What is he best known for?
The fields of study he is best known for:
- Enzyme
- Organic chemistry
- Catalysis
His scientific interests lie mostly in Biocatalysis, Organic chemistry, Protein engineering, Enzyme and Biochemistry.
His research integrates issues of Monomer, Enantioselective synthesis, Stereoisomerism, Alcohol dehydrogenase and Solubility in his study of Biocatalysis.
His research related to Hydrolysis, Cellulase, Enzymatic hydrolysis, Cellulose and Enzyme catalysis might be considered part of Organic chemistry.
The study incorporates disciplines such as Nanotechnology, Thermostability, Biochemical engineering, Directed evolution and Computational biology in addition to Protein engineering.
In his work, Leucine dehydrogenase and Pseudomonas putida is strongly intertwined with Stereochemistry, which is a subfield of Enzyme.
His Biochemistry research is multidisciplinary, relying on both Biophysics and Aptamer.
His most cited work include:
- Cellulose crystallinity--a key predictor of the enzymatic hydrolysis rate (395 citations)
- Modeling cellulase kinetics on lignocellulosic substrates. (321 citations)
- Stability of biocatalysts. (300 citations)
What are the main themes of his work throughout his whole career to date?
The scientist’s investigation covers issues in Organic chemistry, Biochemistry, Enzyme, Catalysis and Stereochemistry.
His study in Organic chemistry concentrates on Hydrolysis, Enzymatic hydrolysis, Substrate, Solubility and Solvent.
His Enzymatic hydrolysis study combines topics in areas such as Biomass, Cellulose and Crystallinity.
A large part of his Biochemistry studies is devoted to Protein engineering.
His Enzyme research incorporates elements of Amino acid and Wild type.
His Catalysis study deals with Combinatorial chemistry intersecting with Biocatalysis.
He most often published in these fields:
- Organic chemistry (24.60%)
- Biochemistry (22.22%)
- Enzyme (20.24%)
What were the highlights of his more recent work (between 2017-2021)?
- Biocatalysis (13.10%)
- Combinatorial chemistry (10.32%)
- Catalysis (15.87%)
In recent papers he was focusing on the following fields of study:
Biocatalysis, Combinatorial chemistry, Catalysis, Amine dehydrogenase and Substrate are his primary areas of study.
Andreas S. Bommarius has included themes like Formate dehydrogenase, Reaction rate, NADH oxidase and Alcohol dehydrogenase in his Biocatalysis study.
His work deals with themes such as Lactam, Yield and Adsorption, which intersect with Catalysis.
Andreas S. Bommarius is investigating Amine dehydrogenase as part of his Biochemistry and Enzyme and Amine dehydrogenase study.
His Substrate study incorporates themes from Polar effect, Active site, Protein engineering, Double bond and Adipic acid.
Andreas S. Bommarius combines Cover and Organic chemistry in his research.
Between 2017 and 2021, his most popular works were:
- Recent advances in ω-transaminase-mediated biocatalysis for the enantioselective synthesis of chiral amines (67 citations)
- Oxidoreductase-Catalyzed Synthesis of Chiral Amines (41 citations)
- Biomolecular Assemblies: Moving from Observation to Predictive Design (30 citations)
In his most recent research, the most cited papers focused on:
- Enzyme
- Organic chemistry
- Catalysis
Andreas S. Bommarius mainly focuses on Biocatalysis, Combinatorial chemistry, Catalysis, Formate and Substrate.
His Biocatalysis research is multidisciplinary, incorporating perspectives in Amine dehydrogenase, NADH oxidase, Small molecule and Alcohol dehydrogenase.
His Amine dehydrogenase study contributes to a more complete understanding of Biochemistry.
His studies in Combinatorial chemistry integrate themes in fields like Formate dehydrogenase, Reaction rate, Oxidase test, Hydrogen peroxide and Redox.
His Catalysis research incorporates themes from Yield, Lactam, Aspergillus oryzae, Crystallization and Penicillin G Acylase.
His work deals with themes such as Formate oxidation, Protonation, Stereochemistry and Methanol, which intersect with Substrate.
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