Régis Réau

What is he best known for?

The fields of study he is best known for:

• Organic chemistry
• Catalysis
• Alkene

The scientist’s investigation covers issues in Phosphole, Conjugated system, Photochemistry, Organic chemistry and Stereochemistry. Palladium, Group and Ring is closely connected to Polymer chemistry in his research, which is encompassed under the umbrella topic of Phosphole. His Conjugated system study integrates concerns from other disciplines, such as Supramolecular chemistry, Molecule, Thin film and Photoluminescence.

His research integrates issues of Diode, Moiety, Light-emitting diode, Reactivity and Metal in his study of Photochemistry. His Organic chemistry study incorporates themes from Combinatorial chemistry and Disulfide bond. His Stereochemistry research incorporates themes from Crystallography, In vitro and Helicene.

His most cited work include:

• Linear organic π-conjugated systems featuring the heavy Group 14 and 15 elements (247 citations)
• Toward Functional π-Conjugated Organophosphorus Materials: Design of Phosphole-Based Oligomers for Electroluminescent Devices (205 citations)
• Phosphole-Containing π-Conjugated Systems: From Model Molecules to Polymer Films on Electrodes (190 citations)

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

Phosphole, Stereochemistry, Organic chemistry, Crystallography and Conjugated system are his primary areas of study. Régis Réau combines subjects such as Thiophene, Polymer chemistry, Photochemistry and Coordination complex, Metal with his study of Phosphole. Régis Réau usually deals with Photochemistry and limits it to topics linked to HOMO/LUMO and Band gap.

His study in Stereochemistry is interdisciplinary in nature, drawing from both Supramolecular chemistry, Ring, Ligand and Helicene. His work in Crystallography tackles topics such as Molecule which are related to areas like Computational chemistry. His Conjugated system study is associated with Polymer.

He most often published in these fields:

• Phosphole (36.78%)
• Stereochemistry (30.46%)
• Organic chemistry (24.71%)

What were the highlights of his more recent work (between 2008-2019)?

• Phosphole (36.78%)
• Stereochemistry (30.46%)
• Crystallography (23.56%)

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

His primary scientific interests are in Phosphole, Stereochemistry, Crystallography, Ligand and Helicene. The study incorporates disciplines such as Conjugated system, Polymer chemistry, Photochemistry, Metal and Substituent in addition to Phosphole. Régis Réau studies Stereochemistry, namely Moiety.

The concepts of his Crystallography study are interwoven with issues in Bimetallic strip, Nuclear magnetic resonance spectroscopy and Intramolecular force. His research in Ligand intersects with topics in Supramolecular assembly, Diphosphorus, Medicinal chemistry and Ruthenium. Régis Réau has researched Helicene in several fields, including Optical rotation, Enantiopure drug, Diastereomer, Circular dichroism and Isomerization.

Between 2008 and 2019, his most popular works were:

• Metal−Bis(helicene) Assemblies Incorporating π-Conjugated Phosphole-Azahelicene Ligands: Impacting Chiroptical Properties by Metal Variation (110 citations)
• Metallahelicenes: Easily Accessible Helicene Derivatives with Large and Tunable Chiroptical Properties (105 citations)
• Dibenzophosphapentaphenes: Exploiting P Chemistry for Gap Fine-Tuning and Coordination-Driven Assembly of Planar Polycyclic Aromatic Hydrocarbons (99 citations)

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

• Organic chemistry
• Catalysis
• Alkene

Régis Réau spends much of his time researching Helicene, Stereochemistry, Phosphole, Crystallography and Photochemistry. He interconnects Ligand, Optical rotation and Enantiopure drug in the investigation of issues within Helicene. His study of Diastereomer is a part of Stereochemistry.

His studies deal with areas such as Benzothiophene, Conjugated system, Benzofuran, Combinatorial chemistry and Pi interaction as well as Phosphole. His Conjugated system research integrates issues from Coordination geometry and Time-dependent density functional theory, Molecule. His work deals with themes such as Moiety, HOMO/LUMO, Metal, Ion and Redox, which intersect with Photochemistry.

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