Fabricação e caracterização de OLEDs utilizando novos transportadores de buracos e novos emissores de luz para aplicações em eletrônica orgânica

Marins, Jefferson da Silva

19 January 2018

Submitted by Geandra Rodrigues (geandrar@gmail.com) on 2018-05-10T11:48:36Z No. of bitstreams: 1 jeffersondasilvamartins.pdf: 3798520 bytes, checksum: 36b404dfc17447ab2b47b8addd04eceb (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2018-05-22T15:42:34Z (GMT) No. of bitstreams: 1 jeffersondasilvamartins.pdf: 3798520 bytes, checksum: 36b404dfc17447ab2b47b8addd04eceb (MD5) / Made available in DSpace on 2018-05-22T15:42:34Z (GMT). No. of bitstreams: 1 jeffersondasilvamartins.pdf: 3798520 bytes, checksum: 36b404dfc17447ab2b47b8addd04eceb (MD5) Previous issue date: 2018-01-19 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O projeto contínuo de desenvolvimento de pesquisas em novos materiais orgânicos mais eficientes, mais puros e com boa estabilidade térmica e morfológica é fundamental para a aplicação em novos dispositivos orgânicos. Nesse contexto, o objetivo dessa tese é a fabricação e caracterização de novos dispositivos orgânicos emissores de luz (OLEDs). Essa pesquisa foi desenvolvida com duas abordagens e aplicações distintas. Na primeira, utiliza-se uma nova classe de derivados de xanteno (XD) como materiais transportadores de buracos, e na segunda, apresenta-se dois novos complexos de Európio como materiais emissores de luz. Na aplicação dos XD como camada transportadora de buracos (CTB) foram fabricados OLEDs bicamada, utilizando-se o material comercial Alq3 como emissor de luz. Os resultados desse estudo foram comparados com dispositivos de referência fabricados com o material comercial α-NPD no lugar dos XD. Todos os dispositivos baseados nos XD apresentaram uma eficiência de corrente mais elevada quando comparados com dispositivos de referência α-NPD. Um estudo teórico e experimental sobre a mobilidade de buracos dos XD e α-NPD mostram que todos os XD possuem mobilidade de buraco mais elevada que o material comercial. A mobilidade de buraco mais elevado na camada dos XD proporcionou um melhor equilíbrio de buracos e elétrons e, portanto, maior recombinação, resultando em eficiência aprimorada. Na segunda parte deste trabalho, foram estudados dois complexos de Európio como emissores de luz na região do vermelho do espectro visível. Os complexos de Európio, [Eu(btfa)3(dmbpy)2] e [Eu (TTA)3(PhenSe)], apresentaram as transições características ⁵D₀ → ⁷FJ (J = 0-4), em solução e em filme fino evaporado termicamente. Com o complexo [Eu(btfa)3(dmbpy)2] foram fabricados dispositivos com duas configurações de diferentes e, embora os OLEDs tenham apresentado uma banda larga devido à contribuição do Alq3, demonstrou-se a fabricação de um OLED eficiente. Já o complexo [Eu (TTA)3(PhenSe)] as eletroluminescências dos dispositivos apresentaram uma banda larga centrada em 580 nm, dificultando assim a observação das transições ⁵D₀ → ⁷FJ (J = 0,1). / The continuing research project to develop new organic materials that are more efficient, purest and with a good morphological and thermal stability is essential to apply them to new organic devices. Therefore, the aim of this thesis is the fabrication and the characterization of organic electroluminescent devices (OLEDs). This research was developed based on two distinctive approaches. At first, it was used a new xanthene derivative (XD) class as a hole transporting material and, secondly, it is shown two new Europium complex as light emitters. The use of XD as hole transporting layer (HTL) was made to fabricated bilayers OLEDs using the commercial material Alq3 as light emitters. Their results were compared to the reference device previously fabricated with the commercial material α-NPD. All XD devices presented a higher current efficiency when compared to the α-NPD reference device. A theoretical and experimental study of the XD and α-NPD holes mobility showed that all XD has a higher hole mobility than the commercial material. The higher hole mobility of the XD layer resulted in a better balance between hole and electrons and consequently, in a higher number of combinations, resulting in devices with improved efficiency. At the second part of this study, it was studied two Europium complexes as red-light emitters. The Europium complex, [Eu(btfa)3(dmbpy)] and [Eu(TTA)3(PhenSe)], showed the transitions characteristic of ⁵D₀ → ⁷FJ (J = 0-4) in solution and in a thermal evaporated thin film. The [Eu(btfa)3(dmbpy)] complex was used to fabricate devices with two different configurations and, although the OLEDs have shown a wide band due to the Alq3 contribution, the OLEDs presented good efficiency. In contrast, the electroluminescence of the [Eu (TTA)3(PhenSe)] complex based devices showed a wide band centered in 580 nm, in this case, covering the narrow ⁵D₀ → ⁷FJ (J = 0,1) transitions.

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

OLEDs

Derivados de xanteno

Complexo de európio

Filmes finos

Nanotecnologia

OLEDs

Xanthene derivatives

Europium complex

Thin films

Nanotechnology

Estudo de impureza de európio em PbSe e PbTe. Uma investigação de primeiros princípios / Study of impurity europium in PbSe AND PbTe. A first principles investigation

Cunha, Sandro Silva da

30 January 2014

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / In this work properties were studied the structural, electronic and magnetic semiconductors PbSe and PbTe doped with europium (Eu) in the crystalline phase. The investigation is performed within the density functional theory (DFT). We observe that due a strong spin-orbit coupling, relativistic corrections are necessary to describe the PbSe and PbTe. To obtain a good description of crystals where Eu is present (EuSe and EuTe) the standard DFT fails. This fail is due to the fact that the Eu atom presents f electrons in the valence band, which are strongly localized. To describe the localized f electrons an additional procedure from the many body theory is necessary. We observe that using an additional term (the U term) from the Hubbard model, the DFT is able to describe the localized f electrons, such the theory now is called DFT+U. The formation energy results show that the Eu atom is more stable in Pb sites for both PbSe and PbTe. Eu in a Pb site in PbSe introduces electronic levels inside the band gap while the new electronic levels from Eu in a Pb site in PbTe are resonant with the top of the valence band. The analysis from the character of these electronic levels reveled that they come from the 4f electrons from the Eu atom. These results allow us to conclude that Eu is a good dopant to improve the thermoelectric properties of PbTe while the same is not observed for PbSe. Finally, we investigate the magnetic properties for Eu doping PbSe and PbTe, we observe that in both semiconductors there is a magnetic moment of the 1.0 μB localized in the Eu atom. / Neste trabalho foi estudado as propriedades estruturais, eletrônicas e magnéticas dos semicondutores de PbSe e PbTe dopados com európio (Eu) na fase cristalina. Utilizamos cálculos de primeiros princípios dentro do formalismo da teoria do funcional da densidade (DFT). Observamos que para uma boa descrição do PbSe e PbTe dentro da DFT é necessário a inclusão das correções relativísticas através da interação spin-órbita. Para a descrição de cristais onde o európio é um dos constituintes (EuSe e EuTe) se observou a necessidade de correções à DFT para que se possa ter uma boa descrição dos elétrons f provenientes do Eu e que são fortemente localizados. A teoria DFT+U, onde U é proveniente da teoria de muitos corpos dentro do modelo de Hubbard se mostrou eficiente. Com a melhor metodologia estabelecida iniciamos os cálculos das energias de formação. Os resultados mostraram que o Eu é mais estávelr em sítios de Pb, tanto no cristal de PbSe como no cristal de PbTe. Nesses sítios a análise da parte eletrônica diz que no PbSe existem níveis no gap provenientes dos elétrons 4f do Eu, enquanto que no PbTe esses níveis estão ressonantes com o topo da banda de valência. Isso permite concluir que o Eu é um bom dopante para melhorar as propriedades termoelétricas do PbTe, o mesmo não pode ser dito com relação a dopagem com Eu em PbSe. Com relação a parte magnética observa-se um momento magnético de 1,0 μB tanto no cristal de PbSe como no cristal de PbTe. Esse momento magnético é localizado no átomo de európio para ambos semicondutores.

Teoria do funcional da densidade

Cristais de PbSe e PbTe

Európio

Impureza

Density functional theory

Crystals of PbSe and PbTe

Europium

Impurity

CNPQ::CIENCIAS EXATAS E DA TERRA::FISICA

Desenvolvimento e aplicação do pacote computacional LUMPAC

DUTRA, José Diogo de Lisboa

26 January 2017

Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-08-01T13:42:24Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) JDiogo_Tese Final_Quimica.pdf: 8861608 bytes, checksum: b9ce8a33624820a531c0a5c298600d94 (MD5) / Made available in DSpace on 2017-08-01T13:42:24Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) JDiogo_Tese Final_Quimica.pdf: 8861608 bytes, checksum: b9ce8a33624820a531c0a5c298600d94 (MD5) Previous issue date: 2017-01-26 / CNPQ / Metodologias te´oricas s˜ao ´uteis para complementar investigac¸˜oes experimentais e guiar novos experimentos envolvendo compostos luminescentes de lantan´ıdeos. A ausˆencia de uma ferramenta computacional contendo tais m´etodos motivou o desenvolvimento do LUMPAC. Se por um lado o LUMPAC difundiu o uso dessas metodologias, por outro as suas limitac¸˜oes tamb´em foram evidenciadas. Nesse sentido, pˆode-se conhecer melhor quais m´etodos merecem uma atenc¸˜ao especial, a saber: c´alculo dos parˆametros de intensidade (Ωλ), c´alculo da energia dos estados excitados dos ligantes e c´alculo da taxa de emiss˜ao n˜ao-radiativa (Anrad). O objetivo geral do presente trabalho de doutoramento consiste em corrigir algumas dessas limitac¸˜oes. Quantoaoc´alculodosΩλ,conseguimosatenuaroproblemacomumanovaformadeajustedos fatores de carga e das polarizabilidades atrav´es de um procedimento que foi denominado de Modelo da UnicidadeQDC, o qual faz uso de um conjunto bastante reduzido de parˆametros (Q,D eC). A importˆancia do ajusteQDC ´e que todas as quantidades derivadas se tornam tamb´em ´unicas para uma dada geometria do complexo, incluindo um esquema proposto de partic¸˜ao qu´ımico da taxa de emiss˜ao radiativa (Arad) em termos dos efeitos dos ligantes. Para demonstrar uma das poss´ıveis aplicac¸˜oes dessa partic¸˜ao, foi considerado o caso de complexos tern´arios de Eu3+ de ligantes n˜ao-iˆonicos repetidos e com os ligantes betadicetonatos DBM, TTA e BTFA. A partic¸˜ao ordenou perfeitamente a combinac¸˜ao n˜ao ´obvia de pares de ligantes n˜ao-iˆonicos que levam aos compostos misturados com os maiores valores deAexp rad. Quanto ao c´alculo dos estados excitados dos ligantes, ´e proposta uma parametrizac¸˜ao do m´etodo CIS baseadonaaproximac¸˜aoNDDO,exclusivamenteparasistemaslantan´ıdicos. Al´emdisso,realizamosumestudoavaliativodemetodologiasTDDFTaplicadasaoc´alculodeestadosexcitados de ligantes em complexos de lantan´ıdeos. Dentre os funcionais e func¸˜oes de base avaliados, a combinac¸˜ao LC-ωPBE/6-31G(d) foi aquela que forneceu as energias tripleto mais concordantes com os dados obtidos na literatura, sendo o erro m´edio absoluto correspondente em torno de 1600 cm−1. Atrav´es da parametrizac¸˜ao do modelo NDDO-CIS implementado no programa ORCA foi poss´ıvel obter um modelo semiemp´ırico para o c´alculo da energia tripleto de complexosdelantan´ıdeocom qualidade bem superiora da melhormetodologiaTDDFT avaliada. / Theoretical methodologies are useful to complement experimental investigations, and to guide new experiments involving luminescent lanthanide compounds. The lack of a software containing these methods motivated us to the development of the user friendly software package LUMPAC. And indeed, LUMPAC is slowly popularising the use of these theoretical methodologies - methodologies that are being put to more frequent tests, and are, consequently, slowly revealing their limitations. In this sense, we identified which aspects of the methods would deserve a more special attention, namely: intensity parameters calculations (Ωλ), calculation of the excited state energies of the ligands, and the calculation of the non-radiative decay rate (Anrad). The overall objective of this doctoral work is to correct some of these limitations as wellastoadvancenewdevelopments. RegardingtheΩλ calculation,wemitigatedthisproblem with a new way to adjust the charge factors and polarizabilities through a procedure we called theQDC Uniqueness Model, which makes use of a fairly small set of adjustaeble parameters (Q,D, andC). The importance of theQDC adjustment is that all derived quantities become also unique for a given complex geometry, including the chemical partition of the radiative emission rate (Arad) in terms of the effects of the ligands, which is being advanced here. To demonstrate one of the possible applications of this chemical partition, we address the case of repeating non-ionic ligand ternary complexes of europium(III) with DBM, TTA, and BTFA. The chemical partition perfectly ordered the non-obvious combination of pairs of non-ionic ligands that led to the mixed ligand compounds with the highest values ofAexp rad . Regarding the calculation of the excited states of the ligands, a new parametrization of the CIS method based on the NDDO approximation is being proposed, exclusively for lanthanide complexes. In addition, we carried out a study to evaluate some TDDFT methodologies for the calculation of excited states of ligands in lanthanide complexes. Among the functionals and basis sets evaluated, the combination LC-ωPBE/6-31G(d) was the one that led to the lowest UME (unsigned mean error), of around 1600 cm−1, for the triplet energies in comparison with data from the literature. The parametrization of the NDDO-CIS model implemented into ORCA provided a semiempirical method for the triplet energy calculation of lanthanide complexes with better predictionpower thanthebestassessed TDDFT method.

LUMPAC

Estados Excitados

Complexos de Európio

Desenvolvimento de Métodos

Parâmetros de Intensidade

Taxa de Emissão Radiativa

LUMPAC

Excited States

Europium Complexes

Methods Development

Intensity Parameters

Radiative Emission Rate

Fluorescenční spektroskopie ve výzkumu aminojílů / Fluorescence spectroscopy in the research of aminoclays

Jančík Procházková, Anna

January 2017

Aminoclay belongs to a large group of organic modified materials based on clays. These materials could find many potential practical applications and, in particular, may be used as a matrix with the ability of the organisation and stabilisation of incorporated substances. The utilisation of aminoclay in the field of medical applications seems highly prospective, but there is the need to visualise the clay system and the processes within it. This essay deals with the issue of aminoclay visualisation by means of fluorescent spectroscopy. Through fluorescent spectroscopy, aminoclay was discovered to be autofluorescent. The autofluorescence of aminoclay is not usable in practical applications because of the low fluorescence intensity. This is the reason for the research into other possibilities for modifications of the internal structure of aminoclay by europium ions. These ions in chelated form are able to be fluorescent and modifications of the external structure are possible by electrostatic implementation of fluorescent dyes. Characterisation of the prepared complexes was provided by spectrofluorimetry and fluorescent microscopy for the purpose of evaluation of the practical application of aminoclay.

Značení T buněk bimodální kontrastní látkou pro studium mrtvice in vivo / T cells labelling by bimodal contrast agent for in vivo studies of stroke

Krijt, Matyáš

January 2012

Stroke is a serious brain injury, which causes sudden death or terminates in permanent neurological disability. Nowadays, tissue plasminogen activator (tPA) is used as the only effective treatment of stroke. One of the potential targets for novel therapy are T cells. Even though the explicit role of T cells in the pathogenesis of brain injury, amounts and timing of all T cell subtypes infiltrating into brain during the stroke still needs further investigation. The research in this field is complicated by the lack of efficient methods for in vivo cell tracking. Therefore the aim of this thesis was to develop a method of T cells labelling by MRI contrast agent in order to investigate T cells distribution in ischemic mice model using in vivo MR imaging. T cells were isolated from C57/BL6 mice in two step isolation protocol using gradient centrifugation and magnetic separation with the efficiency of 97 %. The isolated cells were labelled with 100 μg Fe/mL of Molday ION Rhodamine B contrast agent. The labelling efficiency after 17 hours of cells incubation was higher than 99 %. The labelled cells were cultured with CD3 and CD28 antibodies resulting into the 74 % viability of labelled T cells compared to 83 % viability of non labelled T cells. The labelled T cells were visualized by fluorescent...

Joint project: Geochemical retention of radionuclides on cement alteration phases (GRaZ) - Subproject B

Schmeide, Katja, Philipp, Thimo, Wolter, Jan-Martin, Kretzschmar, Jérôme, Dullies, Paul, Lippold, Holger, Schymura, Stefan, Stumpf, Thorsten

23 June 2021

The report summarizes the results obtained by the Institute of Resource Ecology of the Helmholtz-Zentrum Dresden-Rossendorf within the BMWi-financed Joint Research Project “Geochemical retention of radionuclides on cement alteration phases (GRaZ)”. The project focused on the retention behavior of Ca-bentonite and cementitious material, both constituents of the geo-engineered barrier of deep geological repositories for high-level radioactive waste, towards radionuclides. Specifically, the influence of increased salinities and of hyperalkaline conditions on interaction processes in the system radionuclides – organics – clay/cementitious materials – aquifer was studied. For this purpose, complexation, sorption and desorption studies were performed at alkaline to hyperalkaline pH conditions (pH 8-13) and under variation of the ionic strength (0.1 to 4 M) applying complex solution compositions. For the U(VI) citrate system molecular structures dominating in the pH range 2-9 were studied spectroscopically (NMR, UV-Vis, FT-IR). As dominating species 2:2, 3:3, 3:2 and, above critical concentrations also 6:6 and 9:6 U(VI) citrate complexes were identified or confirmed and complex formation constants were determined. U(VI) sorption on Ca-bentonite at (hyper)alkaline conditions in mixed electrolyte solutions was studied by means of batch sorption experiments. The U(VI) retention on Ca-bentonite was shown to be very effective at pH>10, even in the presence of carbonate and despite the prevalence of anionic aqueous uranyl species. The presence of two independent U(VI) surface complexes on Ca-bentonite at pH 8-13 was shown by site-selective TRLFS and EXAFS spectroscopy. The sorption of anionic uranyl hydroxide complexes to the mineral surface was shown to be mediated by calcium cations. In further experiments, the effect of isosaccharinic acid (ISA) and polycarboxylate ether (PCE) on U(VI) and Eu(III) sorption, respectively, on Ca-bentonite was studied. An effect of ISA on U(VI) sorption on Ca-bentonite only occurs when ISA is present in very high excess to U(VI). The effect of PCE, as a commercial cement superplasticizer, on Eu(III) sorption onto Ca-bentonite was negligible already at moderate ionic strengths. The retention of U(VI) and Cm(III) by various C-(A-)S-H phases, representing different alteration stages of concrete, was studied by batch sorption experiments. Sorbed or incorporated actinide species were identified by TRLFS. The stability of U(VI) and Cm(III) doped C-(A-)S-H phases at high ionic strengths conditions was studied in solutions simulating the contact with North German claystone formation water. Potential changes of actinide speciation as well as formation of secondary phases due to leaching effects were followed spectroscopically. The results of this project show that both bentonite and cementitious material constitute an important retention barrier for actinides under hyperalkaline conditions and increased ionic strength.

Catalytic Properties of Novel Microporous Minerals

Cymes, Brittany Allison

24 April 2020

No description available.

Mineralogy

Chemical Engineering

Environmental Geology

Materials Science

Investigation of up and down-converting rare earth ions doped ZnTiO3 for photovoltaic applications

Mofokeng, Sefako John

10 1900

We are living in an age where the demand for energy is growing rapidly. This means that supplies to easily accessible oil and natural gas is unlikely to keep up with the demand as times goes on. The world will have to use energy more efficiently and increase its use of other sources of energy. This study is aiming at developing materials that will improve the power conversion efficiency of photovoltaic cells by using up and down-converting phosphor materials. ZnTiO3-Zn2TiO4 composite and ZnTiO3 phosphors doped with Er3+,Yb3+, Eu3+ and Al3+, which display up and down-converted luminescence were synthesized by a simple high temperature conventional solid state reaction method. The structure, particle morphology, absorption, photoluminescent properties and elemental distribution were analyzed using X-ray diffraction (XRD), scanning electron microscopy (SEM), UV-Vis-NIR absorption spectrometer, photoluminescence (PL) spectroscopy and time of flight secondary ion mass spectroscopy (TOF-SIMS), respectively. ZnTiO3-Zn2TiO4 composite doped with different concentration of Er3+ ions was synthesized via solid state chemical reaction method at 1100 ℃. The X-ray diffraction (XRD) confirmed the crystallization of both the hexagonal ZnTiO3 and cubic spinel Zn2TiO4 phases of the composite. The SEM images of ZnTiO3-Zn2TiO4:Er3+ composite showed that the particle morphology was made up of faceted hexagons. Furthermore, the ZnTiO3-Zn2TiO4:Er3+ phosphors were excited in the near-infrared (NIR) region using a laser diode with a wavelength of 980 nm and displayed both green and red up-conversion emission bands in the visible range at 543, 553, 650 – 670 nm. These emission bands correspond to 2H11/2, 4S1/2→ 4 I15/2 and 4F9/2→ 4 I15/2 transitions of Er3+ ions. However, the interaction mechanisms involved in the upconversion process of ZnTiO3-Zn2TiO4:Er3+ phosphor is discussed with the help of an energylevel schematic diagram and the number of the photons involved in the up-conversion luminescence process were of a double photon mechanism. The decay lifetimes were studied by fitting the luminescence decay curve with a single-component exponential decay. Er3+ and Yb3+ incorporated zinc titanate (ZnTiO3) phosphor powders were synthesized using conventional solid-state reaction method at 800 ℃. A ZnTiO3:Er3+,Yb3+ phosphor that resembled an ecandrewsite single phase with space group R-3 (148) was obtained, as proven by X-ray diffraction (XRD). The SEM image showed a surface morphology composed of agglomerated irregular shaped particles. The energy band gap of ZnTiO3 was engineered by incorporating different concentration of the dopant ions. After irradiating ZnTiO3:Er3+with a 980 nm laser beam, the phosphor up-converted the photon energy to display green and red emissions in the visible range that were positioned at 527, 545 and 665 nm. Enhancement of the luminescence intensity of ZnTiO3:Er3+ phosphor was achieved by variation of Er3+ concentration. Co-doping with Yb3+ ions proved to be effective in enhancing the luminescence intensity of the optimized Er3+ ion emission and new emission bands at 410 and 480 nm, through an energy transfer mechanism were observed. The enhancement of the lifetime of the up-conversion luminescence was also achieved by co-doping ZnTiO3:Er3+ phosphor with Yb3+ ion. The energy transfer mechanisms involved in Er3+ - Yb3+ co-doped ZnTiO3 phosphor was illustrated and discussed in detail. The ZnTiO3:Er3+, Yb3+ thin films were successfully deposited by pulsed laser deposition (PLD) by varying the silicon (100) substrate temperature. The distribution of the ions in the films was investigated and the TOF-SIMS showed that the ions were homogeneously distributed throughout the ZnTiO3 host lattice which indicated a successful incorporation of the Er3+ and Yb3+ ions. The optical response of the phosphors revealed that the reflectance percentages of the ZnTiO3:Er3+, Yb3+ vary with the silicon substrate temperature due to the differences in the thickness and morphological roughness of the thin films. The ZnTiO3:Er3+, Yb3+ thin films also exhibited up-conversion emission from Er3+ electronic transitions, with violet, blue, green and red emission lines at 410, 480, 525, 545 and 660 nm from 2H9/2 → 4 I15/2, 4F7/2 → 4 I15/2, 2H11/2 → 4 I15/2, 4S3/2 → 4 I15/2 and 4F9/2 → 4 I15/2 transitions, respectively. These up-conversion emissions were enhanced by increasing the silicon substrate temperature during the deposition. ZnTiO3 host co-doped with Eu3+ and Al3+ was synthesized by solid state reaction to convert the UV photons to visible photons. Charge compensation effects of Al3+ incorporated ZnTiO3:Eu3+ as a co-dopant ion was reported in detail. The structural and morphological characterization show that the addition of Eu3+ and Al3+ does not affect the phase formation and the surface morphology of the host. The visible emission intensity of Eu3+ ions for an optimal concentration of 2 mol% under 395 nm excitation, was enhanced by incorporating Al3+. The energy level diagram showing the charge compensation mechanism was proposed for the co-doped system. / College of Engineering, Science and Technology

Luminescence

Conventional solid-state reaction

Up-conversion

Down-conversion

Energy transfer

Rare earth ions

Zinc titanates

Erbium

Ytterbium

Europium

Charge compensator

Optical and Electrical Study of the Rare Earth Doped III-nitride Semiconductor Materials

Wang, Jingzhou

January 2016

No description available.

Electrical Engineering

Materials Science

Nanotechnology

Optics

III-nitride

GaN

InGaN

Europium

Ytterbium

defect

deep level spectroscopy

DLTS

Laplace-DLTS

MCTS

gettering

Synthesis, Characterization, Standardization, and Validation of Luminescence Optical Chemosensors for the Detection of Carbon Dioxide, Aluminum Ions, and Silver Ions for Real-Life Applications

Perera, Nawagamu Appuhamilage Kasun

12 1900

The presented dissertation encompasses three distinct investigations into novel complexes with diverse applications. Firstly, a Europium-based complex, K[Eu(hfa)4], exhibits remarkable potential for detecting dissolved CO2 in an ethylene glycol medium, offering a low limit of detection, rapid response times, and high signal-to-noise ratios. This complex demonstrates promise for quantifying CO2 concentrations and finds utility in sugar fermentation monitoring. Secondly, an innovative ratiometric optical sensor, Eu(tta)3([4,4'-(t-bu)2-2,2'-bpy)], showcases exceptional sensitivity and selectivity in detecting aluminum ions, making it suitable for environmental and biological applications. It exhibits reliable quantification in both methanol and aqueous samples, with remarkable accuracy validated by ICP-OES. Lastly, modifications to the Au3Pz3 complex synthesis enable the development of a silver ion sensor, paving the way for detecting silver ion leaching in real-life scenarios, such as silver nanoparticle-embedded bandages. The research extends to the synthesis of silver nanoparticles using various methods and foresees expanded in vitro and in vivo studies. These investigations collectively offer insights into the development of advanced sensing technologies with significant implications for a wide range of practical applications.

Europium

chemosensors

Carbon dioxide sensor

Aluminum sensor

Silver ion sensor

Diketones

Real-life applications of chemosensors

Luminescence

Chemistry, Inorganic

Chemistry, Analytical

Chemistry, Organic