Raman and Photoluminescence Studies of In-plane Anisotropic Layered Materials

January 2016

abstract: This thesis presents systematic studies on angle dependent Raman and Photoluminescence (PL) of a new class of layered materials, Transition Metal Trichalcogenides (TMTCs), which are made up of layers possessing anisotropic structure within the van-der-Waals plane. The crystal structure of individual layer of MX3 compounds consists of aligned nanowire like 1D chains running along the b-axis direction. The work focuses on the growth of two members of this family - ZrS3 and TiS3 - through Chemical Vapor Transport Method (CVT), with consequent angle dependent Raman and PL studies which highlight their in-plane optically anisotropic properties. Results highlight that the optical properties of few-layer flakes are highly anisotropic as evidenced by large PL intensity variation with polarization direction (in ZrS3) and an intense variation in Raman intensity with variation in polarization direction (in both ZrS3 and TiS3). Results suggest that light is efficiently absorbed when E-field of the polarized incident excitation laser is polarized along the chain (b-axis). It is greatly attenuated and absorption is reduced when field is polarized perpendicular to the length of 1D-like chains, as wavelength of the exciting light is much longer than the width of each 1D chain. Observed PL variation with respect to the azimuthal flake angle is similar to what has been previously observed in 1D materials like nanowires. However, in TMTCs, since the 1D chains interact with each other, it gives rise to a unique linear dichroism response that falls between 2D and 1D like behavior. These results not only mark the very first demonstration of high PL polarization anisotropy in 2D systems, but also provide a novel insight into how interaction between adjacent 1D-like chains and the 2D nature of each layer influences the overall optical anisotropy of Quasi-1D materials. The presented results are anticipated to have impact in technologies involving polarized detection, near-field imaging, communication systems, and bio-applications relying on the generation and detection of polarized light. / Dissertation/Thesis / Masters Thesis Materials Science and Engineering 2016

Materials Science

Nanoscience

layered

optical

photoluminescence

raman

two dimensional

A Public Education: The Lived Experiences of One Educator

January 2016

abstract: This dissertation is a visual and narrative-based autoethnography that narrates the lived educational experiences of the author from preschool through doctoral studies. The text portrays a story that explores issues of power, identity, and pedagogy in education. Told in narrative form, this project utilizes visual data, thematic coding, layering, and writing as a method of inquiry to investigate and more fully understand injustices found in the American education system. Findings show how the author’s identities of student, teacher, and researcher influence and impact one another, and lead to the development of a future vision of self. By examining the author’s roles as a student, teacher, and researcher this study centers on conflicts and inconsistencies that arise at the intersections of self, community, institutions, and society. Included in the narrative’s analysis are issues related to positionality, visions of success, empowerment, resistance, neoliberalism, colonialism, psychological distance, and ideological purpose in teaching. The narrative concludes with the development of a personal vision of purposeful, empowering, liberating, and transformative pedagogy. This study contributes its voice to conversations about inequity and inequality in education by asking the reader to examine conflicts, ask new questions, and critically engage with the dialogic text. / Dissertation/Thesis / Doctoral Dissertation Educational Leadership and Policy Studies 2016

Education

autoethnography

identity

layered account

narrative inquiry

pedagogy

power

Multi-layered HITS on Multi-sourced Networks

January 2018

abstract: Network mining has been attracting a lot of research attention because of the prevalence of networks. As the world is becoming increasingly connected and correlated, networks arising from inter-dependent application domains are often collected from different sources, forming the so-called multi-sourced networks. Examples of such multi-sourced networks include critical infrastructure networks, multi-platform social networks, cross-domain collaboration networks, and many more. Compared with single-sourced network, multi-sourced networks bear more complex structures and therefore could potentially contain more valuable information. This thesis proposes a multi-layered HITS (Hyperlink-Induced Topic Search) algorithm to perform the ranking task on multi-sourced networks. Specifically, each node in the network receives an authority score and a hub score for evaluating the value of the node itself and the value of its outgoing links respectively. Based on a recent multi-layered network model, which allows more flexible dependency structure across different sources (i.e., layers), the proposed algorithm leverages both within-layer smoothness and cross-layer consistency. This essentially allows nodes from different layers to be ranked accordingly. The multi-layered HITS is formulated as a regularized optimization problem with non-negative constraint and solved by an iterative update process. Extensive experimental evaluations demonstrate the effectiveness and explainability of the proposed algorithm. / Dissertation/Thesis / Masters Thesis Computer Science 2018

Computer science

Graph Mining

Multi-layered Networks

Ranking

Ácidos silícicos lamelares intercalados e organofuncionalizados aplicados à sorção e termodinâmica de interação / Intercalated and organofunctionalized lamellar silicic acids applied to sorption and thermodynamic interaction

Pinto, Alane Azevedo

17 August 2018

Orientador: Claudio Airoldi / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-17T02:05:09Z (GMT). No. of bitstreams: 1 Pinto_AlaneAzevedo_D.pdf: 17904137 bytes, checksum: 502a56cd671d10614a5c034a8a3cf22e (MD5) Previous issue date: 2010 / Resumo: Os ácidos silícicos magadeíta, kaneíta, e kanemita, com fórmula geral, Na2O(4-22)SiO2.(5-10)H2O, definem uma classe de compostos com arranjos lamelares distintos, cujas estruturas permitem não somente intercalações, como também reações de imobilização, uma vez que as propriedades físicas dos silicatos incluem uma elevada capacidade na troca de íons, sendo que o sódio pode ser substituído por próton, outros cátions ou íons amônio quaternários. As matrizes lamelares magadeíta, kaneíta e kanemita foram sintetizadas e tiveram a troca do cátion sódio por prótons, a fim de aumentar a reatividade das mesmas para efetivar processos de intercalação e imobilização. As matrizes sódicas também foram intercaladas com o surfactante brometo de cetiltrimetilamônio, CTAB, para expandir suas distâncias basais e permitir a incorporação de moléculas volumosas. Tais matrizes e suas formas modificadas foram utilizadas no processo de sorção de cátions metálicos, em solução aquosa, no qual os dados calorimétricos demonstraram que os processos são favoráveis na sorção, verificados através dos valores das grandezas termodinâmicas. Foram utilizadas, também, no processo de sorção de corantes de solução aquosa e na determinação da quantidade de aminas intercaladas. Os dados experimentais de sorção foram ajustados aos modelos de Langmuir, Freundlich e Temkin, no equilíbrio. As matrizes originais e intercaladas foram, então, caracterizadas pelas técnicas de difração de raios X, espectroscopia na região do infravermelho, ressonância magnética nuclear (RMN), termogravimetria e microscopia eletrônica de varredura. Os dados de raios X confirmaram o sucesso das intercalações, através do aumento das distâncias basais, devido à entrada de moléculas convidadas na cavidade interlamelar. Os espectros de RMN dos núcleos de carbono e silício no estado sólido comprovaram a incorporação dos agentes sililantes nas estruturas dos ácidos silícicos / Abstract: The silicic magadiite, kenyaite and kanemita acids with general formula, Na2O(4-22)SiO2.(5-10)H2O, defines a class of compounds with distint layered arrangements, whose structures permit not only intercalation, as well as immobilization reactions, which physical silicates properties include a high capacity in ion exchange properties, being sodium substituted by proton, other cations or quaternary ammonium ions. The lamellar magadiite, kenyaite and kanemite matrices were synthesized and had the sodium cation exchanged by protons, in order to increase the reactivity to execute the intercalation and immobilization processes. The sodic matrices were intercalated with cetyltrimetylammonium bromide, CTAB, with expansion of their basal distances and also to allow voluminous molecule incorporation. Such matrices and their modified forms had been used in the metallic sorption processes in aqueous solution, in which the calorimetric data demonstrated that these sorptions are favorable, after proving through the thermodynamic data. The same procedure was also used for dye sorption from aqueous solution and the determination of the amount of intercalated amines. The experimental data were adjusted to the Lamgmuir, the Freundlich and the Temkin models at equilibrium. The original and intercalated matrices had been, then, characterized by X-ray difractions, infrared spectroscopy, nuclear magnetic resonance (RMN), thermogravimetry and scanning electronic microscopy. The Xrays data confirmed the success of the intercalation through the increase of the basal distances, due to the entrance of invited molecule in the interlamelar cavity. The RMN spectra for carbon and silicon nuclei in the solid state demonstrated the incorporation of the silylating agents in the silicic acid structures / Doutorado / Quimica Inorganica

Sólidos lamelares

Sorção

Isotermas

Termodinâmica

Layered solids

Sorption

Isotherms

Thermodynamic

Adsorção de colato em hidróxidos duplos lamelares de magnésio e alumínio: efeito da temperatura, pH e força iônica do meio / Adsorption of Cholate in layered double hydroxides of magnesium and aluminium: temperature, pH and ionic strength of the media effects.

José Francisco Naime Filho

12 March 2009

Hidróxidos Duplos Lamelares (HDL) são materiais lamelares constituídos de camadas positivamente carregadas de um hidróxido misto de dois metais (um di e um trivalente), com ânions hidratados no domínio interlamelar. Apesar de serem potenciais adsorventes, o estudo da adsorção de colato de sódio sobre estes sólidos foi pouco explorado até hoje. Este estudo é importante, pois abre caminho para uma potencial aplicação farmacêutica de HDL na remoção de colato produzido em excesso pelo corpo humano, e diminuindo o risco de doenças conseqüentes desse excesso. Este trabalho teve por objetivo estudar a adsorção e a sorção de colato de sódio a partir de soluções aquosas, em hidróxido duplo lamelar de magnésio e alumínio intercalado com carbonato, Mg-Al-CO3-HDL, verificando o efeito de variáveis como temperatura, pH e força iônica do meio. O adsorvente foi preparado pelo método de coprecipitação a pH variável e caracterizado quanto à composição, organização estrutural, textura e morfologia, sendo utilizado na forma original ou após calcinação. A adsorção de colato de sódio no HDL não calcinado indicou que não ocorre a substituição do ânion interlamelar (CO32-), mas sim a adsorção por interação do ânion orgânico com as cargas residuais na superfície do HDL. O processo mostrou uma grande dependência das variáveis estudadas. A análise multivariacional confirmou e quantificou a importância de cada variável. Em todos os casos, o aumento da temperatura resultou em uma diminuição na quantidade máxima adsorvida. O aumento da força iônica do meio, por meio da adição de um sal neutro, resulta em uma melhoria na capacidade de remoção de ânions. Na faixa avaliada, quanto maior o valor do pH das soluções de colato, menor a quantidade máxima adsorvida. Os resultados obtidos para a sorção no HDL calcinado mostraram que inicialmente o HDL é reconstituído com a intercalação de ânions OH-. Em casos onde a concentração do composto orgânico era alta, o colato foi intercalado formando uma nova fase. Neste caso, a sorção de colato apresentou curvas com perfil semelhante às da adsorção: as isotermas atingem um patamar onde a sorção torna-se constante e o aumento da temperatura diminui a quantidade sorvida. Pelos resultados obtidos, foi proposto um modelo de intercalação de colato em bicamada. Os resultados indicam também que a remoção do colato pelo HDL calcinado se mostra mais eficiente do que aquela obtida com o HDL não calcinado. / Layered Double Hydroxides (LDH), are lamellar materials constituted of positively charged layers of two mixed cations hydroxide (a bi and a trivalent one), with hydrated anions in the interlayer domain. In spite of being potential adsorbents, the study of the sodium cholate adsorption on these solids has not been well explored yet. This study is important, because it opens the perspective for the application of LDH in the pharmaceutical field in the removal of cholate produced in excess by the human organism and decreasing the risk of consequent diseases from this excess. The aim of this work was to study the adsorption and the sorption of sodium cholate from aqueous solutions, in Mg-Al-CO3-LDH, verifying the effect of the variables: temperature, pH and ionic strength of the media. The adsorbent was prepared by the coprecipitation at variable pH method and characterized with respect to their composition, structural organization, texture and morphology, being utilized in the pristine form or after calcination. The adsorption of sodium cholate in pristine LDH indicated that the exchange of the interlayer anion (CO32-) doesn\'t occur, but the adsorption process occurs by the interaction of the anion with the residual charges on the LDH surface. The process showed great dependence on the parameters studied. The multivariational analysis confirmed and quantified the influence of each variable. In all the experiments, increasing the temperature resulted in a decrease in the maximum adsorbed quantity. Increasing the ionic strength of the media, by the addition of a neutral salt, results in a better anions removal capacity. In the evaluated interval, the bigger the initial pH value of the cholate solutions, the lower the maximum adsorbed quantity. The results obtained for the sorption in calcined LDH showed that initially the LDH are reconstituted with the OH- anions intercalated. In the experiments at high concentration, the cholate is intercalated forming a new phase. The profile of cholate sorption are similar to that of the adsorption: the isotherms reach a plateau where the sorption becomes constant and the raise in the temperature decreases the sorbed quantity. By the obtained results, it was proposed a cholate intercalation model forming a bilayered structure. The results indicate that the cholate removal by the calcined LDH is more efficient than that presented by the uncalcined one.

adsorção

colato

hidróxidos duplos lamelares

adsorption

cholate

layered double hydroxides

Uplift Capacity Of Horizontal Strip And Circular Anchors In Homogeneous And Layered Soils

Manjunatha, K

12 1900

No description available.

Plate Girder - Fatigue

Layered Soils

Anchors

Homogenous Soils

Structural Engineering

Electrically Anisotropic Layered Perovskite Single Crystal

Li, Ting-You

04 1900

Organic-inorganic hybrid perovskites (OIHPs), which are promising materials for electronic and optoelectronic applications (1-10), have made into layered organic-inorganic hybrid perovskites (LOIHPs). These LOIHPs have been applied to thin-film transistors, solar cells and tunable wavelength phosphors (11-18). It is known that devices fabricated with single crystal exhibit the superior performance, which makes the growth of large-sized single crystals critical for future device applications (19-23). However, the difficulty in growing large-sized LOIHPs single crystal with superior electrical properties limits their practical applications. Here, we report a method to grow the centimeter-scaled LOIHP single crystal of [(HOC2H4NH3)2PbI4], demonstrating the potentials in mass production. After that, we reveal anisotropic electrical and optoelectronic properties which proved the carrier propagating along inorganic framework. The carrier mobility of in-inorganic-plane (in-plane) devices shows the average value of 45 cm2 V–1 s–1 which is about 100 times greater than the record of LOIHP devices (15), showing the importance of single crystal in device application. Moreover, the LOIHP single crystals show its ultra-short carrier lifetime of 42.7 ps and photoluminescence quantum efficiency (PLQE) of 25.4 %. We expect this report to be a start of LOIHPs for advanced applications in which the anisotropic properties are needed (24-25), and meets the demand of high-speed applications and fast-response applications.

layered pervoskite

Anisotropic

mobility

single crystal

large size

lifetime

Progresivní slitiny amorfního uhlíku připravené v nízkoteplotním plazmatu / Progressive Amorphous Carbon Alloys Synthesized in Low-Temperature Plasma

Bránecký, Martin

January 2020

Atomic/plasma polymerization technology is widely used in various technical fields. This work is focused to use the PE-CVD technology in the field of formation of interphase and adhesive layers, which are developed into layered nanostructures. To ensure reproducible chemical and physical properties of the materials, the deposition process was monitored by mass spectrometry. Vapours of the pure tetravinylsilane, or a mixture of these vapours with oxygen, was used as a precursor for atomic polymerization, which results in the thin films with a large variability of properties. Physical and chemical properties were varied by the effective power delivered to the plasma discharge. The deposited films were analyzed from different perspectives using several methods (in situ spectroscopic ellipsometry, FTIR, nanoindentation, AFM). The removal of hydrogen atoms from the carbon-silicon network results in increased crosslinking of the material, which controls the mechanical and optical properties of the deposited layers. From the precisely defined a-CSi:H and a-CSiO:H materials, layered nanostructures composed of 3 and 7 individual layers was subsequently constructed. These nanostructures were analyzed by XPS and RBS to determine the atomic concentrations of carbon, silicon, oxygen and their binding states.

Crystal and band structure control of layered oxyhalide photocatalysts / 層状酸ハロゲン化物光触媒の結晶構造・バンド構造制御

Kato, Daichi

24 November 2020

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第22845号 / 工博第4785号 / 新制||工||1748(附属図書館) / 京都大学大学院工学研究科物質エネルギー化学専攻 / (主査)教授 陰山 洋, 教授 藤田 晃司, 教授 阿部 竜 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Photocatalyst

Mixed anion

Layered oxyhalide

Polar structure

500

Dextrin nanocomposites and deep eutectic solvents as matrices for solid dosage forms

Phillips, Justin

January 2020

Controlled-release formulations for pesticide applications act as depot systems that continuously release the active ingredients into the environment over a speci ed period, usually from months to years. However, some applications require fast-dissolving drug delivery. The interest of this research is in fast-release of water-insoluble pesticides into aquatic environments. This study considered the use of dextrin starch and urea eutectics as fast release, solid dosage carrier forms that contain an active ingredient. The chosen active for this study is an acaricide called amitraz (N-methylbis-(2,4-xylyliminomethyl)- methylamine). The focus is on matrix-based dosage forms such as tablets, granules or bres that either disintegrate or dissolve to release a water-insoluble active. These types of dosage forms can be fabricated using processes such as lyophilisation, spray drying, solvent casting, hot melt extrusion, compression moulding, wet granulation, compaction and electrospinning. A simple melt-casting procedure has been discussed in the present work. Dextrin is a water-soluble form of partially hydrolysed starch and is a promising candidate matrix material for dissolving solid dosage forms. The molecular weight of the dextrin was analysed with MALDI-TOF methods and rheological relations. Glycerolplasticized thermoplastic dextrin-based nanocomposites were prepared with a twin-screw extrusion-compounding process. The nano llers included a layered double hydroxide (LDH), cellulose nano bres (CNF) and stearic acid. The time-dependent retrogradation of the compounds was monitored by X-ray di raction (XRD) and dynamic mechanical thermal analysis (DMA). XRD showed that the inclusion of stearic acid in the formulations led to the formation of an amylose-lipid complex and a stable crystallinity during ageing. Dissolution rates in water for samples containing dextrin starch, were characterised using an iodine indicator and UV-visible spectroscopy. High pressure di erential scanning calorimetry (HPDSC) indicated that the addition of stearic acid led to the formation of amylose-lipid complexes (ALC's). An additive system containing stearic acid and CNF was deemed suitable for compounding with amitraz. Compounding at temperatures above the melting point of the latter led, on dissolution in water, to the release of much ner particles of the acaricide, which was con rmed with particle size analysis (PSA). The addition of the acaricide caused an apparent increase in the dissolution rate of the thermoplastic dextrin. Two eutectic urea systems were considered for casting with amitraz. A eutectic system of urea and acetamide was found to display a melting point of 44 C at a 37 wt.% urea composition. The other system consisting of urea and 1,3-dimethylurea displayed a eutectic point at 32 wt.% urea composition which melted at 59 C. Di erential scanning calorimetry (DSC), however, con rmed a melting point depression due to a high moisture content caused by the compounds high hygroscopicity. The endotherm of the sample containing no excess moisture showed a melting point of 70 C. The 1,3-dimethylurea system was deemed suitable for casting with amitraz. XRD of the eutectic composition indicated a small amount of co-crystallisation. The samples were cast as disks of various diameters while keeping the height of the disks constant. The creation of the cast disks showed automatic generation of a nely dispersed form of the active through the process of melting the deep eutectic solvent, the dissolution of the active and its phase separation on cooling and solidi cation of the eutectic. This implies that ne grinding of the actives might not be necessary. Eutectic casts containing 20 wt.% amitraz dissolved at a slower rate than casts not containing the hydrophobic active ingredient. The advantageous features of these casts were exempli ed using the acaricide incorporated into the urea & 1,3-dimethylurea eutectic. This work provides two safe, biodegradable and water soluble materials for use as a matrix to contain active ingredients. One material, the eutectic organic salt casts, can be produced at low temperatures (<100 C) and can be directly cast into storage containers. The complete dissolution of the cast compounded with a hydrophilic active is rapid (4-6 min). The second material, a thermoplastic dextrin, was melt compounded in an extruder at temperatures not exceeding 120 C. This compound containing 20 wt.% of the active dissolved over a 12 hour period. Dextrin, known to be widely used as an adhesive, will aid in the adhesion of the active ingredient to the surface where it must be used. / Dissertation (MEng (Chemical Engineering))--University of Pretoria, 2020. / PAMSA / Department of Science and Innovation under Grant DST/CON 0004/2019 / Chemical Engineering / MEng (Chemical Engineering) / Unrestricted

UCTD

solid dosage form

layered double hydroxide

cellulose nano fibres