José M. Criado

What is he best known for?

The fields of study he is best known for:

• Oxygen
• Organic chemistry
• Thermodynamics

His primary areas of investigation include Thermodynamics, Activation energy, Kinetic analysis, Isothermal process and Thermal analysis. His Thermodynamics study incorporates themes from Organic chemistry, Thermal decomposition and Polymer chemistry. José M. Criado combines subjects such as Particle-size distribution and Reaction mechanism with his study of Activation energy.

His Kinetic analysis research includes themes of Arrhenius equation and Kinetic model. His Isothermal process study combines topics from a wide range of disciplines, such as Pyrolysis and Nucleation. His Thermal analysis research incorporates elements of Reaction model, Differential thermal analysis and Nickel.

His most cited work include:

• ICTAC Kinetics Committee recommendations for performing kinetic computations on thermal analysis data (2725 citations)
• Hallmarks of mechanochemistry: From nanoparticles to technology (601 citations)
• Kinetic Analysis of Solid-State Reactions: The Universality of Master Plots for Analyzing Isothermal and Nonisothermal Experiments (382 citations)

What are the main themes of his work throughout his whole career to date?

The scientist’s investigation covers issues in Thermodynamics, Thermal analysis, Activation energy, Thermal decomposition and Analytical chemistry. His work on Isothermal process is typically connected to Solid-state as part of general Thermodynamics study, connecting several disciplines of science. His Thermal analysis research includes elements of Mass transfer, Reaction rate, Thermogravimetry and Mineralogy.

His study focuses on the intersection of Thermogravimetry and fields such as Differential thermal analysis with connections in the field of Crystallization. In the subject of general Activation energy, his work in Arrhenius equation is often linked to Function, thereby combining diverse domains of study. His Thermal decomposition study deals with Thermal stability intersecting with Polymer chemistry.

He most often published in these fields:

• Thermodynamics (53.40%)
• Thermal analysis (32.46%)
• Activation energy (28.27%)

What were the highlights of his more recent work (between 2010-2020)?

• Thermodynamics (53.40%)
• Thermal analysis (32.46%)
• Analytical chemistry (19.90%)

In recent papers he was focusing on the following fields of study:

José M. Criado mainly investigates Thermodynamics, Thermal analysis, Analytical chemistry, Activation energy and Differential scanning calorimetry. His Thermodynamics study integrates concerns from other disciplines, such as Reaction rate, Pyrolysis, Thermal decomposition and Thermal stability. In his research on the topic of Pyrolysis, Kinetic analysis is strongly related with Isothermal process.

His Thermal analysis research is multidisciplinary, incorporating perspectives in Scientific method, Mass transfer, Thermogravimetry and Differential thermal analysis. José M. Criado has included themes like Characterization, Reaction model and Dielectric thermal analysis in his Differential thermal analysis study. His work deals with themes such as Hydrogen storage, Hydrogen, Magnesium hydride and Rate-determining step, which intersect with Activation energy.

Between 2010 and 2020, his most popular works were:

• ICTAC Kinetics Committee recommendations for performing kinetic computations on thermal analysis data (2725 citations)
• Hallmarks of mechanochemistry: From nanoparticles to technology (601 citations)
• Kinetic analysis of complex solid-state reactions. A new deconvolution procedure. (211 citations)

In his most recent research, the most cited papers focused on:

• Oxygen
• Organic chemistry
• Catalysis

His primary scientific interests are in Thermodynamics, Nucleation, Mechanosynthesis, Polymer chemistry and Thermal. José M. Criado works in the field of Thermodynamics, focusing on Thermal analysis in particular. José M. Criado interconnects Reaction model, Thermogravimetry and Differential thermal analysis in the investigation of issues within Thermal analysis.

He focuses mostly in the field of Nucleation, narrowing it down to topics relating to Thermal stability and, in certain cases, Polymer, Phase transition, Decomposition, Multiferroics and Reaction mechanism. The concepts of his Mechanosynthesis study are interwoven with issues in Analytical chemistry, Arrhenius equation, Activation energy, Crystallite and Nanoparticle. The Thermal study which covers Cellulose that intersects with Scientific method, Isothermal process and Thermal decomposition.

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