V
Vincent M. Rotello
Researcher at University of Massachusetts Amherst
Publications - 797
Citations - 60364
Vincent M. Rotello is an academic researcher from University of Massachusetts Amherst. The author has contributed to research in topics: Nanoparticle & Colloidal gold. The author has an hindex of 108, co-authored 766 publications receiving 52473 citations. Previous affiliations of Vincent M. Rotello include Eindhoven University of Technology & Indiana University.
Papers
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Journal ArticleDOI
Hybrid organic-inorganic colloidal composite 'sponges' via internal crosslinking.
Bradley Duncan,Ryan F. Landis,Huda A. Jerri,Valery Normand,Daniel Benczedi,Lahoussine Ouali,Vincent M. Rotello +6 more
TL;DR: An effective method for the generation of hybrid organic-inorganic nanocomposite microparticles featuring controlled size and high structural stability is presented.
Journal ArticleDOI
Model systems for flavoenzyme activity: a tuneable intramolecularly hydrogen bonded flavin–diamidopyridine complex
Alan S. F. Boyd,Joseph B. Carroll,Graeme Cooke,James F. Garety,Brian J. Jordan,Suhil Mabruk,Georgina M. Rosair,Vincent M. Rotello +7 more
TL;DR: The electrochemically tuneable intramolecular hydrogen bonding interactions between a covalently linked flavin-diamidopyridine unit are reported.
Journal ArticleDOI
Development of coinage metal nanoclusters as antimicrobials to combat bacterial infections
TL;DR: Multiple advantages and the prospect of using gold/silver/copper nanoclusters as antimicrobials are discussed and more research is required to tap their full potential.
Patent
Direct incident beam lithography for patterning nanoparticles, and the articles formed thereby
TL;DR: In this article, the authors proposed a method for generating a 3D structure on a surface by exposing a portion of the layer to incident radiation having a defined pattern at a dosage effective to aggregate the nanoparticles in the exposed portion of a layer into a three-dimensional structure.
Journal ArticleDOI
Dynamically crosslinked polymer nanocomposites to treat multidrug-resistant bacterial biofilms.
Dong Yu Zhu,Ryan F. Landis,Cheng-Hsuan Li,Akash Gupta,Li-Sheng Wang,Yingying Geng,Sanjana Gopalakrishnan,Jian Wei Guo,Vincent M. Rotello +8 more
TL;DR: It is demonstrated that DCPNs efficiently penetrate the biofilm matrix, eradicating both Gram-negative/positive bacteria enclosed within, and showed no observable toxicity to fibroblast mammalian cells with the same antimicrobial concentrations necessary to eradicate MDR biofilms.