What is he best known for?
The fields of study he is best known for:
- Catalysis
- Organic chemistry
- Hydrogen
Catalysis, Inorganic chemistry, Organic chemistry, Heterogeneous catalysis and Monolayer are his primary areas of study.
His Catalysis research is mostly focused on the topic Transition metal.
His research in the fields of Vanadium overlaps with other disciplines such as Anatase.
The study incorporates disciplines such as Work and Metallic materials in addition to Organic chemistry.
His research integrates issues of Chemical physics, Arrhenius equation, Acid catalysis and Thermodynamics in his study of Heterogeneous catalysis.
His work carried out in the field of Monolayer brings together such families of science as Vanadium oxide, Oxide and Reactivity.
His most cited work include:
- Catalysis By Metals (1138 citations)
- Catalysis By Gold (878 citations)
- Gold-catalysed oxidation of carbon monoxide (773 citations)
What are the main themes of his work throughout his whole career to date?
Geoffrey C. Bond spends much of his time researching Catalysis, Inorganic chemistry, Hydrogenolysis, Heterogeneous catalysis and Butane.
His research on Catalysis concerns the broader Organic chemistry.
His studies in Inorganic chemistry integrate themes in fields like Hydrogen, Platinum, Transition metal, Adsorption and Selectivity.
His study looks at the relationship between Selectivity and fields such as Phthalic anhydride, as well as how they intersect with chemical problems.
His Hydrogenolysis study also includes fields such as
- Propane and related Isobutane,
- Photochemistry and related Alkene.
His Heterogeneous catalysis research integrates issues from Arrhenius equation, Activation energy, Physical chemistry, Homogeneous catalysis and Palladium.
He most often published in these fields:
- Catalysis (75.73%)
- Inorganic chemistry (54.37%)
- Hydrogenolysis (24.76%)
What were the highlights of his more recent work (between 2005-2020)?
- Catalysis (75.73%)
- Inorganic chemistry (54.37%)
- Metallic materials (4.37%)
In recent papers he was focusing on the following fields of study:
Geoffrey C. Bond mainly investigates Catalysis, Inorganic chemistry, Metallic materials, Nanotechnology and Photochemistry.
His Catalysis study improves the overall literature in Organic chemistry.
His Inorganic chemistry research includes themes of Heterogeneous catalysis, Hydrogen, Adsorption, Carbon monoxide and Hydrocarbon.
Geoffrey C. Bond focuses mostly in the field of Heterogeneous catalysis, narrowing it down to matters related to Transition metal and, in some cases, Palladium.
His Metallic materials study combines topics from a wide range of disciplines, such as Work and Polymer science.
His Photochemistry research incorporates elements of Water-gas shift reaction, Thermal decomposition and Reaction rate.
Between 2005 and 2020, his most popular works were:
- Catalysis By Gold (878 citations)
- Selective Hydrogenation of Ethyne in Ethene‐Rich Streams on Palladium Catalysts. Part 1. Effect of Changes to the Catalyst During Reaction (356 citations)
- Selective Hydrogenation of Ethyne in Ethene‐Rich Streams on Palladium Catalysts, Part 2: Steady‐State Kinetics and Effects of Palladium Particle Size, Carbon Monoxide, and Promoters (263 citations)
In his most recent research, the most cited papers focused on:
- Catalysis
- Organic chemistry
- Hydrogen
The scientist’s investigation covers issues in Catalysis, Inorganic chemistry, Heterogeneous catalysis, Transition metal and Metallic materials.
His studies deal with areas such as Elimination reaction, Partial pressure and Atmospheric temperature range as well as Catalysis.
Geoffrey C. Bond has included themes like Organic chemistry, Metal, Hydrocarbon, Vapor pressure and Chemisorption in his Inorganic chemistry study.
His research in Transition metal intersects with topics in Combinatorial chemistry, Carbon monoxide and Palladium.
He combines subjects such as Coprecipitation, Oxide, Acetylene, Active site and Calcination with his study of Carbon monoxide.
His study looks at the relationship between Metallic materials and topics such as Nanotechnology, which overlap with Activation energy, Band gap, Arrhenius equation and Electrocatalyst.
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