Mark J. Hampden-Smith

What is he best known for?

The fields of study he is best known for:

• Organic chemistry
• Hydrogen
• Oxygen

Mark J. Hampden-Smith spends much of his time researching Chemical engineering, Aerosol, Metal, Electrical conductor and Metallurgy. Mark J. Hampden-Smith interconnects Oxide, Organic chemistry, Deposition and Analytical chemistry in the investigation of issues within Chemical engineering. His study focuses on the intersection of Aerosol and fields such as Carbon with connections in the field of Morphology.

The Metal study combines topics in areas such as Chemical reaction, Stoichiometry, Ceramic, Carboxylate and Perovskite. His Nickel and Copper study in the realm of Metallurgy interacts with subjects such as Small particles. His studies deal with areas such as Crystallography and Alkoxide as well as Inorganic chemistry.

His most cited work include:

• Chemical aspects of solution routes to perovskite-phase mixed-metal oxides from metal-organic precursors (438 citations)
• The Chemistry of Metal Cvd (404 citations)
• Method of producing membrane electrode assemblies for use in proton exchange membrane and direct methanol fuel cells (253 citations)

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

His primary areas of study are Inorganic chemistry, Chemical engineering, Aerosol, Crystallography and Metal. His Inorganic chemistry research focuses on Chemical vapor deposition and how it connects with Copper and Group 2 organometallic chemistry. His Chemical engineering study combines topics from a wide range of disciplines, such as Layer, Organic chemistry, Electrode and Analytical chemistry.

His research investigates the connection with Aerosol and areas like Microstructure which intersect with concerns in Composite number. His Crystallography study combines topics in areas such as Ligand, Molecule, Stereochemistry and Alkoxide. His study in Metal is interdisciplinary in nature, drawing from both Stoichiometry and Oxide.

He most often published in these fields:

• Inorganic chemistry (19.51%)
• Chemical engineering (18.90%)
• Aerosol (18.29%)

What were the highlights of his more recent work (between 2003-2017)?

• Chemical engineering (18.90%)
• Nanotechnology (10.98%)
• Fuel cells (6.10%)

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

Mark J. Hampden-Smith mostly deals with Chemical engineering, Nanotechnology, Fuel cells, Composite material and Small particles. His Chemical engineering research is multidisciplinary, incorporating elements of Analytical chemistry, Carbon, Electrode and Aerosol. In the subject of general Nanotechnology, his work in Metal nanoparticles is often linked to Electrocatalyst, thereby combining diverse domains of study.

Mark J. Hampden-Smith specializes in Composite material, namely Substrate. The study incorporates disciplines such as Electronic engineering and Dielectric in addition to Substrate. Mark J. Hampden-Smith has included themes like Metallurgy and Spray pyrolysis in his Spherical morphology study.

Between 2003 and 2017, his most popular works were:

• Method of producing membrane electrode assemblies for use in proton exchange membrane and direct methanol fuel cells (253 citations)
• Multi-component particles comprising inorganic nanoparticles distributed in an organic matrix and processes for making and using same (214 citations)
• Methods and compositions for the formation of recessed electrical features on a substrate (203 citations)

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

• Organic chemistry
• Hydrogen
• Oxygen

His main research concerns Nanotechnology, Chemical engineering, Metal nanoparticles, Fuel cells and Inkwell. The various areas that he examines in his Chemical engineering study include Organic chemistry and Aerosol. The concepts of his Aerosol study are interwoven with issues in Matrix and Nanoparticle.

As a part of the same scientific family, Mark J. Hampden-Smith mostly works in the field of Metal nanoparticles, focusing on Primer and, on occasion, Metal, Electrical conductor and Substrate. His Metal study results in a more complete grasp of Metallurgy. His research in Fuel cells intersects with topics in Electrode and Analytical chemistry.

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