Vývoj biofyzikální interpretace dat kvantitativního fázového zobrazování / Development of Biophysical Interpretation of Quantitative Phase Image Data

Křížová, Aneta

January 2019

This doctoral thesis deals with biophysical interpretation of quantitative phase imaging (QPI) gained with coherence-controlled holographic microscope (CCHM). In the first part methods evaluating information from QPI such as analysis of shape and dynamical characteristics of segmented objects as well as evaluation of the phase information itself are described. In addition, a method of dynamic phase differences (DPD) is designed to allow more detailed monitoring of cell mass translocations. All of these methods are used in biological applications. In an extensive study of various types of cell death, QPI information is compared with flow cytometry data, and preferably a combination of QPI and fluorescence microscopy is used. The DPD method is used to study mass translocations inside the cell during osmotic events. The simplified DPD method is applied to investigate the mechanism of tumor cell movement in collagen gels.

Nové gelové elektrolyty / New gel electrolytes

Sumka, Martin

January 2016

This master´s thesis deals with the properties of gel polymer electrolytes, brief characteristics of other types of electrolytes and materials that are used for preparing polymer electrolytes. The thesis explains the use of the gel electrolytes in practice, the current conduction in the electrolytes and the properties of ionic liquids, and flame retardants. This thesis also focuses on methods of measurement of mechanical properties of gel polymer electrolytes. The practical part is focused on preparation of methacrylate gel electrolytes and their modifications with the use of flame retardant - triethyl phosphate (TEP) and ionic liquid - 1-ethyl-3-methylimidazolium bis(trifluoromethanesulfonyl)imide (Emim TFSI). In this part there are evaluations of their potential funcionality (potential window) and specific conductance conductivity using the method LSV (linear sweep voltammetry) and impedance spectroscopy. The practical part also includes a thermal analysis of selected samples by TGA, DTA and EGA methods.

Fluidic microchemomechanical integrated circuits processing chemical information

Greiner, Rinaldo, Allerdissen, Merle, Voigt, Andreas, Richter, Andreas

January 2012

Lab-on-a-chip (LOC) technology has blossomed into a major new technology fundamentally influencing the sciences of life and nature. From a systemic point of view however, microfluidics is still in its infancy. Here, we present the concept of a microfluidic central processing unit (CPU) which shows remarkable similarities to early electronic Von Neumann microprocessors. It combines both control and execution units and, moreover, the complete power supply on a single chip and introduces the decision-making ability regarding chemical information into fluidic integrated circuits (ICs). As a consequence of this system concept, the ICs process chemical information completely in a self-controlled manner and energetically self-sustaining. The ICs are fabricated by layer-by-layer deposition of several overlapping layers based on different intrinsically active polymers. As examples we present two microchips carrying out long-term monitoring of critical parameters by around-the-clock sampling. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/004

ddc:004

info:eu-repo/classification/ddc/570

ddc:570

info:eu-repo/classification/ddc/540

ddc:540

Synthesis, adsorption and catalysis of large pore metal phosphonates

Pearce, Gordon M.

January 2010

The synthesis and properties of metal phosphonates prepared using piperazine-based bisphosphonic acids have been investigated. The ligands N,N’-piperazinebis(methylenephosphonic acid) (H₄L), and the 2-methyl (H₄L-Me) and 2,5-dimethyl (H₄L 2,5-diMe) derivatives have been prepared using a modified Mannich reaction. Hydrothermal reaction of gels prepared from metal (II) acetates and the bisphosphonic acids results in the synthesis of four structures: STA-12, Ni VSB-5, Co H₂L.H₂O and Mg H₂L. STA-12, synthesised by reaction of Mn, Fe, Co or Ni acetate with H₄L or H₄L-Me, has been investigated further. STA-12 crystallises in the space group R⁻₃, and Ni STA-12 is the most crystalline version. Its structure was solved from synchrotron data (a = b = 27.8342(1) Å, c = 6.2421(3) Å, α = β = 90°, γ = 120°), and it has large 10 Å hexagonal shaped pores. Helical chains of Ni octahedra are coordinated by the ligands, resulting in phosphonate tetrahedra pointing towards the pore space. Water is present, both coordinated to the Ni²⁺ cations and physically adsorbed in the pores. Mixed metal structures based on Ni STA-12, where some Ni is replaced in the gel by another divalent metal (Mg, Mn, Fe or Co) can also be synthesised. Dehydration of STA-12 results in two types of behaviour, depending on the metal present. Rhombohedral symmetry is retained on dehydration of Mn and Fe STA-12, the a cell parameter decreasing compared to the as-prepared structures by 2.42 Å and 1.64 Å respectively. Structure solution of dehydrated Mn STA-12 indicates changes in the torsion angles of the piperazine ring bring the inorganic chains closer together. Fe and Mn STA-12 do not adsorb N₂, which is thought to be due to the formation of an amorphous surface layer. Dehydration of Ni and Co STA-12 causes crystallographic distortion. Three phases were isolated for Ni STA-12: removal of physically adsorbed water results in retention of rhombohedral symmetry, while dehydration at 323 K removes some coordinated water forming a triclinic structure. A fully dehydrated structure (dehydrated at 423 K) was solved from synchrotron data (a = 6.03475(5) Å, b = 14.9156(2) Å, c = 16.1572(7) Å, α = 112.5721(7)°, β = 95.7025(11)°, γ = 96.4950(11)°). The dehydration mechanism, followed by UV-vis and Infra-red spectroscopy, involves removal of water from the Ni²⁺ cations and full coordination of two out of three of the phosphonate tetrahedra forming three crystallographically distinct Ni and P atoms. No structural distortion takes place on dehydration of Ni and Co STA-12 prepared using the methylated bisphosphonate, and the solids give a higher N₂ uptake as a result. Dehydrated Ni and Co STA-12 were tested for adsorption performance for fuel related gases and probe molecules. Investigations were undertaken at low temperature with H₂, CO and CO₂, and ambient temperature with CO₂, CH₄, CH₃CN, CH₃OH and large hydrocarbons. Due to the presence of lower crystallinity, Co STA-12 has an inferior adsorption performance to Ni STA-12, although it has similar adsorption enthalpies for CO₂ at ambient temperature (-30 to -35 kJ mol⁻¹). Ni STA-12 adsorbs similar amounts of CO₂ and N₂ at low temperature, indicating the adsorption mechanisms are similar. Also, it adsorbs 10 × more CO₂ than CH₄ at low pressure, meaning it could be used for separation applications. Ni STA-12 adsorbs 2 mmol g⁻¹ H₂ with an enthalpy of -7.5 kJ mol⁻¹, the uptake being due to adsorption on only one-third of the Ni²⁺ cations. The uptake for CO is 6 mmol g⁻¹, with adsorption enthalpies ranging from -24 to -14 kJ mol⁻¹. This uptake is due to adsorption on all the Ni²⁺, meaning the adsorption enthalpies are high enough to allow the structure to relax. This is also observed for adsorption of CH₃CN and CH₃OH, where there is a return to rhombohedral symmetry after uptake. The adsorption sites in dehydrated Ni and Co STA-12 were investigated via Infra-red spectroscopic analysis of adsorbed probe molecules (H₂, CO, CO₂, CH₃CN and CH₃OH). The results indicate the adsorption sites at both low and ambient temperature are the metal cations and the P=O groups. The metal cation sites are also characterised as Lewis acids with reasonable strength. STA-12 was shown to have acidic activity for the liquid phase selective oxidations of 1-hexene and cyclohexene, although there is evidence active sites are coordinated by products and/or solvents during the reaction. STA-12 also demonstrates basic activity for the Knoevenagel condensation of ethyl cyanoacetate and benzaldehyde. Modification of STA-12 by adsorption of diamine molecules causes a slight increase in the basicity, and the highest conversions are where water and diamine molecules are both present.

546.3

Aggregation and Gelation in Random Networks / Aggregation und Gelation in zufälligen Netzwerken

Ulrich, Stephan

03 March 2010

No description available.

530 Physik

Mathematics and Computer Science

Aggregation

Elastizität

Gelationsübergang

Gele

Gerichtete Polymere

Granulate

Nanokristalline Materialien

Perkolation

Polymere

Replika-Theorie

Röntgenstreuung

Spinnenseide

Thermodynamik

Ungeordnete Festkörper

Zufällige Netzwerke

Aggregation

Directed Polymers

Disordered Solids

Elasticity

Gelation Transition

Gels

Granular Materials

Nanocrystalline materials

Percolation

Polymers

Random Networks

Replica Theory

Spider Silk

Thermodynamics

X-ray diffraction

33.25

33.62

RVM 210: Pulver

Körner {Physik: Sonstige feste Stoffe}

Avaliação das características fisico-químicas de géis de fluor de uso odontológico profissional. / Evaluation of the physicochemical characteristics of fluoride gels for professional dental use. / Evaluación de las características fisicoquímicas de geles de fluor de uso odontológico profesional. / Évaluation des caractéristiques physico-chimiques des gels fluorés à usage dentaire professionnel.

CARDOSO, Gina Maria Coelho de Souza.

05 April 2018

Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-04-05T19:46:22Z No. of bitstreams: 1 GINA MARA COELHO DE SOUZA CARDOSO - DISSERTAÇÃO PPG-CEMat 2014..pdf: 1501065 bytes, checksum: e02311753867e448c8a544a0dd42857f (MD5) / Made available in DSpace on 2018-04-05T19:46:22Z (GMT). No. of bitstreams: 1 GINA MARA COELHO DE SOUZA CARDOSO - DISSERTAÇÃO PPG-CEMat 2014..pdf: 1501065 bytes, checksum: e02311753867e448c8a544a0dd42857f (MD5) Previous issue date: 2014-07-17 / O uso clínico de géis de flúor para aplicação tópica por profissionais está indicado para prevenção e tratamento de cárie e erosão dental devido à capacidade de interação com o processo de desmineralização-remineralização da matriz mineral do dente. O objetivo geral deste trabalho foi avaliar géis com flúor para remineralização dentária de uso tópico profissional quanto às características físico-químicas especificadas nos registros concedidos pela ANVISA. Foi verificada a existência de quinze (15) registros válidos na ANVISA, referentes a dezesseis (16) produtos de gel com flúor de uso tópico odontológico. Quanto a estes produtos, são oito (8) géis de flúor neutro e oito (8) géis de flúor acidulado. Todos os produtos possuem em sua composição fluoreto de sódio e o polímero mais utilizado para formação do gel é hidroxietil celulose, conforme declarado nos processos de registro na ANVISA. Em 60% dos processos de registro válidos há informação sobre o pH dos produtos. Com o levantamento realizado em março de 2014 nas dentais do Distrito Federal (DF), verificou-se a comercialização de dois produtos de um mesmo fabricante, sendo um gel de flúor neutro e um gel de flúor acidulado. Para a caracterização físico-química, foram adquiridos nove frascos de 200 mL de gel de flúor comercializados no DF: três de gel de flúor acidulado dentro da validade, três de gel flúor acidulado fora da validade e três de gel de flúor neutro. Estes produtos foram avaliados pelas seguintes técnicas: Microscopia eletrônica de varredura (MEV), Espectroscopia de energia dispersiva de raios X (EDS), espectroscopia na região de infravermelho com transformada de Fourier (FTIR), calorimetria exploratória diferencial (DSC), análise termogravimétrica (TGA) e avaliação do potencial hidrogeniônico (pH). Os elementos químicos identificados na análise por EDS estão condizentes com a composição química dos produtos declarados pelo fabricante à ANVISA. Os resultados de FTIR não demonstraram alterações significativas entre as amostras avaliadas. Foram verificados resultados diferentes entre as amostras, nos ensaios de TGA e DSC, isto provavelmente está relacionado com a desidratação das amostras e a formação de aglomerados. Os produtos avaliados a 25°C apresentaram resultados satisfatórios quanto ao pH. Mais pesquisas sobre a caracterização físico-química para o gel de flúor tópico de uso profissional odontológico são necessárias para embasar o desenvolvimento de normas técnicas específicas. / Clinical use of fluoride gels for topical application by professionals is indicated for prevention and treatment of dental caries and dental erosion due to the ability to interact with the process of demineralization - remineralization of tooth mineral matrix. The general objective of this work was to evaluate the physicochemical characteristics of topical gels for professional dental remineralization specified in the records granted by ANVISA. There were fifteen (15) valid records, relating to sixteen (16) products of fluoride gel use dental topic has been verified. As for these products, there were eight (8) neutral fluoride gels and eight (8) acidulated fluoride gels. All products contain in their composition sodium fluoride and the most used polymer for gel formation is hydroxyethyl cellulose. All acidulated fluoride gels have in their composition 1.23 % fluorine ions and all neutral fluoride gels contain 2 % NaF in its composition, as stated in the registration process at ANVISA. In 60 % of valid registration process there was information about the pH of the product. In the survey conducted in March 2014 in dental stores at Federal District (DF), it was observed the marketing of two products from the same manufacturer, being one neutral fluoride gel and one gel of acidulated fluoride. For physicochemical characterization, nine bottles of 200 ml of fluoride gel were acquired in DF: three of acidulated fluoride gel within the validity, three of acidulated fluoride gel out of date and three of neutral fluoride gel. These products were evaluated by the following techniques: Scanning Electron Microscopy (SEM), Energy Dispersive X-ray Spectrometry (EDS), Fourier Transform Infrared Spectrometer (FTIR), Differential Scanning Calorimetry (DSC), Thermogravimetry (TG) and evaluation of the hydrogen potential (pH). The chemical elements identified by EDS analysis, in regions without clusters and with clusters of dehydrated samples, are consistent with the chemical composition of the products declared by the manufacturer to ANVISA. The FTIR outcomes showed no significant changes among analyzed samples. Different results among samples were observed during DSC and TGA tests, this is probably related to dehydration of the samples and the formation of agglomerates. More studies about the physicochemical characteristics of topical gels for professional dental remineralization are needed to support the development of specific technical standards.

Ciência e Engenharia de Materiais

Géis de fluor - Odontologia.

Fluoretos

Remineralização dentária

géis - uso tópico odontológico

Fluoreto de sódio

Flúor fosfato acidulado

Calorimetria Exploratória Diferencial

Termogravimetria (TG)

Microscopia Eletrônica de Varredura

Scanning Electron Microscopy

Evaluation of Hydrogenion Potential

Thermogravimetry

Acidulated phosphate fluoride

Sodium Fluoride

Fluoruro de sodio

Fluorure de sodium

Reminéralisation des dents

Remineración dental

Geles de fluor - Odontología.

Gels de fluorure - Dentisterie.