Your search keyword '"aminas"' showing total 9 results

1. New organic platform to integrated photonic device fabrication.

Author

Torchia, G. A., Hoppe, C. E., Laia, C. A. T., Parola, A. J., and Lifante-Pedrola, G.

Subjects

*INTEGRATED optics, *ORGANIC thin films, *REFRACTIVE index, *THIN films, *SPIN coating

Abstract

This paper presents a new technological platform for the development of integrated optical circuits for applications in photonics. It is based on supramolecular polymeric materials whose behaviour resembles that of those known as vitrimers. These were synthesized by reaction between diglycidyl ether of bisphenol A (DGEBA) and different n-alkylamines. The photonic characteristics of thin films made from these polymeric systems using the spin coating technique on commercial glass substrates are presented. The reflectivity curves of coupled laser light in the films through a high refractive index prism are also shown and analysed. From these results, thin films show guided modes in both polarizations (TE-TM) for electromagnetic radiation in the UV-visible range. Likewise, from the experimental data, the refractive index and thickness of the explored films are determined. [ABSTRACT FROM AUTHOR]

Published

2023

2. Optimización del proceso de conversión hidrotermal de CO2 capturado en soluciones acuosas de aminas

Author

Paniagua Martín, Mario, Martín Martínez, Ángel, Bermejo Roda, Maria Dolores, Paniagua Martín, Mario, Martín Martínez, Ángel, and Bermejo Roda, Maria Dolores

Abstract

Cada vez se busca más reducir emisiones y fomentar prácticas de consumo más sostenibles. Para ello, se ha desarrollado un método en el que el CO2 capturado en disoluciones acuosas de aminas se reduzca con hidrógeno a alta presión en un reactor discontinuo Parr operando en batch para obtener ácido fórmico, utilizando como catalizador Pd/C al 5%. Se probarán diferentes aminas con el fin de encontrar aquella que proporcioné el mejor rendimiento de eliminación de CO2 a diferentes condiciones (75ºC y 120 ºC a 75 bar), estimándose que una de las mejores en la captura del CO2 es la di-isopropilamina (DIPA), ya que proporciona muy buenos rendimientos de formación de ácido fórmico de más del 80% a 120 ºC. Además, se ha estudiado la recuperación de aminas después de reacción a 120 ºC a través del análisis de H-NMR, obteniendo generalmente rendimientos de recuperación muy altos, superiores al 50%., There is an increasing focus on reducing emissions and encouraging more sustainable consumption practices. To this end, a method has been developed in which CO2 captured in aqueous amine solutions is reduced with hydrogen at high pressure in a batch Parr batch reactor to obtain formic acid, using 5% Pd/C as catalyst. Different amines will be tested to find the one that provides the best CO2 removal performance at different conditions (75ºC and 120 ºC at 75 bar), estimating that one of the best in CO2 capture is di-isopropylamine (DIPA), as it provides very good formic acid formation yields of more than 80% at 120 ºC. In addition, the recovery of amines after reaction at 120 ºC has been studied through H-NMR analysis, generally obtaining very high recovery yields of over 50%., Departamento de Ingeniería Química y Tecnología del Medio Ambiente, Grado en Ingeniería Química

Published

2024

3. Código Sepsis: esquivando la mortalidad en un hospital terciario.

Author

Méndez, Rosa, Figuerola, Angels, Chicot, Marta, Barrios, Ana, Pascual, Natalia, Ramasco, Fernando, Rodríguez, Diego, García, Íñigo, von Wernitz, Andrés, Zurita, Nelly, Semiglia, Auxiliadora, Jiménez, David, Navarro, Sara, José Rubio, María, Vinuesa, Mercedes, del Campo, Lourdes, Bautista, Azucena, and Pizarro, Alberto

Abstract

Copyright of Revista Española de Quimioterapia is the property of Sociedad Espanola de Quimioterapia and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

4. Prognostic significance of amino acid and biogenic amines profiling in chronic kidney disease

Author

Gervasini, Guillermo and Gervasini, Guillermo

Abstract

Producción Científica, There is a pressing need for more precise biomarkers of chronic kidney disease (CKD). Plasma samples from 820 subjects [231 with CKD, 325 with end-stage kidney disease (ESKD) and 264 controls] were analyzed by liquid chromatography with tandem mass spectrometry (LC-MS/MS) to determine a metabolic profile of 28 amino acids (AAs) and biogenic amines to test their value as markers of CKD risk and progression. The kynurenine/tryptophan ratio showed the strongest correlation with estimated glomerular filtration rate values (coefficient = −0.731, p < 0.0001). Models created with orthogonal partial least squares-discriminant analysis (OPLS-DA) containing the metabolic signature showed a high goodness of fit and predictability for controls/CKD (R2X:0.73:R2Y:0.92:Q2:0.92, p < 0.0001) and lower values for CKD/ESKD (R2X:0.56:R2Y:0.59:Q2:0.55, p < 0.0001). Based on generated VIP scores, the most relevant markers for segregating samples into control/CKD and CKD/ESKD groups were citrulline (1.63) and tryptophan (1.47), respectively. ROC analysis showed that the addition of the metabolic profile to a model including CKD classic risk factors improved the AUC from 86.7% (83.6–89.9) to 100% (100–100) for CKD risk (p < 0.0001) and from 63.0% (58.2–67.8) to 96.5% (95.3–97.8) for the risk of progression from CKD to ESKD (p < 0.0001). Plasma concentrations of AAs and related amines may be useful as diagnostic biomarkers of kidney disease, both for CKD risk and for progression of CKD patients to ESKD., Instituto de Salud Carlos III y Unión Europea (NextGeneration UE) - (grant RD21/0005/0031), Instituto de Salud Carlos III y Unión Europea - (grant PI22/00181 ), Junta de Extremadura y Fondo Europeo de Desarrollo Regional (FEDER) - (grant GR21026)

Published

2023

5. Basicidad de las aminas. La anilina.

Author

Universitat Politècnica de València. Escuela Técnica Superior de Ingeniería Agronómica y del Medio Natural - Escola Tècnica Superior d'Enginyeria Agronòmica i del Medi Natural, Universitat Politècnica de València. Departamento de Química - Departament de Química, Llorens Molina, Juan Antonio, Universitat Politècnica de València. Escuela Técnica Superior de Ingeniería Agronómica y del Medio Natural - Escola Tècnica Superior d'Enginyeria Agronòmica i del Medi Natural, Universitat Politècnica de València. Departamento de Química - Departament de Química, and Llorens Molina, Juan Antonio

Abstract

Justificación de la baja basicidad de la anilina con respecto a las aminas alifáticas a partir del concepto de deslocalización electrónica por resonancia.

Published

2023

6. Inorganic nanofillers prepared from LDHS to obtain polymer matrix nanocomposites. Determination of the impact of the preparation method on their properties

Author

Misol Gallego, Alexander, Rives Arnau, Vicente Rafael, and Martín Labajos, Francisco

Subjects

Academic dissertations, aminas, Universidad de Salamanca (España), nanocompuestos, Amines, 2303 Química Inorgánica, Tesis y disertaciones académicas, Tesis Doctoral, Nanocomposites

Abstract

[ES] El presente trabajo de investigación se ha centrado en la obtención de nanorrellenos inorgánicos a partir de Hidróxidos Dobles Laminares (LDHs) que puedan ser de utilidad en la preparación de composites y nanocomposites de matriz polimérica modificando sus propiedades. Las propiedades de este tipo de nanorrellenos están estrechamente ligadas a las condiciones empleadas durante su síntesis; así, parámetros como el pH, medio de reacción, temperatura de síntesis e historial térmico, relación molar de cationes, velocidad de precipitación, etc., repercuten en las propiedades físicas y de superficie de los sólidos finales. En el presente trabajo se ha llevado a cabo la síntesis de LDHs de Zn y Al en relaciones molares 2:1 y 3:1 mediante el método de coprecipitación empleando aminas de carácter básico más débil que las clásicamente utilizadas. Concretamente, se han empleado aminas con diferente grado de sustitución y longitud de cadena, como agentes precipitantes empleando una metodología de síntesis más sencilla que la empleada en la hidrolisis de la urea. Los sólidos resultantes se han caracterizado atendiendo a sus propiedades morfológicas y estructurales y se ha estudiado su viabilidad para ser utilizados como nanorrellenos en nanocomposites de matriz polimérica. Los nanocomposites se han preparado utilizando polipropileno como matriz polimérica, dispersando LDHs de Zn y Al sintetizados en diferentes condiciones. Finalmente, se estudió la repercusión que supone el uso de estos solidos a modo de nanorrellenos sobre la estabilidad térmica y las propiedades mecánicas de los nanocomposites resultantes. La metodología de síntesis empleando aminas como agentes de precipitación se extendió a la preparación de LDHs de Ni y Al que resultan de gran interés como precursores de catalizadores en la reacción de Sabatier de hidrogenación de CO2 para obtener metano. La síntesis de este tipo de sólidos se llevó a cabo utilizando dimetilamina como agente precipitante, ya que no se observó con esta amina la formación de compuestos de coordinación con el Ni(II) y, además, resultó ser la amina con la que los sólidos de Zn y Al ofrecían las mejores propiedades, en cuanto a grado de cristalinidad y distribución de tamaño de partículas. El estudio de la actividad catalítica de este tipo de solidos se amplió con la síntesis de los catalizadores promovidos por cationes de elementos de tierras raras, como Ce y La. La efectividad de los catalizadores resultantes de Ni-Al2O3, Ni-Ce2O3-Al2O3 y Ni-La2O3-Al2O3 se estudió en la producción de CH4, atendiendo tanto a la conversión como a la selectividad frente a la formación de productos secundarios. El test catalítico se realizó entre 200 y 400 ºC, observándose que a 275 ºC se lograba una conversión superior al 60% y que se mantenía hasta 400 ºC, con una selectividad del 95% en la producción de metano. [EN] The present research work has focused on obtaining inorganic nanofillers from Layered Double Hydroxides (LDHs) that can be useful in the preparation of polymer matrix composites and nanocomposites with modified properties. The properties of this type of nanofillers are closely linked to their synthesis conditions; so, parameters such as pH, reaction medium, molar ratio of cations, precipitation rate, synthesis temperature and hydrothermal treatments, etc., have an important impact on the physical and surface properties of the final solids. Thus, in the present work, the synthesis of Zn,Al LDHs with molar ratios 2:1 and 3:1 has been carried out by the coprecipitation method using amines, which are softer bases than the classically used bases. Specifically, amines with different substitution degree and chain length have been used as precipitating agents using a simpler synthesis methodology than the hydrolysis of urea. The resulting solids have been characterised in terms of their morphological and structural properties and their feasibility for use as nanofillers in polymer matrix nanocomposites has been studied. Thus, nanocomposites have been prepared using polypropylene as polymeric matrix, dispersing Zn,Al LDHs synthesised under different conditions. Finally, the impact of the use of these solids as nanofillers on the thermal stability and mechanical properties of the resulting nanocomposites was studied. On the other hand, the synthesis methodology using amines as precipitating agents was extended to the preparation of Ni,Al LDHs which are of great interest as catalyst precursors in the Sabatier reaction of CO2 hydrogenation to obtain methane. The synthesis of this type of solids was carried out using dimethylamine as precipitating agent, since the formation of coordination compounds with Ni(II) was not observed and, in addition, it turned out to be the amine with which the Zn,Al LDHs offered the best properties, in terms of crystallinity degree and particle size distribution. The study of the catalytic activity of this type of solids was extended with the synthesis of catalysts promoted by cations of rare earth elements, such as Ce and La. Thus, the effectiveness of the resulting Ni-Al2O3, Ni-Ce2O3-Al2O3 and Ni-La2O3-Al2O3-Al2O3 catalysts was studied in the production of CH4, taking into account both the conversion and the selectivity towards secondary products. The catalytic test was carried out between 200 and 400 ºC, and it was observed that at 275 ºC a conversion larger than 60% was achieved, maintained up to 400 ºC, with a selectivity of 95% in methane production.

Published

2022

7. Desarrollo de nuevos sistemas basados en sílice mesoporosa con propiedades antimicrobianas

Author

Esteve Gómez, Diego

Subjects

Antimicrobianos de origen natural, Natural antimicrobials, Particulate materials, QUIMICA INORGANICA, Grado en Biotecnología-Grau en Biotecnologia, Materiales mesoporosos de sílice, Encapsulación, Liberación controlada, Funcionalización, Mesoporous silica materials, BIOQUIMICA Y BIOLOGIA MOLECULAR, Materiales particulados, Controlled release, Encapsulation, Amines, Functionalization, Aminas

Abstract

[ES] Aunque la nanomedicina es un campo que se encuentra en estadio temprano de desarrollo, se espera que su impacto sea revolucionario en el campo de la medicina. Uno de los prometedores campos de la nanomedicina puede ser el desarrollo de nanovehículos par a el transporte y la liberación de fármacos que, al mismo tiempo, actúan protegiendo el cargo. Una de las aplicaciones que se beneficiaría notoriamente del uso de la nanomedicina podría ser el tratamiento de quemaduras. Estas heridas han sido tradicionalmente tratadas con compuestos de plata como disoluciones de nitrato de plata o cremas de sulfadiazina de plata. Sin embargo, los tratamientos se han de reponer con cierta frecuencia para prevenir infecciones y estas reposiciones suelen conllevar muchas molestias para los pacientes. En este escenario es necesario el desarrollo de nuevos métodos para la administración de estos fármacos los cuales deben de ser capaces de mantener una concentración adecuada de plata en la herida. El objetivo de este trabajo era la creación de materiales mesoporosos de sílice funcionalizados con aminas (AMS-6) para potenciar su actividad antimicrobiana e incrementar su capacidad de encapsular fármacos como son la plata y la sulfadiazina de plata generando dos nuevos sistemas antimicrobianos. Finalmente, los materiales fueron evaluados como agentes antimicrobianos contra la bacteria patogénica Staphylococcus aureus. Se observó que a concentraciones de 1,0 mg/mL y de 4,5 mg/mL se encontraban las concentraciones mínimas inhibitorias de la plata y la sulfadiazina cargada en AMS-6 respectivamente., [EN] Although nanomedicine is a field which is at an early development stage, it is expected nanomedicine to have a revolutionary impact on medicine. One of the exciting directions of nanomedicine can be the development of nanocarriers for the external release of drugs, at the same time that the cargo is protected by the carrier. A medical area which may benefit from nanomedicine could be burn wounds treatment. These kinds of wounds have been traditionally treated with silver compounds like solutions of silver nitrate or creams of silver sulfadiazine. However, the treatments has to be frequently replaced to avoid infections. In addition, these substitutions are usually traumatic for the patient. In this scenario, new treatment methods for carrying these drugs are needed which must be able to keep a proper concentration of silver on the wound. The objective of this work was the creation of amine functionalized silica mesoporous materials (AMS-6) to increase both its antimicrobial activity and its ability to charge drugs as silver and silver sulfadiazine creating two new antimicrobial systems. Finally, the materials were evaluated as antimicrobial agents against the pathogenic bacteria Staphylococcus aureus. It was observed that a concentration of 1 mg/mL was the minimum inhibitory concentration for nanoparticles loaded with silver meanwhile the minimum inhibitory concentration for particles charged with silver sulfadiazine was of 4,5 mg/mL.

Published

2022

8. Desenvolvimento de sistemas catalíticos para transformação de aldeídos α,β-insaturados

Author

Leandro Duarte de Almeida, Patricia Alejandra Robles-Azocar, Luiz Carlos Alves de Oliveira, Eduardo Nicolau dos Santos, Elena Vitalievna Goussevskaia, Adilson Cândido da Silva, and Anderson Gabriel Marques da Silva

Subjects

Catálise heterogênea, Hidrogenação, Reação tandem, Rutênio, Hidrogenação seletiva, Catalisadores, Aldeídos a,b- insaturados, Complexos tipo pincer, Álcoois, Química inorgânica, Aldeídos, Aminas

Abstract

CNPq - Conselho Nacional de Desenvolvimento Científico e Tecnológico FAPEMIG - Fundação de Amparo à Pesquisa do Estado de Minas Gerais CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior Nesta tese de doutorado foram desenvolvidos processos catalíticos empregando diferentes tipos de catalisadores (heterogêneos e homogêneos) na transformação de diversos aldeídos α,β-insaturados. Catalisadores heterogêneos de rutênio e rutênio/estanho foram preparados pelo método sol-gel para aplicação na hidrogenação seletiva de aldeídos terpênicos visando a obtenção dos respectivos álcoois alílicos. Os materiais preparados foram caracterizados por diversas técnicas físico-químicas, espectroscópicas e de microscopia para um melhor entendimento da estrutura dos materiais catalíticos. O catalisador bimetálico de rutênio/estanho apresentou uma seletividade elevada para o produto álcool insaturado devido a natureza dos sítios ativos. Os produtos nerol+geraniol foram obtidos com rendimentos de 71% e o álcool cinamílico pode ser obtido em até 70% de rendimento. No capítulo seguinte foi demonstrada uma rota tandem inédita a partir dos aldeídos α,β-insaturados para a síntese dos respectivos acetatos alílicos, produtos de grande relevância industrial. Neste trabalho foi empregado o mesmo catalisador de rutênio preparado pelo método sol-gel utilizado na hidrogenação seletiva. O catalisador de rutênio foi capaz de promover a hidrogenação seletiva da ligação C=O enquanto os grupos silanóis sítios do suporte auxiliaram na etapa de acetalização do álcool alílico. O acetato do benzaldeído pode ser obtido com rendimento de 86%, enquanto que o éster advindo do cinamaldeído foi obtido em 40% de rendimento. No capítulo seguinte foi demonstrada a hidroaminação de álcoois alílicos com diferentes aminas catalisadas por complexos organometálicos de manganês com ligantes do tipo pincer para a síntese de g-amino álcoois com rendimentos de até 96% utilizando até 2 mol% de catalisador. Essa transformação foi possível devido à capacidade de transferência de hidrogênio conhecida por ligantes desse tipo. O uso dessa metodologia evita o uso de reagentes tóxicos como a acroleína para a produção de g-amino álcoois. In this dissertation were developed catalytic processes employing different types of catalysts (heterogeneous and homogeneous) in the transformation of several α,β-unsaturated aldehydes. Heterogeneous catalysts of ruthenium and ruthenium/tin were prepared by the sol- gel methodology for application in the selective hydrogenation of terpenic aldehydes aiming the formation of the respective allylic alcohols. The prepared materials were characterized by diverse physicochemical, spectroscopic and microscopy techniques for a better understanding of the catalytic materials structure. Bimetallic ruthenium/tin catalyst presented an elevated selectivity for the unsaturated alcohol due to the properties of catalytic sites. In the next chapter, it was demonstrated a novel tandem route starting from α,β-unsaturated aldehydes to synthesize the respective allylic acetates, products of great industrial relevance. Here, it was employed the same ruthenium catalyst prepared by the sol-gel method used for the selective hydrogenation. The ruthenium catalyst was able to promote the selective hydrogenation of C=O bond while silanol acidic groups assisted the acetalization step of allylic alcohol. Benzaldehyde acetate was obtained in 86% yield, while the esther from cinnamaldehyde could be obtained in 40% yield. In the further chapter, it was demonstrated the hydroamination of allylic alcohols with several amines catalyzed by manganese organometallic complexes with pincer-type ligands for the synthesis of g-amino alcohols in up to 96% yield using up to 2 mol% of catalyst. This transformation was enabled by the characteristic feature of hydrogen transfer known for this type of ligands. The use of this methodology avoids the use of toxic reactants like acrolein for the production of g-amino alcohols.

Published

2022

9. Compuestos nitrogenados

Author

Colasurdo, Diego Damián, Ruiz, Danila Luján, Pila, Matías Nicolás, and Allegretti, Patricia Ercilia

Subjects

aminas, Química orgánica, Química, amoníaco

Abstract

Las aminas son derivados orgánicos del amoniaco de la misma manera en la que los alcoholes y los éteres son derivados orgánicos del agua. Al igual que el amoniaco, las aminas contienen un átomo de nitrógeno con un par de electrones no enlazado, lo que hace que las aminas sean básicas y nucleofílicas. De hecho, en breve veremos que la mayor parte de la química de las aminas depende de la presencia de este par de electrones no enlazado., Facultad de Ciencias Exactas

Published

2022