What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Polymer
- Catalysis
The scientist’s investigation covers issues in Polymer chemistry, Polymer, Ionic liquid, Polymerization and Copolymer.
The concepts of his Polymer chemistry study are interwoven with issues in Lactone, Monomer, Chain transfer, Radical polymerization and Thermal stability.
His Polymer research incorporates themes from Porosity and Nanotechnology.
His Ionic liquid research integrates issues from Ion exchange, Inorganic chemistry, Flue gas, Electrolyte and Polyelectrolyte.
His Polymerization research entails a greater understanding of Organic chemistry.
His Copolymer research is multidisciplinary, incorporating elements of Self-assembly, Epoxy and Nanocomposite.
His most cited work include:
- Polymeric ionic liquids: Broadening the properties and applications of polyelectrolytes (781 citations)
- Polymeric ionic liquids: Broadening the properties and applications of polyelectrolytes (781 citations)
- Poly(ionic liquid)s: An update (777 citations)
What are the main themes of his work throughout his whole career to date?
The scientist’s investigation covers issues in Polymer chemistry, Ionic liquid, Polymer, Polymerization and Conductive polymer.
His Polymer chemistry study combines topics in areas such as Copolymer, Reversible addition−fragmentation chain-transfer polymerization, Monomer, Radical polymerization and Organic chemistry.
His research integrates issues of Inorganic chemistry, Electrolyte, Ionic conductivity, Ionic bonding and Polyelectrolyte in his study of Ionic liquid.
The concepts of his Ionic conductivity study are interwoven with issues in Ion and Glass transition.
In his work, Ethylene oxide is strongly intertwined with Lithium, which is a subfield of Polymer.
In his research on the topic of Conductive polymer, Bioelectronics and Biocompatibility is strongly related with PEDOT:PSS.
He most often published in these fields:
- Polymer chemistry (54.24%)
- Ionic liquid (53.57%)
- Polymer (54.24%)
What were the highlights of his more recent work (between 2018-2021)?
- Polymer (54.24%)
- Ionic liquid (53.57%)
- Electrolyte (19.20%)
In recent papers he was focusing on the following fields of study:
Polymer, Ionic liquid, Electrolyte, Lithium and Nanotechnology are his primary areas of study.
His work carried out in the field of Polymer brings together such families of science as Polymer electrolytes, Nanoparticle and Redox.
His Ionic liquid research includes themes of Pyridinium, Imide, Polymer chemistry and Corrosion.
The Lithium study combines topics in areas such as Electrochemistry and Ethylene oxide.
His biological study spans a wide range of topics, including Redox polymers and Conductive polymer.
David Mecerreyes studied Polymerization and Copolymer that intersect with Rheometry and Extrusion.
Between 2018 and 2021, his most popular works were:
- Innovative Electrolytes Based on Ionic Liquids and Polymers for Next-Generation Solid-State Batteries (62 citations)
- A water-based and metal-free dye solar cell exceeding 7% efficiency using a cationic poly(3,4-ethylenedioxythiophene) derivative (42 citations)
- A water-based and metal-free dye solar cell exceeding 7% efficiency using a cationic poly(3,4-ethylenedioxythiophene) derivative (42 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Polymer
- Catalysis
His main research concerns Electrolyte, Ionic liquid, Polymer, Lithium and Nanotechnology.
His work in the fields of Electrolyte, such as Ionic conductivity, intersects with other areas such as Solid-state.
His Ionic liquid research incorporates elements of Inorganic chemistry, Imide, Polymer chemistry, Pyridinium and Lithium ion transport.
His primary area of study in Polymer is in the field of Polymerization.
The various areas that David Mecerreyes examines in his Lithium study include Oxide and Ethylene oxide.
His study in Nanotechnology is interdisciplinary in nature, drawing from both Porosity and Conductive polymer.
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