L
Luis A. Pérez-Maqueda
Researcher at Spanish National Research Council
Publications - 218
Citations - 13246
Luis A. Pérez-Maqueda is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Calcium looping & Carbonation. The author has an hindex of 50, co-authored 197 publications receiving 10426 citations. Previous affiliations of Luis A. Pérez-Maqueda include Rutgers University & Center for Advanced Materials.
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Journal ArticleDOI
ICTAC Kinetics Committee recommendations for performing kinetic computations on thermal analysis data
Sergey Vyazovkin,Alan K. Burnham,José M. Criado,Luis A. Pérez-Maqueda,Crisan Popescu,Nicolas Sbirrazzuoli +5 more
TL;DR: In this article, the authors have developed recommendations for reliable evaluation of kinetic parameters (the activation energy, the preexponential factor, and the reaction model) from the data obtained by means of thermal analysis methods such as TGA, differential scanning calorimetry (DSC), and differential thermal analysis (DTA).
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ICTAC Kinetics Committee recommendations for analysis of multi-step kinetics
Sergey Vyazovkin,Alan K. Burnham,Loïc Favergeon,Nobuyoshi Koga,Elena Moukhina,Luis A. Pérez-Maqueda,Nicolas Sbirrazzuoli +6 more
TL;DR: The present recommendations provide guidance on kinetic analysis of multi-step processes as measured by thermal analysis methods such as thermogravimetry and differential scanning calorimetry.
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Kinetic analysis of complex solid-state reactions. A new deconvolution procedure.
TL;DR: A method that involves the deconvolution of the individual processes from the overall differential kinetic curves obtained under linear heating rate conditions, followed by the kinetic analysis of the discrete processes using combined kinetic analysis, is proposed.
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Combined kinetic analysis of solid-state reactions: a powerful tool for the simultaneous determination of kinetic parameters and the kinetic model without previous assumptions on the reaction mechanism.
TL;DR: A modification in the combined kinetic analysis is proposed by using an empirical equation that fits every f(alpha) of the ideal kinetic models most extensively used in the literature and even their deviations produced by particle size distributions or heterogeneities in particle morphologies.
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The effect of ultrasound on the particle size and structural disorder of a well-ordered kaolinite.
TL;DR: Investigating the effect of sonication on the particle size and structure of a well-crystallized (KGa-1) kaolinite from Georgia showed that particle-size reduction can be controlled through different variables such as power of ultrasonic processor, amount of sample, and time of treatment.