Desenvolvimento de novos sensores eletroquímicos descartáveis para fins analíticos / Development of new disposable electrochemical sensors for analytical purposes

Ana Paula Ruas de Souza

16 October 2015

O presente trabalho trata do desenvolvimento de sensores eletroquímicos que possuam características descartáveis e ao uso destes dispositivos para a determinação de diferentes analitos em amostras biológicas, farmacêuticas e de interesse ambiental. O desenvolvimento e a aplicação dos sensores foram divididos em seis capítulos. O primeiro capítulo corresponde a fabricação de conjuntos de microeletrodos em suporte de CD-RW e placa fenolite utilizando impressão com tinta toner. Os conjuntos de microeletrodos foram fabricados por meio da deposição de duas máscaras de toner em um substrato de cobre ou ouro. Os eletrodos fabricados neste capítulo foram caracterizados e aplicados nos capítulos subsequentes. Os resultados da aplicação do conjunto de microeletrodos de cobre (DCRM) foram descritos no segundo capítulo. Os dispositivos foram aplicados para a determinação de peróxido de hidrogênio em amostras de antisséptico bucal e clareadores dentais. As determinações foram realizadas em solução de tampão fosfato (pH 7.0) por meio da técnica de amperometria (E = -0,2 V). Estes sensores foram também aplicados para determinação de ácido acetilsalítico (AAS) em amostras farmacêuticas em solução de hidróxido de sódio 0,1 mol L-1 por amperometria (E = 0,6 V). A determinação de nitrato em amostra de água de rio foi realizada por amperometria (E = -0,45V) em solução de sulfato de sódio 0,1 mol L-1 (pH = 2,0). Os resultados obtidos com o sensor demonstraram o sucesso das aplicações. As principais vantagens deste dispositivo dizem respeito à simplicidade de fabricação, baixo custo do equipamento e rapidez das análises. A caracterização eletroquímica do sensor e a determinação de ciclopirox olamina em solução de tampão BR 0,1 mol L-1 (pH = 5,0) utilizando o conjunto de microeletrodos de ouro (CD-RW) foi apresentada no terceiro capítulo. Os resultados obtidos mostraram que é possível realizar a determinação desta espécie de interesse em soluções oftalmológicas. O desenvolvimento, a caracterização e aplicação de um novo conjunto de microeletrodos de ouro fabricados a partir da redução eletroquímica da 5-bromo-1,10-fenantrolina em solução de dimetilformalmida (DMF) foi investidada no quarto capítulo. A superfície foi bloqueada com um filme isolante de 1,10-fenantrolina e o sensor foi caracterizado como um conjunto de microeletrodos de ouro. O sensor foi aplicado para a determinação de peróxido de hidrogênio, nas condições descritas anteriormente a fim de avaliar a aplicabilidade deste dispositivo. Os resultados obtidos foram promissores. A utilização de um eletrodo de microbanda impresso na configuração \"back-to-back\" foi descrita no quinto capítulo. A configuração faz uso da impressão de um novo eletrodo nas costas de um eletrodo impresso \"tradicional\", aumentando com isso a sensibilidade do sensor. O eletrodo impresso na configuração \"back-to-back\" foi utilizado para a determinação de íons Pb(II) em amostras de água potável por meio da técnica de voltametria de redissolução anódica por onda quadrada e os resultados obtidos foram concordantes com os encontrados utilizando espectrometria de emissão atômica por plasma acoplado. Os eletrodos de microbanda impressos na configuração \"back-to-back\" modificados com nanotubos de carbono para a determinação de capsaicina e dopamina e com ftalocianina de cobalto (II) para determinação de hidrazina foram investigados no sexto capítulo. Os resultados obtidos foram concordantes com aqueles descritos em outros trabalhos encontrados na literatura. / This work presents results on the fabrication of disposable electrochemical sensors and the use of such devices for the determination of different analytes in biological, pharmaceutical and environmental samples. The development and application of these sensors have been divided into six chapters. The first chapter describes the fabrication of a microelectrode ensemble (CD-RW) using ink toner. The sensor was fabricated by deposition of two toner pattern masks on copper and gold substrates. The electrodes fabricated according this procedure were characterized and applied in subsequent chapters. The second chapter describes the use of a disposable copper random microarrays (DCRM) for the amperometric determination of three analytes: hydrogen peroxide in real samples (oral antiseptic and dental whitening) at -0.2 V in phosphate buffer (pH 7.0) solution, acetylsalicylic acid (ASA) in pharmaceutical formulations at 0.6 V in 0.10 mol L-1 NaOH solution and nitrate in river samples at -0.45V in a 0.10 mol L-1 sodium sulfate solution (pH 2.0). The good results obtained with the DCRM demonstrated the successful application of this new sensor. The main advantages of the proposed manufacturing procedure are the simplicity, low cost of equipment and the high speed of production. The third chapter presents results on the use of a gold random microarray (GRM) for the determination of ciclopirox olamine in 0.10 mol L-1 Britton Robinson buffer solution (pH 5.0). Following the optimization of the experimental parameters, the proposed sensor presented excellent analytical properties for the amperometric detection of ciclopirox olamine at +0.85 V. The usefulness of the GRM sensor was confirmed by determining ciclopirox olamine in commercial products and the results obtained agreed well with those found by potentiometric titration and the labeled values. The fourth chapter describes the fabrication of a random assembly of microelectrodes (RAMs) by electrochemical reduction of 5-bromo-1,10- phenathroline in N,N-dimethylformamide (DMF), generating the 1,10-phenanthroline radical, which was covalently grafted on gold electrodes. After several potential cycles, the gold surface was partially blocked with an insulating film of 1,10-phenanthroline and the resulting modified electrode exhibited the characteristics of RAMs for the electrochemical reduction of the reversible probe 1,4-benzoquinone in DMF. This sensor was applied for hydrogen peroxide detection at -0.2 V in phosphate buffer (pH 7.0) solution. The fifth chapter reports on the use of screen-printed back-to-back microband electroanalytical sensors for quantification of lead(II) ions in drinking water samples in 0.01 mol L-1 HCl and the validation of the results by ICP-OES. The sixth chapter shows results on the use of back-to-back screen-printed microband electrodes modified with single-walled carbon nanotubes and cobalt phthalocyanine. The electroanalytical applications of this novel electrode configuration were exemplified towards the sensing of dopamine, capsaicin and hydrazine.

Configuração back-to-back

Conjunto de microeletrodos

Eletrodos impressos

Métodos eletroanalíticos

Microbanda

Modificação eletroquímica

Sensores químicos

Back-to-back configuration

Chemical sensors

Electroanalytical methods

Electrochemical modification

Microband

Random microelectrodes

Screen-printed electrode

Development of chemical separation processes for the treatment and monitoring of metallic cations and oxoanions in polluted waters

Güell Martí, Raquel

07 October 2011

The chemical contamination of natural waters is a global problem with a worldwide impact. Considering the relevance of this problem, this thesis is intended, on one hand, to develop different separation/preconcentration techniques based on membranes ability to permeate anions for the transport of toxic oxyanions of chromium(VI) and arsenic contained in aqueous matrices. In particular, we have investigated supported liquid membranes and polymer inclusion membranes, both of which contain the commercial quaternary ammonium salt Aliquat 336 as a carrier, as well as commercial anion exchange membranes. On the other hand, we have focused on the development of chemical sensors to facilitate the monitoring of several metals from different aqueous matrices. Thus, a selective optical sensor for Cr(VI) based on polymeric membranes containing Aliquat 336 as an ionophore has been designed. Additionally, mercury-based screen-printed electrodes have been evaluated for for cadmium, lead, copper and zinc detection. / La contaminació química de les aigües naturals és un problema global amb repercussió a nivell mundial. Donada la rellevància que té aquesta problemàtica, en la present tesi s’han desenvolupat d’una banda tècniques de separació/preconcentració basades en diferents sistemes de membrana en què el mecanisme de transport proposat és un bescanvi aniònic per als oxoanions tòxics de crom(VI) i arsènic presents en matrius aquoses. Concretament, s’ha treballat amb membranes líquides suportades que contenien el portador comercial Aliquat 336, membranes d’inclusió polimèriques amb el mateix portador i membranes de bescanvi aniònic comercials. D’altra banda, s’ha treballat en el desenvolupament de diferents sensors químics per monitoritzar diversos metalls presents en matrius aquoses. Així, s’ha dissenyat un sistema de sensor òptic selectiu a Cr(VI) basat en membranes polimèriques utilitzant també el portador Aliquat 336 i s’ha desenvolupat un sistema de monitorització per plom, coure, cadmi i zinc basat en microelèctrodes serigrafiats modificats amb mercuri.

Chemical pollution

Contaminació química

Contaminación química

Membrane ability

Sistemes de membranes

Sistemas de membranas

Chemical sensors

Sensors químics

Sensores químicos

Arsenic

Arsénico

Chromium (VI)

Crom (VI)

Cromo (VI)

Heavy metals

Metalls pesants

Metales pesados

Polluted water

Aigües contaminades

Aguas contaminadas

543

Metal oxide nanostructures and their applications

Dar, Ghulam Nabi

25 May 2015

Recently, researchers on nanoparticles and nanostructures has received a great deal of attention not only in the area of synthesis and characterization but also in their potential application in various high-technological applications. Nanomaterials are widely used not only for environmental and biological applications but also for electronic and sensing applications. Among various classes of nanomaterials, the metal oxide nanostructures possess particular important because of their significant physical and chemical properties which allowed them to be used for the fabrication of highly efficient nanodevices. The metal oxide nanomaterials are widely used for catalysis, sensing, and electronic devices, and so on. Due to the high-efficient applications, researchers have developed several synthesis strategies to prepare metal oxide nanostructures with tailored geometry and utilize them for a variety of applications. However, it is still desirable to prepare metal oxide nanomaterials with environment-friendly precursors and processes with varied size and morphology for their effective utilization in specific applications. This thesis focuses on the synthesis, characterizations and specific applications of two undoped and doped metal oxide nanostructures, i.e. zinc oxide (ZnO) and iron oxide (α-Fe2O3). The thesis highlights the development of novel synthesis techniques/procedures which are rapid, consume less energy and time, and are less cumbersome, more economical, especially because of the low temperature process. The other aspect of the thesis is to use the as-synthesized nanomaterials for several important applications such as sensors, photovoltaic, and photocatalysis. The thesis is divided into several chapters. Chapter 1 starts with a brief introduction of the metal oxide nanostructures and their various synthetic methods. In addition to this, a short review on the targeted applications, i.e. sensing, photovoltaic and photocatalytic, of this thesis was also discussed in this chapter. Finally, the chapter describes the objective and importance of the thesis. Chapter 2 deals with the details of the synthesis and characterization techniques used in this thesis. Two specific techniques, i.e. hydrothermal and thermal evaporation, have been used for the synthesis of various undoped and doped nanomaterials explored in this thesis. The synthesized nanomaterials were examined by variety of techniques in terms of the morphological, structural, optical, compositional and electrical properties. Moreover the prepared nanomaterials together were used for various applications such as sensing, photovoltaic and photocatalytic applications. In a word, this chapter provides all the detailed procedures for the synthesis, characterizations and applications of targeted nanomaterials in this thesis. Chapter 3 describes the main results and discussion of the thesis. This chapter is divided into several sections and each section describes the synthesis, detailed characterizations and particular application of a single metal oxide nanomaterial. Section 1 describes the growth, characterization and ammonia chemical sensing applications of well-crystalline ZnO nanopencils grown via facile and simple hydrothermal process using commonly used laboratory chemicals. Importantly, the fabricated ammonia chemical sensor exhibited ultra-high sensitivity. Section 2 demonstrates the use of ZnO balls made of intermingled nanocrystalline nanosheets for photovoltaic device application. Successful growth, characterizations and phenyl hydrazine chemical sensing applications based on Ag-doped ZnO nanoflowers was demonstrated in section 3 of this chapter. Section 4 describes the Ce-doped ZnO nanorods for the detection of hazardous chemical; hydroquinone. Section 5 exemplifies the facile growth and detailed structural and optical characterizations of In-Doped ZnO hollow spheres composed of nanosheets networks and nanocones. Finally, section 6 illustrates the utilization of α-Fe2O3 hexagonal nanoparticles for environmental remediation and smart sensor applications. Moreover the synthesized α-Fe2O3 hexagonal nanoparticles were characterized in detail in terms of their morphological, structural, compositional and optical properties. Chapter 4 briefly highlights the overall conclusion and an outlook for further investigations suggested by the work undertaken here for this thesis. / Τα τελευταία χρόνια τα νανοσωματίδια και οι νανοδομές έχουν προσελκύσει μεγάλο ερευνητικό ενδιαφέρον λόγω των σημαντικών δυνατοτήτων που προσφέρουν για εφαρμογές υψηλής τεχνολογίας. Τα νανοϋλικά χρησιμοποιούντα ευρέως τόσο για περιβαλλοντικές και βιολογικές εφαρμογές όσο και για εφαρμογές στην ηλεκτρονική και τους αισθητήρες. Μεταξύ των διάφορων κατηγοριών νανοϋλικών, οι νανοδομές μεταλλικών οξειδίων παρουσιάζουν ιδιαίτερο ενδιαφέρον λόγω των φυσικών και χημικών ιδιοτήτων τους, που τους επιτρέπουν να χρησιμοποιούνται για την κατασκευή νανοσυσκευών υψηλής απόδοσης, με χαρακτηριστικά πεδία εφαρμογών την κατάλυση, την ηλεκτρονική και τους αισθητήρες. Για τους σκοπούς αυτούς, έχει αναπτυχθεί πληθώρα μεθόδων για την σύνθεση και προετοιμασία νανοδομών μεταλλικών οξειδίων με επιθυμητές γεωμετρίες, ώστε να είναι κατάλληλα για διαφορετικές εφαρμογές. Παρόλα αυτά, εξακολουθεί να υπάρχει έντονο ενδιαφέρον για την παραγωγή τέτοιων υλικών σε διάφορα μεγέθη και μορφολογίες, με περιβαλλοντικά φιλικές μεθόδους, με απώτερο σκοπό την χρησιμοποίησή τους σε συγκεκριμένες εφαρμογές. Η παρούσα διατριβή εστιάζει στην σύνθεση, τον χαρακτηρισμό και τις εφαρμογές των νανοδομών δύο συγκεκριμένων μεταλλικών οξειδίων (ZnO και α-Fe2O3) με ή χωρίς προσμείξεις. Η διατριβή δίνει έμφαση σε νέες τεχνικές σύνθεσης, οι οποίες είναι γρήγορες, καταναλώνουν λιγότερη ενέργεια και είναι πιο οικονομικές κυρίως λόγω χαμηλότερης θερμοκρασίας επεξεργασίας. Οι δομές των νανοϋλικών που προκύπτουν, χρησιμοποιούνται σε διάφορες σημαντικές εφαρμογές, όπως είναι οι αισθητήρες, τα φωτοβολταϊκά και η φωτοκατάλυση. Η διατριβή χωρίζεται σε 4 κεφάλαια. Στο κεφάλαιο 1 δίνεται μία σύντομη εισαγωγή στις νανοδομές των μεταλλικών οξειδίων και τις διάφορες μεθόδους σύνθεσης. Παρουσιάζονται συνοπτικά τα είδη των εφαρμογών τα οποία θα αποτελέσουν αντικείμενο μελέτης και τέλος περιγράφονται οι αντικειμενικοί στόχοι και η σημασία της διατριβής. Το κεφάλαιο 2 πραγματεύεται λεπτομερώς τις τεχνικές σύνθεσης και χαρακτηρισμού που υιοθετούνται στο μεγαλύτερο μέρος της μελέτης. Συγκεκριμένα, για την σύνθεση των νανοϋλικών (με ή χωρίς προσμίξεις) χρησιμοποιούνται οι τεχνικές της υδροθερμικής και της θερμικής εξάχνωσης. Τα παραγόμενα νανοϋλικά μελετήθηκαν ως προς την σύνθεσή τους, καθώς επίσης και τις μορφολογικές, δομικές, οπτικές και ηλεκτρικές ιδιότητες. Στην συνέχεια, χρησιμοποιούνται για τα διάφορα είδη εφαρμογών που αναφέρθηκαν παραπάνω. Με άλλα λόγια, στο κεφάλαιο αυτό περιέχονται όλες οι λεπτομέρειες των διαδικασιών παραγωγής και των εφαρμογών. Το κεφάλαιο 3 περιλαμβάνει την παρουσίαση και συζήτηση των αποτελεσμάτων. Αποτελείται από διάφορες παραγράφους η κάθε μία εκ των οποίων περιγράφει την σύνθεση, τον χαρακτηρισμό και τις εφαρμογές ενός εκ των υλικών. Στην Παράγραφο 1 περιγράφονται η ανάπτυξη, ο χαρακτηρισμός των κρυσταλλικών ZnO νανομολυβδιών μέσω μίας απλής και εύκολης υδροθερμικής διαδικασίας, χρησιμοποιώντας συνηθισμένα εργαστηριακά υλικά, καθώς επίσης και η εφαρμογή τους ως χημικοί αισθητήρες αμμωνίας. Αξίζει να σημειωθεί ότι οι αισθητήρες που κατασκευάστηκαν επέδειξαν υπέρ-υψηλή ευαισθησία. Η παράγραφος 2 επιδεικνύει την χρήση ZnO σφαιρών που είναι κατασκευασμένες απο αναμιγμένα νανοκρυσταλλικά νανοφύλλα για φωτοβολταϊκές εφαρμογές. Η επιτυχής ανάπτυξη και χαρακτηρισμός ZnO νανολουλουδιών εμπλουτισμένα με Άργυρο καθώς επίσης και η χρήση τους σε εφαρμογές αισθητήρων φαινυλο-υδραζίνης παρουσιάζονται στην παράγραφο 3. Στην παράγραφο 4 περιγράφεται η χρήση ZnO νανοράβδων εμπλουτισμένων με Δημήτριο για την ανίχνευση της επικίνδυνης χημικής ουσίας υδροκινόνης. Στην Παράγραφο 5 παρουσιάζεται η ανάπτυξη και ο λεπτομερής δομικός και οπτικός χαρακτηρισμός κοίλων σφαιρών ZnO εμπλουτισμένων με Ίνδιο που αποτελούνται απο δίκτυα νανοφύλλων και νανοκώνους. Τέλος στην παράγραφο 6 περιγράφεται η χρήση εξαγωνικών νανοσωματιδίων α-Fe2O3 για περιβαλλοντική αποκατάσταση και εφαρμογές ευφυών αισθητήρων. Οι δομές αυτές χαρακτηρίστηκαν λεπτομερώς ως προς τη σύνθεση τις μορφολογικές, τις δομικές και τις οπτικές ιδιότητες. Στο κεφάλαιο 4 παρουσιάζονται τα συμπεράσματα της παρούσας διατριβής καθώς επίσης και προστάσεις για την περεταίρω διερεύνηση των υπό μελέτη συστημάτων.

Metal oxides

Nanostructures

Zinc oxide

Silver doped ZnO

Cerium doped ZnO

Indium doped ZnO

Iron oxide

Chemical sensors

Photovoltaic devices

Photocatalyst

620.16

Οξείδια μετάλλων

Νανοδομές

Οξείδιο του σιδήρου

Χημικοί αισθητήρες

Φωτοβολταϊκά

Φωτοκατάλυση

Physicochemical Characterization and Gas Sensing Studies of Cr1-xFexNbO4 and Application of Principal Component Analysis

Sree Rama Murthy, A

January 2016

Monitoring the working environment of laboratories and industries for pollutants is of primary concern to ensure the healthiness of working personnel. Semiconducting metal oxides (SMOs) are sensitive to the gas ambience and can be tuned for sensing purpose. As SMOs are not selective, an array of sensors with differential selectivity may resolve to great extent. The objective of the thesis is to understand the physicochemical properties and gas sensing characteristics of Cr1-xFexNbO4. Applying principal component analysis to the sensor response data either for selection of features or for differentiation of analysts is also of concern. Preparation of Cr1-xFexNbO4, phase characterization, lattice parameters estimation, morphological and micro chemical analysis (SEM & EDX), electrical characterization by direct current (DC & AC) in the temperature range of 423 K to 573 K, weighted magnetic moment of iron and chromium deduced from susceptibility measurements, spin nature of iron and surface compositions of different valences of chromium and iron deduced from X-ray photoelectron spectroscopy of are presented. The wide dynamic range hydrogen sensing characteristics of CrNbO4 bulk pellets at different temperatures along with the cross-sensitivity towards NH3, NOx(NO+NO2) and PG (petroleum gas) are investigated. The preparation of Cr1-xFexNbO4 thick and thin films by screen-printing and PLD are also presented. The thick films are tested at different temperatures towards hydrogen. The n-type or p-type nature of thick films towards hydrogen with varying iron concentration in Cr1-xFexNbO4 is reported. The thin films are characterized for phase formation, morphology by XRD, SEM and AFM. XPS performed surface characterization. Electrical resistance measurements at different temperatures and preliminary experiments on hydrogen sensing are presented. The probable hydrogen sensing mechanism of CrNbO4 was revealed by X-ray photoelectron spectroscopy. The experimentally observed reduction in metal ion oxidation states upon interacting with hydrogen is best illustrated by Kröger Vink notation. Principal component analysis was applied for three different types of studies: i) The fit parameters of the transient response of CrNbO4 thick films towards hydrogen are analyzed for finding out the better feature for calibration, ii) Different thick films of CrNbO4, Cr0.5Fe0.5NbO4 and FeNbO4 operated at various temperatures for testing H2 and VOCs are analyzed for redundancy in sensor behaviour and iii) Cr0.8Fe0.2NbO4 thick films are studied for sensing H2, NH3 and their mixtures and usefulness of PCA in resolving them in PC-space. In addition, H2 and VOCs are tested at different temperatures and redundancy in temperature is deduced to construct a sensor array with a minimum number of sensors. Finally, a sensor array consisting of Cr0.8Fe0.2NbO4 thick films, operating at different temperatures is built, and qualitative discrimination of analysts in PC-space is demonstrated. Finally, the major findings of the present investigations and suggestions for future aspects of experimentation are provided

Chemical Sensors

Semiconducting Metal Oxides Sensors

SMO Sensors

Gas Sensing Studies

Sensing Mechanisms

Chronology

Semiconducting Metal Oxides (SMOs)

CrNbO4 Bulk Ceramics

Cr1-xFexNbO4

Principal Component Analysis

Bulk Ceramic Synthesis

Thin Film Deposition

Hydrogen Sensing Mechanism

Materials Science

Nouveaux tétraoxa[8]circulènes ayant une géométrie de double-bol : synthèse, cristallisation et interactions avec invités électropauvres

Petrov-Gueorguiev, Nino

05 1900

L’aromaticité et l’antiaromaticité demeurent un sujet d’actualité au niveau fondamental puisque ces concepts permettent d’expliquer la réactivité de diverses classes de molécules. Certains composés polycycliques ayant une conjugaison π étendue, comme par exemple les tétraoxa[8]circulènes, ont des cycles aromatiques et antiaromatiques qui affectent leurs propriétés physicochimiques. Les oxacirculènes sont formés d’un anneau de quatre furanes et de quatre benzènes positionnés en alternance et créant un cœur formellement antiaromatique de cyclooctatétraène (COT). Malgré cela, ces composés démontrent une grande stabilité et peuvent servir en tant que composantes de dispositifs optoélectroniques comme des diodes électroluminescentes. Les propriétés optoélectroniques de ces composés et leur organisation moléculaire à l’état solide sont à l’origine d’un comportement unique. Le présent mémoire décrit la synthèse de tétraoxa[8]circulènes par une réaction très spéciale de cyclocondensation de 1,4-quinones catalysée par des acides, permettant d’accéder à des grandes molécules conjuguées en une étape. Les composés synthétisés ont une géométrie qui empêche leur empilement efficace et crée des vides dans la structure cristalline pouvant servir à l’inclusion de molécules invitées. En particulier, l’inclusion de C60 effectuée par cocristallisation cause l’uniformisation des longueurs des liens du cœur COT des oxacirculènes, suggérant des interactions de transfert de charge. Enfin, les propriétés optiques étudiées par spectroscopie UV-vis et par fluorescence indiquent que les oxacirculènes sont sensibles à leur environnement moléculaire et pourraient donc être utilisés comme des senseurs chimiques. / Aromaticity and antiaromaticity remain important topics of chemical research because these concepts explain the reactivity of various classes of molecules. For instance, certain polycyclic compounds with π-extended conjugation, such as tetraoxa[8]circulenes, contain both aromatic and antiaromatic rings, which affect their physicochemical properties. Oxacirculenes consist of a circular arrangement of four furan and four benzene rings positioned in an alternating fashion, thus creating a formally antiaromatic cyclooctatetraene (COT) core. Despite this, oxacirculenes exhibit great stability. They can serve as components in optoelectronic devices such as electroluminescent diodes, and their molecular organisation in the solid state can be controlled in ways that influence their properties. The present memoir describes the synthesis of tetraoxa[8]circulenes by a very special acid-catalysed cyclocondensation reaction starting from suitable 1,4-quinones, thereby allowing the preparation of large conjugated molecules in a single step. The compounds prepared have an awkward molecular structure that inhibits efficient packing and creates voids in the crystal structure, allowing the inclusion of guests. In particular, the inclusion of C60, achieved by cocrystallization, appears to create charge-transfer interactions as indicated by uniformization of bond lengths in the COT core. Optical properties studied by UV-vis spectroscopy and fluorescence show that oxacirculenes are sensitive to their local chemical environment, suggesting that they can be used as chemical sensors for the rapid detection of guests.

Aromaticité

PAHs

Tétraoxa[8]circulènes

Conjugaison π-étendue

Cyclocondensation des 1,4-quinones

Chimie hôte-invité

Cocristallisation

C60

Senseurs chimiques

Aromaticity

π-extended conjugation

Cyclocondensation of 1,4-quinones

Host-guest chemistry

Cocrystallization

Chemical sensors

Large-scale self-organized gold nanostructures with bidirectional plasmon resonances for SERS

Schreiber, Benjamin, Gkogkou, Dimitra, Dedelaite, Lina, Kerbusch, Jochen, Hübner, René, Sheremet, Evgeniya, Zahn, Dietrich R. T., Ramanavicius, Arunas, Facskoa, Stefan, Rodriguez, Raul D.

18 July 2018

Efficient substrates for surface-enhanced Raman spectroscopy (SERS) are under constant development, since time-consuming and costly fabrication routines are often an issue for high-throughput spectroscopy applications. In this research, we use a two-step fabrication method to produce self-organized parallel-oriented plasmonic gold nanostructures. The fabrication routine is ready for wafer-scale production involving only low-energy ion beam irradiation and metal deposition. The optical spectroscopy features of the resulting structures show a successful bidirectional plasmonic response. The localized surface plasmon resonances (LSPRs) of each direction are independent from each other and can be tuned by the fabrication parameters. This ability to tune the LSPR characteristics allows the development of optimized plasmonic nanostructures to match different laser excitations and optical transitions for any arbitrary analyte. Moreover, in this study, we probe the polarization and wavelength dependence of such bidirectional plasmonic nanostructures by a complementary spectroscopic ellipsometry and Raman spectroscopy analysis. We observe a significant signal amplification by the SERS substrates and determine enhancement factors of over a thousand times. We also perform finite element method-based calculations of the electromagnetic enhancement for the SERS signal provided by the plasmonic nanostructures. The calculations are based on realistic models constructed using the same particle sizes and shapes experimentally determined by scanning electron microscopy. The spatial distribution of electric field enhancement shows some dispersion in the LSPR, which is a direct consequence of the semi-random distribution of hotspots. The signal enhancement is highly efficient, making our SERS substrates attractive candidates for high-throughput chemical sensing applications in which directionality, chemical stability, and large-scale fabrication are essential requirements.

info:eu-repo/classification/ddc/535

ddc:535

Monocouches peptidiques auto-assemblées et applications dans le domaine des biocapteurs de résonance de plasmon de surfaces

Bolduc, Olivier R.

08 1900

Ces travaux visent à étendre les applications de la résonance de plasmons de surface (SPR) L’objectif est d’offrir des outils diagnostics plus rapides, efficaces et simple d’utilisation pour diagnostiquer ou effectuer le suivi de conditions cliniques. Pour se faire, un nouveau type d’instrumentation SPR basé sur l’utilisation d’un prisme d’inversion (dove) a permis d’atteindre une limite de détection (LOD) de 10-6 unité d’indice de réfraction (RIU), une valeur comparable aux instruments commerciaux complexes tout en demeurant peu dispendieux, robuste et simple d’utilisation. Les travaux présentés dans cet ouvrage visent, dans un second temps, à réduire les interactions nonspécifiques (NSB) entre la surface des biocapteurs SPR et les composants de la matrice biologique complexe telles que: l’urine, le lysat cellulaire, le sérum et le sang. Ces dernières induisent des réponses empêchant l’utilisation de biocapteurs SPR en milieux complexes. Les acides aminés (AA) offrent une grande variété de propriétés physico-chimiques permettant la mise au point de monocouches auto-assemblées (SAM) aux propriétés diverses. Initialement, 19 des 20 acides aminés naturels ont été attachés à l’acide 3-mercaptopropionique (3-MPA) formant des SAMs peptidomimétiques. La quantité d’interactions nonspécifiques engendrées par ces différentes surfaces a été mesurée en exposant ces surfaces au sérum sanguin bovin complet variant de 400 ng/cm² jusqu’à 800 ng/cm². La détection à l’aide de ces surfaces de la β-lactamase (une enzyme responsable de la résistance aux antibiotiques au niveau μM) a démontré la possibilité d’employer ces surfaces pour bâtir des biocapteurs SPR. Des peptides de longueur allant de 2 à 5 résidus attachés à 3-MPA ont été synthétisés sur support solide. Cette étude a démontré que l’augmentation de la longueur des peptides formés d’AA résistants aux NBS accroit leur résistance jusqu’à 5 résidus. Le composé le plus performant de ce type (3-MPA-(Ser)5-OH) a permis d’atteindre 180 ng/cm². Cette valeur est similaire à celle des meilleures surfaces disponibles commercialement, notamment les surfaces de polyethylène glycol (PEG) à 100 ng/cm². Des surfaces de 3-MPA-(Ser)5-OH ont permis l’étalonnage de la β-lactamase et sa quantification directe dans un lysat cellulaire. La LOD pour ces biocapteurs est de 10 nM. Une troisième génération de surfaces peptidiques binaires a permis la réduction de la NSB jusqu’à un niveau de 23±10 ng/cm² une valeur comparable aux meilleures surfaces disponibles. Ces surfaces ont permis l’étalonnage d’un indicateur potentiel du cancer la metalloprotéinase-3 de matrice (MMP-3). Les surfaces formées de peptides binaires (3-MPA-H3D2-OH) ont permis la quantification directe de la MMP-3 dans le sérum sanguin complet. Une quatrième génération de surfaces peptidiques a permis de réduire davantage le niveau de NSB jusqu’à une valeur de 12 ± 11 ng/cm². Ces surfaces ont été modifiées en y attachant une terminaison de type acide nitriloacétique (NTA) afin d’y attacher des biomolécules marquées par six résidus histidines terminaux. Ces surfaces ont permis le développement d’une méthode rapide de balayage des ligands ciblant le « cluster of differenciation-36 » (CD36). L’étude d’électroformation des monocouches de peptide a permis de déterminer les conditions de formation optimales d’une couche de 3-MPA-HHHDD-OH permettant ainsi la formation de monocouches résistantes au NSB en moins de 6 minutes en appliquant un potentiel de formation de 200mV vs Ag/AgCl. / The work presented in this thesis aims to extend the use of surface plasmon resonance (SPR) biosensors to generate more rapid, cost efficient and simple to use diagnostic tools to diagnose or follow serious medical conditions. This task required the development of a new SPR instrument that relies on an inversion prism (dove) and is able to reach a limit of detection (LOD) in the 10-6 refractive index unit (RIU) range, a value comparable to more complex commercial instruments. The developed SPR instrumentation is inexpensive, robust and very simple to manipulate. The other work presented in this thesis is based on reducing nonspecific interactions between the surface of SPR sensors and components in biological matrices such as urine, cell lysate, serum and whole blood. These nonspecific interactions induce SPR responses that have typically prohibited the use of SPR in these complex matrices. Amino acidshavebeen investigated for reduction of nonspecific binding (NSB) because they offer a wide variety of physico-chemical properties capable of tuning the physical properties of surfaces in a self-assembled monolayer (SAM) format. Initially, the attachment of one of 19 physiological 20 amino acids to 3-mercaptopropionic acid (3-MPA) allowed the formation of amino acid SAMs. Exposure of these surfaces to bovine serum revealed nonspecific interactions ranging from 400 ng/cm² to 800 ng/cm². Detection assays for β-lactamase (an enzyme produced by drug resistant bacteria at a micromolar level) demonstrated that the amino acid SAM is suitable for SPR biosensing. By using a solid phase approach, peptides were of 2 to 5 residues were synthesized to investigate NSB properties. The result of this study showed that adding amino acids decreased nonspecific interactions up to a peptide length of 5 amino acids. The best performing peptide, 3-MPA-(Serine)5-OH, resulted in low nonspecific adsorption of bovine serum proteins to a level of 180 ng/cm². This value is similar to nonspecific adsorption obtained under identical conditions for one of the best reported surfaces: polyethylene glycol-based SAMs at 100 ng/cm². The 3-MPA-(Serine)5-OH based SAM was used to calibrate β-lactamase, leading to its direct quantification in crude cell lysate. The detection limit for this analyte was 10 nM. A third generation of peptide, which is binary patterned, decreased significantly nonspecific adsorption to a level as low as 23 ± 10 ng/cm², a value comparable to the best surfaces known. This surface SAM allowed the calibration of matrix metalloproteinase-3 (MMP-3), a potential indicator of cancer. Direct quantification assays of MMP-3 in whole blood serum were achieved with the binary patterned peptides developed. The LOD for MMP-3 was 0.2nM over a 50 nM linear domain. A fourth generation of peptide based surfaces was developed, reducing the level of nonspecific adsorption of blood serum proteins to 12 ± 11 ng/cm2. These new surfaces were modified to attach His-tagged biomolecules enabling rapid screening of small ligands targeting the Cluster of differentiation-36 (CD36). Finally, the electroformation of peptide monolayers was studied to determine the optimal conditions needed to form an ultralow biofouling surface. It was demonstrated that the difference in potential applied during the formation of a peptide based layer influences the kinetics of formation and the arrangement of this layer. An optimal layer of 3-MPA-HHHDD-OH could be obtained in less than 6 min by applying a potential of 200mV vs Ag/AgCl to the SPR sensor.

Interactions nonspécifiques

Nonspecific interactions

Résonance de plasmons de surface

Surface plasmon resonance

Biocapteurs

Biosensors

Capteurs chimiques

Chemical sensors

Monocouches auto-assemblées

Self-assembled monolayers

Peptides

Pharmaceutique

Pharmaceutical

Électroformation

Electroformation

Outils diagnostiques

Diagnostic tools

Couches chimiques

Chemical layers

Adsorption

[en] ROBOTIC SYSTEM FOR MONITORING WATER QUALITY IN LENTIC ENVIRONMENTS / [pt] SISTEMA ROBÓTICO PARA MONITORAMENTO DA QUALIDADE DA ÁGUA EM AMBIENTES LÊNTICOS

MARCOS AURELIO PINTO MARZANO JR

18 February 2019

[pt] Nas últimas décadas, a crescente conscientização ambiental levou ao reconhecimento da necessidade do uso responsável dos recursos hídricos. Para garantir isso, a boa gestão de reservatórios hídricos requer um monitoramento ambiental adequado, com medições confiáveis dos parâmetros de qualidade da água em vários pontos do reservatório, permitindo o controle da qualidade da água e seus impactos na fauna, flora e comunidades ribeirinhas dos reservatórios. O monitoramento das variáveis ambientais dos reservatórios é atualmente realizado por processo tradicional de coleta manual. Infelizmente, no Brasil, as iniciativas de produzir um sistema robótico aquático com tecnologia nacional e de baixo custo, quando comparado a equivalentes importados, são ainda raras e se restringem a algumas poucas instituições acadêmicas, não tendo sido localizado nenhum fabricante comercial deste tipo de veículo no país. Visando preencher esta lacuna, o presente trabalho teve como objetivo o desenvolvimento do protótipo de um sistema robótico aquático capaz de se locomover autonomamente em lagoas, lagos e reservatórios, coletando informações físico-químicas da água e armazenando estes dados na memória. Além disso, foi incluído no protótipo uma câmera de vídeo, sistema de iluminação e um sistema de controle remoto, objetivando o controle pela equipe em terra. Nos testes realizados em dias ensolarados e chuvosos, o robô apresentou boa dirigibilidade, estabilidade e manobrabilidade. O vaso de pressão do sistema robótico resistiu às pressões necessárias durante os testes, a eletrônica conseguiu atender as especificações de projeto e o software conseguiu estabelecer um controle de navegação, cumprindo o trajeto de uma rota estabelecida. / [en] In recent decades, the growing environmental awareness has led to the recognition of the need for responsible use of water resources. To ensure this, the good management of water reservoirs requires adequate environmental monitoring, with reliable measurements of water quality parameters in various parts of the reservoir, allowing the control of water quality and its impacts on fauna, flora and riverine communities of the reservoirs. Monitoring environmental variables of the reservoirs is currently performed by traditional process of manual collection. Unfortunately, in Brazil, initiatives to produce a water robotic system with national and low cost technology, compared to imported equivalents, are still rare and restricted to a few academic institutions, and no commercial manufacturer of this type of vehicle was found in the country. Aiming to fill this gap, the main objective of this study was to develop a prototype of a water robotic system capable of autonomously navigate in ponds, lakes and reservoirs, collecting physicochemical information of water and storing this data in memory. Moreover, a video camera, illumination and a remote control system were included in the prototype, allowing the team on the ground to control the prototype. In tests conducted in sunny and rainy days, the robot presented good handling, stability and maneuverability. The robotic system pressure vessel resisted pressures required during testing, the electronics met the design specifications and the software was able to establish a navigation control, fulfilling the path of an established route.

[pt] SISTEMA DE CONTROLE

[en] CONTROL SYSTEM

[pt] ROBO

[en] ROBOT

[pt] AUTONOMO

[en] AUTONOMOUS

[pt] ELETRONICA EMBARCADA

[en] EMBEDDED SYSTEMS

[pt] ROV

[en] ROV

[pt] AMBIENTE AQUATICO

[en] AQUATIC ENVIRONMENT

[pt] QUALIDADE AGUA

[en] WATER QUALITY

[pt] REMOTAMENTE CONTROLADO

[en] REMOTELY CONTROLLED

[pt] SENSORES FISICO-QUIMICOS

[en] PHYSICO-CHEMICAL SENSORS

Monocouches peptidiques auto-assemblées et applications dans le domaine des biocapteurs de résonance de plasmon de surfaces

Bolduc, Olivier R.

08 1900

Ces travaux visent à étendre les applications de la résonance de plasmons de surface (SPR) L’objectif est d’offrir des outils diagnostics plus rapides, efficaces et simple d’utilisation pour diagnostiquer ou effectuer le suivi de conditions cliniques. Pour se faire, un nouveau type d’instrumentation SPR basé sur l’utilisation d’un prisme d’inversion (dove) a permis d’atteindre une limite de détection (LOD) de 10-6 unité d’indice de réfraction (RIU), une valeur comparable aux instruments commerciaux complexes tout en demeurant peu dispendieux, robuste et simple d’utilisation. Les travaux présentés dans cet ouvrage visent, dans un second temps, à réduire les interactions nonspécifiques (NSB) entre la surface des biocapteurs SPR et les composants de la matrice biologique complexe telles que: l’urine, le lysat cellulaire, le sérum et le sang. Ces dernières induisent des réponses empêchant l’utilisation de biocapteurs SPR en milieux complexes. Les acides aminés (AA) offrent une grande variété de propriétés physico-chimiques permettant la mise au point de monocouches auto-assemblées (SAM) aux propriétés diverses. Initialement, 19 des 20 acides aminés naturels ont été attachés à l’acide 3-mercaptopropionique (3-MPA) formant des SAMs peptidomimétiques. La quantité d’interactions nonspécifiques engendrées par ces différentes surfaces a été mesurée en exposant ces surfaces au sérum sanguin bovin complet variant de 400 ng/cm² jusqu’à 800 ng/cm². La détection à l’aide de ces surfaces de la β-lactamase (une enzyme responsable de la résistance aux antibiotiques au niveau μM) a démontré la possibilité d’employer ces surfaces pour bâtir des biocapteurs SPR. Des peptides de longueur allant de 2 à 5 résidus attachés à 3-MPA ont été synthétisés sur support solide. Cette étude a démontré que l’augmentation de la longueur des peptides formés d’AA résistants aux NBS accroit leur résistance jusqu’à 5 résidus. Le composé le plus performant de ce type (3-MPA-(Ser)5-OH) a permis d’atteindre 180 ng/cm². Cette valeur est similaire à celle des meilleures surfaces disponibles commercialement, notamment les surfaces de polyethylène glycol (PEG) à 100 ng/cm². Des surfaces de 3-MPA-(Ser)5-OH ont permis l’étalonnage de la β-lactamase et sa quantification directe dans un lysat cellulaire. La LOD pour ces biocapteurs est de 10 nM. Une troisième génération de surfaces peptidiques binaires a permis la réduction de la NSB jusqu’à un niveau de 23±10 ng/cm² une valeur comparable aux meilleures surfaces disponibles. Ces surfaces ont permis l’étalonnage d’un indicateur potentiel du cancer la metalloprotéinase-3 de matrice (MMP-3). Les surfaces formées de peptides binaires (3-MPA-H3D2-OH) ont permis la quantification directe de la MMP-3 dans le sérum sanguin complet. Une quatrième génération de surfaces peptidiques a permis de réduire davantage le niveau de NSB jusqu’à une valeur de 12 ± 11 ng/cm². Ces surfaces ont été modifiées en y attachant une terminaison de type acide nitriloacétique (NTA) afin d’y attacher des biomolécules marquées par six résidus histidines terminaux. Ces surfaces ont permis le développement d’une méthode rapide de balayage des ligands ciblant le « cluster of differenciation-36 » (CD36). L’étude d’électroformation des monocouches de peptide a permis de déterminer les conditions de formation optimales d’une couche de 3-MPA-HHHDD-OH permettant ainsi la formation de monocouches résistantes au NSB en moins de 6 minutes en appliquant un potentiel de formation de 200mV vs Ag/AgCl. / The work presented in this thesis aims to extend the use of surface plasmon resonance (SPR) biosensors to generate more rapid, cost efficient and simple to use diagnostic tools to diagnose or follow serious medical conditions. This task required the development of a new SPR instrument that relies on an inversion prism (dove) and is able to reach a limit of detection (LOD) in the 10-6 refractive index unit (RIU) range, a value comparable to more complex commercial instruments. The developed SPR instrumentation is inexpensive, robust and very simple to manipulate. The other work presented in this thesis is based on reducing nonspecific interactions between the surface of SPR sensors and components in biological matrices such as urine, cell lysate, serum and whole blood. These nonspecific interactions induce SPR responses that have typically prohibited the use of SPR in these complex matrices. Amino acidshavebeen investigated for reduction of nonspecific binding (NSB) because they offer a wide variety of physico-chemical properties capable of tuning the physical properties of surfaces in a self-assembled monolayer (SAM) format. Initially, the attachment of one of 19 physiological 20 amino acids to 3-mercaptopropionic acid (3-MPA) allowed the formation of amino acid SAMs. Exposure of these surfaces to bovine serum revealed nonspecific interactions ranging from 400 ng/cm² to 800 ng/cm². Detection assays for β-lactamase (an enzyme produced by drug resistant bacteria at a micromolar level) demonstrated that the amino acid SAM is suitable for SPR biosensing. By using a solid phase approach, peptides were of 2 to 5 residues were synthesized to investigate NSB properties. The result of this study showed that adding amino acids decreased nonspecific interactions up to a peptide length of 5 amino acids. The best performing peptide, 3-MPA-(Serine)5-OH, resulted in low nonspecific adsorption of bovine serum proteins to a level of 180 ng/cm². This value is similar to nonspecific adsorption obtained under identical conditions for one of the best reported surfaces: polyethylene glycol-based SAMs at 100 ng/cm². The 3-MPA-(Serine)5-OH based SAM was used to calibrate β-lactamase, leading to its direct quantification in crude cell lysate. The detection limit for this analyte was 10 nM. A third generation of peptide, which is binary patterned, decreased significantly nonspecific adsorption to a level as low as 23 ± 10 ng/cm², a value comparable to the best surfaces known. This surface SAM allowed the calibration of matrix metalloproteinase-3 (MMP-3), a potential indicator of cancer. Direct quantification assays of MMP-3 in whole blood serum were achieved with the binary patterned peptides developed. The LOD for MMP-3 was 0.2nM over a 50 nM linear domain. A fourth generation of peptide based surfaces was developed, reducing the level of nonspecific adsorption of blood serum proteins to 12 ± 11 ng/cm2. These new surfaces were modified to attach His-tagged biomolecules enabling rapid screening of small ligands targeting the Cluster of differentiation-36 (CD36). Finally, the electroformation of peptide monolayers was studied to determine the optimal conditions needed to form an ultralow biofouling surface. It was demonstrated that the difference in potential applied during the formation of a peptide based layer influences the kinetics of formation and the arrangement of this layer. An optimal layer of 3-MPA-HHHDD-OH could be obtained in less than 6 min by applying a potential of 200mV vs Ag/AgCl to the SPR sensor.

Interactions nonspécifiques

Nonspecific interactions

Résonance de plasmons de surface

Surface plasmon resonance

Biocapteurs

Biosensors

Capteurs chimiques

Chemical sensors

Monocouches auto-assemblées

Self-assembled monolayers

Peptides

Pharmaceutique

Pharmaceutical

Électroformation

Electroformation

Outils diagnostiques

Diagnostic tools

Couches chimiques

Chemical layers

Adsorption

Studies on Effect of Defect Doping and Additives on Cr2O3 and SnO2 Based Metal Oxide Semiconductor Gas Sensors

Kamble, Vinayak Bhanudas

January 2014

Metal Oxide (MO)semiconductors are one of the most widely used materials in commercial gas sensor devices. The basic principle of chemoresistive gas sensor operation stems on the high sensitivity of electrical resistance to ambient gaseous conditions. Depending on whether the oxide is "p type" or "n type", the resistance increases (or decrease), when placed in atmosphere containing reducing (or oxidizing) gases. The study of conductometric metal oxide semiconductor gas sensors has dual importance in view of their technological device applications and understanding fundamental MO-gas interactions. Metal oxides based sensors offer high thermal, mechanical and chemical stability. A large number of MOs show good sensitivities to various gases like CO, NOX, SOX, NH3, alcohols and other Volatile Organic Compounds (VOCs). VOCs are very common hazardous pollutants in the environment. Gas sensors are in great demand for their various applications such as food quality control, fermentation industries, road safety, defence, environmental monitoring and other chemical industries. The aim of the study is to explore the possibility of advancements in semiconducting MO based gas sensor devices through tuning microstructural parameters along with chemical dopants or additives. And further to investigate the underlying mechanism of conductometric MO gas sensors. The novel synthesis method employed is based on the solution combustion method coupled with ultrasonically nebulized spray pyrolysis technique. The well studied SnO2 and relatively unexplored Cr2O3 oxide systems are selected for the study. The non-equilibrium processing conditions result in unique microstructure and defect chemistry. In addition, using this technique MO - Reduced Graphene Oxide (RGO) nanocomposite films has also been fabricated and its application to room temperature gas sensor devices is demonstrated. The thesis comprises of seven chapters. the following section describe the summery of individual chapters. The Chapter 1 describes the introduction and background literature of this technology. A brief review of developments in gas sensor technology so far has been enlisted. This chapter also gives a glimpse of applications of MO semiconductors based sensors. The underlying mechanism involved in the sensing reaction and the primary factors influencing the response of a gas sensor device are enlisted. Further in the later part of the chapter focused the material selection criteria, effect of additives/dopants and future prospects of the technology. The end of this chapter highlights the objective and scope of the work in this dissertation. In the Chapter 2 the the materials selection, characterization techniques and particularly the experimental setups used are elaborated. This includes the deposition method used, which is developed in our group and the the in house built gas sensing system including its working principles and various issues have been addressed. The Ultrasonic Nebulized Spray Pyrolysis of Aqueous Combustion Mixture (UNSPACM) is a novel deposition method devised, which is a combination of conventional spray pyrolysis and solution combustion technique. Spray pyrolysis is versatile, economic and simple technique, which can be used for large area deposition of porous films. The intention is to exploit the exothermicity of combustion reaction in order to have high crystallinity, smaller crystallite size with high surface area, which are extremely important in gas sensor design and its efficiency. Further the gas sensing system and its operation are discussed in detail including the advantages of vertical sensing chamber geometry, wider analyte concentration range (ppm to percentage) obtained through vapor pressure data and simultaneous multi sensor characterization allowing better comparison. Here in this work, Chromium oxide (Cr2O3) and Tin oxide (SnO2) are selected as gas sensing materials for this work as a p-type and n-type metal oxide semiconductors respectively. Nevertheless Cr2O3 is a less explored gas sensing material as compared to SnO2, which is also being used in many commercially available gas sensor devices. Thus, studying and comparing gas sensing properties of a relatively novel and a well established material would justify the potential of the novel deposition technique developed. In Chapter 3, the effect of exothermic reaction between oxidizer and fuel, on the morphology, surface stoichiometry and observed gas sensing properties of Cr2O3 thin films deposited by UNSPACM, is studied. An elaborative study on the structural, morphological and surface stoichiometry of chromium oxide films is undertaken. Various deposition parameters have been optimized. An extensive and systematic gas sensing study is carried out on Cr2O3 films deposited, to achieve unique microstructure. The crystallinity and microstructure are investigated by varying the deposition conditions. Further, the effect of annealing in oxygen gas atmospheres on the films was also investigated. The gas sensing properties are studied for various VOCs, in temperature range 200 - 375 oC. The possible sensing mechanism and surface chemical processes involved in ethanol sensing, based on empirical results, are discussed. In chapter 4, the effect of 1% Pt doping on gas sensing properties of Cr2O3 thin films prepared by UNSPACM, is investigated. The chemical analysis is done using x-ray photoelectron spectroscopy to find the chemical state of Pt and quantification is done. The gas sensing is done towards gases like NO2, Methane and Ethanol. The enhancement in sensitivity and remarkable reduction in response as well as recovery times have been modeled with kinetic response analysis to study the variation with temperature as well as concentration. Further the analysis of observations and model fittings is discussed. The Chapter 5 deals with the defects induced ferromagnetism and gas sensing studies SnO2 nanoparticles prepared by solution combustion method. The structural, chemical analysis of as-synthesized and annealed SnO2 nanoparticles reveal gradual reduction in defect concentration of as-prepared SnO2. The findings of various characterization techniques along with optical absorption and magnetic studies to investigate the defect structure of the material are presented. As defects play crucial role in gas sensing properties of the metal oxide material, the defect induced room temperature ferromagnetism in undoped SnO2 has been used as a potential tool to probe the evidence of the defects. Finally a correlation is established between observed room temperature ferromagnetism and gas sensing studies and primary role of defects in gas sensing mechanism over microstructure is realized . The Chapter 6 presents the deposition of SnO2 thin films by UNSPACM method on glass substrates for gas sensing application. The readiness of UNSPACM in making sensor materials with unform dopant distribution is demonstrated in order to improve the sensor performance in terms of response and selectivity. The chemical composition, film morphology and gas sensing studies are reported. The SnO2 is doped with Cr and Pt to enhance the sensing properties of the material. The doped Oxide films are found to show enhancement in sensitivity and improve the selectivity of the films towards specific gases like NO2 and CO. Further in Chapter 7 an effort has been made to overcome the problem of high operating temperature of metal oxide gas sensors through use of Reduced Graphene Oxide (RGO) and metal oxide nanocomposite films. Although RGO shows room temperature response towards many toxic and hazardous gases but it exhibits poor sensor signal recovery. This has been successfully solved by making nanohybrids of RGO and SnO2. It not only improves the sensor signal kinetics but it enhances the sensitivity also. Thus this chapter endeavors towards low power consumption gas sensing devices. The key findings and future aspects are summarized in the Chapter 8.

Metal Oxide Semiconductor Gas Sensors

Chromium Oxide Thin Films

Thin Film Deposition

Tin Oxidce (SnO2) Thin Films

Gas Sensors

Tin Oxide (SnO2) Nanoparticles

Chemical Sensors

Cr2O3 Films

Graphite Oxide

SnO2 Sensors

SnO2 Nanocrystals

Materials Science