M
Martin C. Feiters
Researcher at Radboud University Nijmegen
Publications - 79
Citations - 3651
Martin C. Feiters is an academic researcher from Radboud University Nijmegen. The author has contributed to research in topics: Hyperpolarization (physics) & XANES. The author has an hindex of 30, co-authored 73 publications receiving 3232 citations. Previous affiliations of Martin C. Feiters include Max Planck Society.
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Journal ArticleDOI
Gemini surfactants: New synthetic vectors for gene transfection
Anthony J. Kirby,Patrick Camilleri,Jan B. F. N. Engberts,Martin C. Feiters,Roeland J. M. Nolte,Olle Söderman,Mark Bergsma,Paul C. Bell,Matthew Fielden,Cristina L. García Rodríguez,Philippe Guedat,Andreas Kremer,Caroline McGregor,Christele Perrin,Gaël Ronsin,Marcel C. P. van Eijk +15 more
TL;DR: Evidence suggests that DNA may be released from the lipoplex before entry into the nucleus, where the new gene can be expressed with high efficiency.
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Iodide accumulation provides kelp with an inorganic antioxidant impacting atmospheric chemistry.
Frithjof C. Küpper,Lucy J. Carpenter,Gordon McFiggans,Carl J. Palmer,Tim J. Waite,Eva-Maria Boneberg,Sonja Woitsch,Markus Weiller,Rafael Abela,Daniel Grolimund,Philippe Potin,Alison Butler,George W. Luther,Peter M. H. Kroneck,Wolfram Meyer-Klaucke,Martin C. Feiters +15 more
TL;DR: Using x-ray absorption spectroscopy, it is shown that the accumulated form is iodide, which readily scavenges a variety of reactive oxygen species (ROS) and is the first to be described in a living system.
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Commemorating two centuries of iodine research: An interdisciplinary overview of current research
Frithjof C. Küpper,Martin C. Feiters,Berit Olofsson,Tatsuo Kaiho,Shozo Yanagida,Michael B. Zimmermann,Lucy J. Carpenter,George W. Luther,Zunli Lu,Mats Jonsson,Lars Kloo +10 more
TL;DR: Iodine was discovered as a novel element in 1811 during the Napoleonic Wars and to celebrate the bicentennial anniversary of this event the history and many facets of iodine research that have evolved since its discovery are reflected on.
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Two-component dendritic gels: easily tunable materials.
TL;DR: The tunability of a two-component gel system based on dendritic l-lysine with a focal point carboxylic acid group and aliphatic diamines is reported, which can be modulated by changing the concentration of the components, altering their molecular structures, or tuning their relative molar ratio.
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Two-Component Dendritic Gel: Effect of Stereochemistry on the Supramolecular Chiral Assembly
TL;DR: It is argued that the chirality controls the pattern of hydrogen bonding within the assembly, and hence determines the extent of fibre formation and the macroscopic gel strength.