Ronald L. Elsenbaumer

What is he best known for?

The fields of study he is best known for:

• Organic chemistry
• Hydrogen
• Polymer

Ronald L. Elsenbaumer mostly deals with Polymer chemistry, Polymer, Conductive polymer, Doping and Dopant. His biological study spans a wide range of topics, including Copolymer, High conductivity, Organic polymer, Polyaniline nanofibers and Organic chemistry. He is studying Polyacetylene, which is a component of Polymer.

His Conductive polymer research is multidisciplinary, incorporating elements of Conjugated system, Electrical conductor, Mechanical devices and Electronics. The concepts of his Doping study are interwoven with issues in Polyaniline, Poly, Precursor polymer and Electrically conductive. His Dopant research includes elements of Inorganic chemistry and Chemical engineering.

His most cited work include:

• Handbook of conducting polymers (5165 citations)
• Corrosion protection of mild steel by coatings containing polyaniline (483 citations)
• Processible and environmentally stable conducting polymers (440 citations)

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

Ronald L. Elsenbaumer mainly focuses on Polymer, Polymer chemistry, Doping, Conductive polymer and Conjugated system. His study looks at the intersection of Polymer and topics like Band gap with Ionization. His Polymer chemistry study combines topics from a wide range of disciplines, such as Electrically conductive, Thiophene, Organic chemistry, Alkyl and Electrical conductor.

As part of one scientific family, Ronald L. Elsenbaumer deals mainly with the area of Doping, narrowing it down to issues related to the Inorganic chemistry, and often Poly and Sulfide. His work is dedicated to discovering how Conductive polymer, Optoelectronics are connected with Layer and other disciplines. His Conjugated system study integrates concerns from other disciplines, such as Photochemistry and Electrode.

He most often published in these fields:

• Polymer (40.59%)
• Polymer chemistry (36.14%)
• Doping (24.75%)

What were the highlights of his more recent work (between 2001-2013)?

• Organic chemistry (11.39%)
• Polymer chemistry (36.14%)
• Grease (3.96%)

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

The scientist’s investigation covers issues in Organic chemistry, Polymer chemistry, Grease, Lubricant and Inorganic chemistry. His Polymer chemistry study combines topics in areas such as Polymerization, Wittig reaction, Conjugated system, Luminescence and Bearing. His Conjugated system study introduces a deeper knowledge of Polymer.

His studies in Polymer integrate themes in fields like Organic compound, Condensation reaction and Iron fluoride. His Luminescence study also includes

• Photoluminescence that connect with fields like Conductive polymer,
• Monomer which is related to area like Alkyl. His Inorganic chemistry research integrates issues from Decomposition, Zinc and Catalysis.

Between 2001 and 2013, his most popular works were:

• A mild, copper catalyzed route to conducting polyaniline. (44 citations)
• Physical, chemical, theoretical aspects of conducting polymer electrochromics in the visible, IR and microwave regions ☆ (30 citations)
• TEM studies of anti-wear films/wear particles generated under boundary conditions lubrication (29 citations)

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

• Organic chemistry
• Hydrogen
• Ion

His primary scientific interests are in Zinc, Inorganic chemistry, Catalysis, Base oil and XANES. His Zinc research incorporates themes from Decomposition, Thermogravimetric analysis and Thermal decomposition. His study deals with a combination of Inorganic chemistry and Calorimetry.

His research in Catalysis intersects with topics in Aniline and Polyaniline. His Polyaniline study incorporates themes from Salt, Dielectric spectroscopy, Polymer chemistry and Base. His research integrates issues of Combinatorial chemistry, Ligand and Polymer in his study of Dimer.

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