Publication | Closed Access
Large-Scale Aqueous Synthesis of Fluorescent and Biocompatible Silicon Nanoparticles and Their Use as Highly Photostable Biological Probes
429
Citations
45
References
2013
Year
NanoparticlesNanotherapeuticsEngineeringBiocompatible Silicon NanoparticlesBiomedical EngineeringProtein NanoparticlesTheir UseTherapeutic NanomaterialsLarge-scale Synthetic StrategyBioimagingSilicon NanoparticlesNanosensorMolecular ImagingBiomedicineNanobiotechnologyImmunoengineeringLarge-scale Aqueous SynthesisSingle-molecule DetectionBiomedical DiagnosticsDrug Delivery SystemsSuch SinpsChemical ProbeMedicineBiomedical Applications
A large-scale synthetic strategy is developed for facile one-pot aqueous synthesis of silicon nanoparticles (SiNPs) yielding ∼0.1 g SiNPs of small sizes (∼2.2 nm) in 10 min. The as-prepared SiNPs feature strong fluorescence (photoluminescence quantum yield of 20-25%), favorable biocompatibility, and robust photo- and pH-stability. Moreover, the SiNPs are naturally water dispersible, requiring no additional post-treatment. Such SiNPs can serve as highly photostable bioprobes and are superbly suitable for long-term immunofluorescent cellular imaging.
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