Thelma Serrano scite author profile

Different solid solutions in the Fe x Co 1Àx C 2 O 4 $2H 2 O system have been prepared in the form of nanoribbons by a reverse micelles method. The orthorhombic crystallographic structure differs from the monoclinic massive products FeC 2 O 4 $2H 2 O and CoC 2 O 4 $2H 2 O. The dehydration process is studied by thermal analysis to prepare the anhydrous solid solution oxysalts, in which the nanoribbonshaped particles are preserved and a porous system is developed. Anhydrous mixed oxalates are used for the first time as high-capacity lithium storage materials with improved rate performance, and display synergistic effects as compared with the end members. Fe 0.75 Co 0.25 C 2 O 4 displays a reversible capacity ca. 600 mA h g À1 at 5C rate with a very good capacity retention after 75 cycles by a hybrid mechanism. The solids display faradaic capacities due to a novel conversion reaction that produces nanodispersed transition metals, which is responsible for the high energy density, and a capacitive response that leads to high power densities in Li-ion batteries. The low temperature synthesis of these materials makes them an inexpensive option for this purpose.

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Carbon-based aerogels and xerogels: Synthesis, properties, oil sorption capacities, and DFT simulations

Torres

Serrano

Kharissova

et al. 2021

Journal of Environmental Chemical Engineering

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Synthesis of CdS nanocrystals stabilized with sodium citrate

Serrano

Gómez

Colás

et al. 2009

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Síntesis y caracterización de nanoparticulas de CdS obtenidas por microondas

Martı́nez¹,

Serrano²,

Gómez³

et al. 2007

Bol. Soc. Esp. Ceram. Vidr.

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En este trabajo se presentan los resultados de la síntesis de nanoparticulas semiconductoras de CdS por medio de microondas. Se usó Tioacetamida (TAA) y CdCl 2 para la obtención de las nanoparticulas, se controló térmicamente con microondas a una potencia de 1000W, un tiempo de 60 segundos bajo el ajuste de diferentes valores de pH: 8, 9 y 10. Se caracterizaron los nanocompuestos mediante espectroscopia UV-Vis con reflectancia difusa, Análisis textural a partir de las isotermas de adsorción con N 2 usando el método BET, Microscopia de Fuerza Atómica y Difracción de Rayos X en polvos. Los resultados del análisis textural demuestran una distribución de tamaño de poros estrecha, así como área superficial de hasta 106.4 m 2 /g. Los difractogramos indican la obtención de CdS con tamaños de cristal nanométricos, el cual fue confirmado por el análisis por espectroscopia de UV-Vis así como por fuerza atómica. Las curvas de absorbancia de UV-Vis indicaron una disminución de tamaño de nanopartículas en función del pH utilizado, así como un incremento en la energía de banda prohibida en relación inversa al tamaño de éstas, cuyos valores van desde 2.08 hasta 2.29 eV. Palabras clave: microondas, semiconductor, CdS, nanoparticulas. Synthesis and characterization of CdS NP'S by microwavesThis paper present the results of the synthesis and characterization of semiconductor nanoparticles of CdS by microwaves. Thioacetamide (TAA) and CdCl 2 were the initial materials. The synthesis was carried out under controlled potency of 1000W, with 60 seconds on or off, as well as the pH was regulated to different values: 8, 9 and 10. The nanocompounds were analyzed by UV-Vis spectroscopy, Textural Analysis from adsorption isoterms with N 2 by BET method, Atomic Force Microscopy and X-Ray Diffraction. Textural analysis shows the size of pore distribution narrow, as well as superficial area of 106.4 m 2 /g. AFM micrographies shown particle nanometrics, the results of X-Ray Difraction analysis probing the same. Spectras of UV-Vis shown that nanoparticle is less according the pH used in the synthesis, affecting the band gap energy.Keywords: microwaves, semiconductor, CdS, nanoparticles. INTRODUCCIóNEn la época actual, la necesidad de nuevos materiales que satisfagan las peticiones que los avances tecnológicos requieren, ha encauzado a la investigación de recientes campos del conocimiento a virar el rumbo del esfuerzo científico a una nueva era en el estudio de la ciencia de los materiales, aportando como resultado, el desarrollo de una naciente pero interesante rama del conocimiento, la nanociencia.Las propiedades de los sólidos cristalinos son generalmente clasificadas sin tomar como referencia su tamaño ya que éste generalmente solo tiene influencia cuando se trabaja con sistemas de tamaños menores a 10nm (1). El desarrollo de materiales y la síntesis de cristales inorgánicos de una manera controlable ha sido la meta de muchas investigaciones en la actualidad, cuyo principal interés es el control del tamaño (2-7).En los últimos años se ha rev...

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Hydrophobization and evaluation of absorption capacity of Aloe vera, Opuntia ficus-indica and Gelidium for oil spill cleanup

Cortez

Kharisov

Serrano

et al. 2018

Journal of Dispersion Science and Technology

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Thelma Serrano

Synergistic effects of transition metal substitution in conversion electrodes for lithium-ion batteries

Carbon-based aerogels and xerogels: Synthesis, properties, oil sorption capacities, and DFT simulations

Synthesis of CdS nanocrystals stabilized with sodium citrate

Síntesis y caracterización de nanoparticulas de CdS obtenidas por microondas

Hydrophobization and evaluation of absorption capacity of Aloe vera, Opuntia ficus-indica and Gelidium for oil spill cleanup

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