Johan F.J. Engbersen

What is he best known for?

The fields of study he is best known for:

• Organic chemistry
• Enzyme
• Catalysis

Johan F.J. Engbersen mostly deals with Gene delivery, Stereochemistry, Medicinal chemistry, Organic chemistry and Transfection. While the research belongs to areas of Gene delivery, Johan F.J. Engbersen spends his time largely on the problem of Amine gas treating, intersecting his research to questions surrounding Genetic transfer, Combinatorial chemistry and Alkyl. Johan F.J. Engbersen has researched Stereochemistry in several fields, including Supramolecular chemistry, Catalysis, Lewis acids and bases, Nucleophile and Polymer chemistry.

His studies in Medicinal chemistry integrate themes in fields like Urea and Substrate. His biological study spans a wide range of topics, including Photochemistry, Anisotropy and Fluorophore. His Transfection research includes themes of Cystamine and Biochemistry.

His most cited work include:

• Dinuclear metallo-phosphodiesterase models: application of calix[4]arenes as molecular scaffolds (305 citations)
• Novel bioreducible poly(amido amine)s for highly efficient gene delivery. (259 citations)
• Synthesis and Complexation Studies of Neutral Anion Receptors (199 citations)

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

His primary areas of study are Organic chemistry, Polymer chemistry, Stereochemistry, Catalysis and Molecule. His research on Polymer chemistry also deals with topics like

• Gene delivery, Michael reaction, Combinatorial chemistry, Genetic transfer and Side chain most often made with reference to Amine gas treating,
• Polymer which intersects with area such as Nanotechnology,
• Membrane and Siloxane most often made with reference to Copolymer. He usually deals with Gene delivery and limits it to topics linked to Cystamine and Transfection and Triethylenetetramine.

Johan F.J. Engbersen interconnects Metal ions in aqueous solution, Nucleophile and Enzyme model in the investigation of issues within Stereochemistry. His Catalysis research includes elements of Substrate, Hydrolysis, Phosphate and Cleavage. Johan F.J. Engbersen has included themes like Inorganic chemistry, Crystallography and Fluorescence in his Molecule study.

He most often published in these fields:

• Organic chemistry (25.69%)
• Polymer chemistry (17.36%)
• Stereochemistry (17.36%)

What were the highlights of his more recent work (between 2009-2019)?

• Gene delivery (13.89%)
• Polymer (13.19%)
• Nanotechnology (8.33%)

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

Johan F.J. Engbersen spends much of his time researching Gene delivery, Polymer, Nanotechnology, Transfection and Drug delivery. His work carried out in the field of Gene delivery brings together such families of science as Polymer chemistry, Cystamine, Stereochemistry, Cell biology and Polyethylenimine. The study incorporates disciplines such as Moiety, Ph range, Nicotinamide, Drug carrier and Amine gas treating in addition to Polymer chemistry.

Particularly relevant to Pyrrolidine is his body of work in Stereochemistry. His Transfection research integrates issues from Molecular biology and DNA. In Cytotoxicity, Johan F.J. Engbersen works on issues like Polymerization, which are connected to Catalysis.

Between 2009 and 2019, his most popular works were:

• Responsive layer-by-layer materials for drug delivery. (153 citations)
• Coating nanocarriers with hyaluronic acid facilitates intravitreal drug delivery for retinal gene therapy (75 citations)
• Shielding the cationic charge of nanoparticle-formulated dermal DNA vaccines is essential for antigen expression and immunogenicity. (67 citations)

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

• Organic chemistry
• Enzyme
• Catalysis

Johan F.J. Engbersen mainly focuses on Gene delivery, Transfection, Amine gas treating, Drug delivery and PEGylation. His studies deal with areas such as Internalization, Endocytosis, Pinocytosis, Endocytosis Pathway and Cell biology as well as Gene delivery. His work deals with themes such as Endocytic cycle and Polymer chemistry, which intersect with Transfection.

His study with Amine gas treating involves better knowledge in Organic chemistry. His Cationic polymerization study combines topics from a wide range of disciplines, such as Copolymer, Polymerization, Triethylenetetramine, RNA interference and Mediator. His Michael reaction study combines topics in areas such as DNA, Polymer, Amide, Cystamine and Cytotoxicity.

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