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Pegylation increases platelet biocompatibility of gold nanoparticles
Maria Jose Santos-Martinez
, Kamil Rahme
, J. Jose Corbalan
, Colm Faulkner
,
Justin D. Holmes
, Lidia Tajber
, Carlos Medina
, Marek Witold Radomski
School of Chemistry
Trinity College Dublin
University College Cork
Notre Dame University, Lebanon
Research output
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peer-review
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Pharmacology, Toxicology and Pharmaceutical Science
Biocompatibility
100%
Gold Nanoparticle
100%
PEGylation
100%
Nanoparticle
26%
Silicon Dioxide
13%
Macrogol
6%
Inflammation
6%
Endothelial Dysfunction
6%
Thiol
6%
Scanning Electron Microscopy
6%
Reducing Agent
6%
Transmission Electron Microscopy
6%
Citrate Sodium
6%
Stabilizing Agent
6%
Cell-Particle Interaction
6%
Material Science
Gold Nanoparticles
100%
Biocompatibility
100%
Platelet
100%
Nanoparticle
26%
Scanning Electron Microscopy
6%
Polyethylene Glycol
6%
Sodium
6%
Transmission Electron Microscopy
6%
Real-Time Polymerase Chain Reaction
6%
Engineering
Gold Nanoparticles
100%
Platelet
100%
Nanoparticle
26%
Quartz Crystal Microbalance
13%
Medical Application
6%
Molecular Mass
6%
Molecular Weight
6%
Polymer Chain
6%
Physiological Condition
6%
Biomedical Application
6%
Dysfunction
6%
Chain Reaction
6%
Phase Contrast
6%