Per B. Zetterlund

What is he best known for?

The fields of study he is best known for:

• Organic chemistry
• Polymer
• Catalysis

His scientific interests lie mostly in Polymerization, Polymer chemistry, Radical polymerization, Monomer and Reversible addition−fragmentation chain-transfer polymerization. Per B. Zetterlund mostly deals with Miniemulsion in his studies of Polymerization. Per B. Zetterlund has included themes like Nitroxide mediated radical polymerization, Emulsion polymerization, Dispersion polymerization, Solution polymerization and Styrene in his Polymer chemistry study.

His research in Radical polymerization intersects with topics in Combinatorial chemistry, Photochemistry and Methyl acrylate. Per B. Zetterlund combines subjects such as Copolymer and Molar mass distribution with his study of Monomer. His Reversible addition−fragmentation chain-transfer polymerization research incorporates elements of Multiblock copolymer, Polymer science and Chain transfer.

His most cited work include:

• Controlled/living radical polymerization in dispersed systems (471 citations)
• Rapid and quantitative one-pot synthesis of sequence-controlled polymers by radical polymerization (269 citations)
• High-order multiblock copolymers via iterative Cu(0)-mediated radical polymerizations (SET-LRP): toward biological precision. (234 citations)

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

His main research concerns Polymerization, Polymer chemistry, Radical polymerization, Monomer and Miniemulsion. Polymer covers Per B. Zetterlund research in Polymerization. His Polymer chemistry research is multidisciplinary, incorporating perspectives in Copolymer, Styrene, Nitroxide mediated radical polymerization, Radical and Living polymerization.

His Radical polymerization research includes themes of Photochemistry, Reaction rate constant and Solution polymerization. His Monomer study combines topics in areas such as Degree of polymerization and Molar mass distribution. The Miniemulsion study combines topics in areas such as Nucleation, Nanoparticle, Nanocapsules, Divinylbenzene and Aqueous solution.

He most often published in these fields:

• Polymerization (66.67%)
• Polymer chemistry (65.43%)
• Radical polymerization (53.91%)

What were the highlights of his more recent work (between 2018-2021)?

• Polymerization (66.67%)
• Polymer (19.34%)
• Graphene (7.82%)

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

His primary areas of study are Polymerization, Polymer, Graphene, Miniemulsion and Monomer. The various areas that Per B. Zetterlund examines in his Polymerization study include Copolymer and Self-assembly. Per B. Zetterlund has researched Polymer in several fields, including Pulmonary surfactant, Sodium dodecyl sulfate and Flow chemistry.

His Sodium dodecyl sulfate study which covers Cationic polymerization that intersects with Radical polymerization. His studies in Radical polymerization integrate themes in fields like Aqueous solution and Hybrid material. His work is dedicated to discovering how Miniemulsion, Methyl methacrylate are connected with Particle size, Membrane emulsification, Degree of polymerization and Reversible addition−fragmentation chain-transfer polymerization and other disciplines.

Between 2018 and 2021, his most popular works were:

• Alcohol-based PISA in batch and flow: exploring the role of photoinitiators (22 citations)
• Rapid Oxygen Tolerant Aqueous RAFT Photopolymerization in Continuous Flow Reactors (21 citations)
• Polymer Synthesis in Continuous Flow Reactors (19 citations)

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

• Organic chemistry
• Polymer
• Catalysis

Per B. Zetterlund spends much of his time researching Polymerization, Polymer, Chain transfer, Methacrylate and Monomer. His Polymerization research incorporates themes from Copolymer, Biomolecule, Nanotechnology, Graphene and Confined space. His study in the fields of Emulsion polymerization under the domain of Copolymer overlaps with other disciplines such as Particle.

His research on Polymer also deals with topics like

• Nanocomposite which is related to area like Conductivity, Radical polymerization, Hybrid material and Aqueous solution,
• Drug delivery and Current most often made with reference to Flow chemistry,
• Continuous reactor, which have a strong connection to Yield. His work deals with themes such as Radical and Photopolymer, which intersect with Chain transfer. His biological study spans a wide range of topics, including Styrene, Nanomedicine and Raft.

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