireta do dispositivo de medição de ozônio com o monitor automático da CETESB. Observou-se que os resultados obtidos pelo dispositivo não apresentaram correlação com os do monitor da CETESB (p>0,05), ainda que o primeiro e segundo quartis tenham apresentado correlação (p<0,05). O dispositivo precisa ser mais bem avaliado com calibração em laboratório. / Monitoring of air pollutants is one the main items for air management in urban and rural centers today. However, the high costs of infrastructure and maintenance of air quality monitoring stations manke many countries, states and municipalities unable to implement this instrument. In Brazil air quality management is restrict to some states. In the case of air quality monitoring, the measure is restricted to some cities. In order to contribuite to the understanding of ozone levels in a city in the state of São Paulo, twenty-six weekly sampling campaigns of tropospheric ozone between September 2016 and Sptember 2017 in Jundiaí. It was investigated some characteristics that are determinant for the occurance of the pollutant throughout the four seasons and the variation in seven districts os the Jundiaí. In order to evaluate the performance of the passive samplers against the CETESB automatic monitor measurements, one of the selected sites was the monitoring station of CETESB. About the seven neighborhoods, a statistical difference (p<0.05) was applied through the Analysis of Variace (ANOVA), and a difference was found in one locality of the municipality with the Dunnett test. In the samples collected at the CETESB station, a correlation was observed between temperature and air humidity and ozone. These variables inserted in a regression model with the passive samplings resulted in the explanation of 92% (r²=0.921) of the measurements performed by the CETESB automatic monitor. By analyzing the backward trajectories of air parcels, it was possible to verify that ozone concentrations in Jundiaí are possibly influenced by emissions from other regions. In addition, it was proposed to contribute to the development of new ozone monitoring techniques by assembling and preliminarily validating a low-cost device with a sensor programmed into Arduino hardware. The indirect calibration of the ozone measuring device was done with the CETESB automatic monitor. It was observed that the results obtained by the device did not correlate with those of the CETESB monitor (p>0.05), although the first and second quartiles showed a correlation (p<0.05). The device needs to be better evaluated with laboratory calibration.

Jundiaí

Jundiaí

Monitoramento da Qualidade do Ar

Monitoring of Air Quality

Ozone Sensor

Ozônio Troposférico

Sensor de Ozônio

Tropospheric Ozone

Síntese e caracterização de filmes finos SrTi1-xFexO3 nanoestruturados aplicados como sensor de gás ozônio / Synthesis and characterization of nanostructure SrTi1-xFexO3 thin films to be applied as ozone gas sensor

Pelissari, Pedro Ivo Batistel Galiote Brossi

30 May 2012

Neste trabalho, foram desenvolvidos filmes finos de composição SrTi1-xFexO3 (0,00&le; x &le;0,150) nanoestruturados visando sua aplicação como sensor de gás ozônio. Os filmes finos foram depositados através da técnica de deposição por feixe de elétrons (EBD) cujo alvo utilizado foram pastilhas obtidas a partir do pó cristalino SrTi1-xFexO3 (0,00&le; x &le;0,150) sintetizadas através do método dos precursores poliméricos. Foi observado a partir das analises termogravimétrica e térmica diferencial que a incorporação de ferro no sistema diminui a temperatura de queima do pó precursor, sugerindo que o ferro atua como catalisador na cadeia polimérica. Os filmes depositados por DFE apresentam-se no estado amorfo sendo necessário um tratamento térmico ex-situ para que a fase cristalina desejada seja obtida. Todos os filmes apresentaram uma boa aderência aos diferentes tipos de substratos utilizados. Após o processo de cristalização, os filmes depositados sobre diferentes substratos foram caracterizados através das técnicas de difração de raios-X, espectroscopia UV-Vis e microscopia de força atômica (MFA). Foi observado que um aumento na temperatura de tratamento térmico dos filmes leva a um aumento no grau de cristalização e a uma diminuição no valor da energia de gap, calculada a partir dos espectros UV-VIS. A analise por MFA mostrou que a mudança do tipo de substrato utilizado não influencia as propriedades estruturais e microestruturais dos filmes. Através da realização de medidas de resistência elétrica, observou-se que os filmes cristalinos submetidos a um tratamento térmico ex-situ a 500oC por 4 horas apresentaram uma boa sensibilidade ao gás ozônio sendo possível detectar a presença de até 75 ppb de ozônio. / In this study, nanostructured thin films of SrTi1-xFexO3 (0.00 &le; x &le; 0.150) compositions were prepared looking their application as ozone gas sensor. The thin films were deposited using the technique of electron beam deposition (EBD) whose targets were obtained from polycrystalline SrTi1-xFexO3 (0.00 &le; x &le; 0.150) powders synthesized by the polymeric precursor method. It was observed from the thermogravimetric and differential thermal analysis that the incorporation of iron in the system decreases the calcination temperature of the precursor powders, suggesting that the iron acts as a catalyst in the polymer chain. The as obtained films deposited by EBD present an amorphous state being necessary a ex-situ heat treatment to obtain the desired crystalline phase. All films showed good adhesion to different substrates. After the crystallization process, the films deposited on different substrates were characterized through X-ray diffraction, UV-Vis spectroscopy and atomic force microscopy (AFM) trechniques. It was observed that an increase in the annealing temperature of the film results in an increase in the degree of crystallization and a decrease in the value of band gap energy, which was calculated from the UV-VIS spectra. The AFM analysis showed that changing the type of substrate does not influence the structural properties and microstructure of the films. By carrying out measurements of electrical resistance, it was observed that the crystalline films subjected to a ex-situ heat treatment at 500oC for 4 hours showed a good sensitivity to the ozone gas being possible to detect the presence of up to 75 ppb ozone.

Filmes finos

Nanoestrutura

Nanostructure

ozone

Ozone gas sensor

Ozônio

Perovskita

Perovskite

Sensor de gás

Thin films

Réactivité atmosphérique des composés organiques volatils oxygénés biogéniques (aldéhydes et alcools insaturés). Etudes cinétiques de la réaction entre les radicaux peroxyles et le radical nitrate. / Atmospheric reactivity of oxygenated biogenic volatil organic compounds (unsaturated aldehydes and alcohols).Kinetic studies of the reaction between peroxy radicals and the nitrate radical.

Kalalian, Carmen

17 October 2018

Les composés organiques volatils d’origine biogénique (COVB) contribuent à plus de 90% des émissions des COV dans l'atmosphère. Ces composés sont éliminés de l’atmosphère par réaction avec les photo-oxydants (OH, NO3, Cl et O3) et par photolyse. Ces processus sont gouvernés par un mécanisme en chaîne dont les porteurs sont des radicaux libres tels que les radicaux peroxyles RO2 qui jouent un rôle clé dans la dégradation atmosphérique des COV. Dans ce contexte, cette thèse se concentre d’une part sur l’étude cinétique en température et mécanistique de la réaction d’ozonolyse, la détermination des spectres UV et la photolyse de six COV oxygénés insaturés (trans-2-pentènal, trans-2-hexènal, 2-méthyl-2-pentènal, 1-pentèn-3-ol, cis- 2-pentèn-1-ol et trans-3-hexèn-1-ol), et d’autre part l’étude de la réactivité de trois radicaux peroxyles (CH3OCH2O2, CH3C(O)CH2O2 et (CH3)2C(OH)CH2O2) vis-à-vis des radicaux nitrates à différentes températures. Trois dispositifs expérimentaux sont utilisés : une chambre de simulation atmosphérique couplée à une spectroscopie infrarouge à transformée de Fourier (FTIR) et à une chromatographie en phase gazeuse associée à une spectrométrie de masse (GC/MS), un dispositif de mesure des spectres UV-Visible et la photolyse laser couplée à une spectrométrie UV-visible et diode laser. Ces dispositifs associés à des méthodes de traitement permettent d'extraire des données cinétiques en température, mécanistiques et spectroscopiques. Les paramètres cinétiques obtenus sont utilisés pour estimer les durées de vie atmosphériques des espèces étudiées. Les résultats mécanistiques sont utilisés pour élaborer les mécanismes d’ozonolyse de ces composés. Toutes ces données permettent d’enrichir les bases de données cinétiques, mécanistiques et spectroscopiques qui alimentent les modèles atmosphériques. / Biogenic volatile organic compounds (BVOC) account for 90% of VOC emissions in the atmosphere. These VOCs can be removed from the atmosphere by reaction with photo-oxidants (OH, NO3, Cl and O3) as well as by photolysis. All these processes are governed by a chain mechanism whose carriers are mainly free radicals such as peroxy radicals RO2. Hence the importance of characterizing the reactivity of these species that play a key role in the atmospheric degradation of VOCs. In this context, this thesis focuses on the determination of the temperature dependent kinetic data as well as the mechanism of the ozonolysis reaction and the UV absorption spectra along the photolysis of six unsaturated oxygenated VOCs (trans- 2-pentenal, trans-2-hexenal, 2-methyl-2-pentenal, 1-penten-3-ol, cis-2-penten-1-ol and trans-3-hexen-1-ol). Likewise, the temperature dependent kinetic parameters of the reaction of three peroxy radicals (CH3OCH2O2, CH3C(O)CH2O2 et (CH3)2C(OH)CH2O2) with nitrate radicals were also determined. Three experimental setups coupled to treatment methods were used to extract these data: an atmospheric simulation chamber coupled to both a Fourier-transform infrared spectroscopy (FTIR) and a gas chromatography connected to a mass spectrometry (GC/MS), a device for measuring UV-Visible spectra and a laser photolysis coupled with UV-visible spectrometry and laser diode spectroscopy. The kinetic parameters were used to estimate the atmospheric lifetimes of the studied species. While the mechanistic data were used to establish their ozonolysis mechanisms. All the collected data enrich kinetic, mechanistic and spectroscopic databases, improving atmospheric models specially those involving VOCs.

Cov

Reactivite

Biogenique

Ozone

Nitrate

Radicaux peroxyles

Voc

Reactivity

Biogenic

Ozone

Nitrate

Peroxy radicals

551.51