Jacques Verdu

What is he best known for?

The fields of study he is best known for:

• Polymer
• Organic chemistry
• Composite material

Jacques Verdu mainly focuses on Thermal oxidation, Composite material, Polymer, Polymer chemistry and Reaction mechanism. His Thermal oxidation research includes elements of Reaction rate constant, Arrhenius equation, Polyethylene and Thermodynamics. His work in the fields of Epoxy, Polypropylene, Composite number and Mass fraction overlaps with other areas such as Water transport.

His work carried out in the field of Polymer brings together such families of science as Polymer science, Photochemistry, Hydrocarbon, Embrittlement and Diffusion. The various areas that Jacques Verdu examines in his Polymer chemistry study include Solubility, Polymer degradation, Steric effects, Absorption of water and Monomer. His research in Reaction mechanism intersects with topics in Crystallinity and Physical chemistry.

His most cited work include:

• Role of oxygen diffusion in polymer ageing: kinetic and mechanical aspects (197 citations)
• Factors governing water absorption by composite matrices (129 citations)
• Structure-properties relationships for densely cross-linked epoxide-amine systems based on epoxide or amine mixtures (115 citations)

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

The scientist’s investigation covers issues in Polymer chemistry, Composite material, Polymer, Thermal oxidation and Epoxy. His Polymer chemistry research is multidisciplinary, incorporating elements of Polyester, Epoxide, Gravimetric analysis, Analytical chemistry and Hydrolysis. His work in Polymer covers topics such as Diffusion which are related to areas like Thermal diffusivity.

The Thermal oxidation study combines topics in areas such as Reaction rate constant, Reaction mechanism, Induction period and Thermodynamics. His Reaction mechanism study combines topics in areas such as Photochemistry and Spectrophotometry. His studies in Epoxy integrate themes in fields like Glass transition and Amine gas treating.

He most often published in these fields:

• Polymer chemistry (28.57%)
• Composite material (27.86%)
• Polymer (23.21%)

What were the highlights of his more recent work (between 2011-2019)?

• Composite material (27.86%)
• Polymer (23.21%)
• Thermal oxidation (23.93%)

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

Jacques Verdu mostly deals with Composite material, Polymer, Thermal oxidation, Photochemistry and Polymer chemistry. His study in Polymer is interdisciplinary in nature, drawing from both Fiber, Hollow fiber membrane, Solubility and Diffusion. Jacques Verdu interconnects Embrittlement, Chromatography, Polyamide and Phenol in the investigation of issues within Thermal oxidation.

His Photochemistry study combines topics from a wide range of disciplines, such as Reaction rate constant, Induction period, Catalysis and Chemiluminescence. The concepts of his Polymer chemistry study are interwoven with issues in Yield, Polyester, Chain scission, Hydrolysis and Polymer network. His Epoxy research incorporates themes from Gravimetric analysis and Glass transition.

Between 2011 and 2019, his most popular works were:

• A fully coupled diffusion-reaction scheme for moisture sorption–desorption in an anhydride-cured epoxy resin (54 citations)
• Molecular and macromolecular structure changes in polyamide 11 during thermal oxidation - Kinetic modeling (37 citations)
• Review: Auto-oxidation of aliphatic polyamides (35 citations)

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

• Polymer
• Organic chemistry
• Composite material

His primary areas of investigation include Epoxy, Composite material, Thermal oxidation, Reaction rate constant and Photochemistry. His Epoxy study combines topics in areas such as Gravimetric analysis, Glass transition and Thermosetting polymer. Jacques Verdu regularly ties together related areas like Diffusion in his Composite material studies.

He focuses mostly in the field of Reaction rate constant, narrowing it down to topics relating to Polyethylene and, in certain cases, Polymer, Chemiluminescence, Spectrophotometry and Kinetic model. Arrhenius equation is closely connected to Solubility in his research, which is encompassed under the umbrella topic of Polymer. His work focuses on many connections between Photochemistry and other disciplines, such as Polyamide, that overlap with his field of interest in Thermodynamics, Oxygen, Inert gas and Molar mass.

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