Gold Nanoparticles: Assembly, Supramolecular Chemistry, Quantum-Size-Related Properties, and Applications Toward Biology, Catalysis, and Nanotechnology. Daniel & and Astruc&nbsp;Didier, M.<nbsp>C. 104:293--346, January, 0.
abstract   bibtex   
The assembly, supramolecular chemistry, quantum-size-related properties and applications towards biology, catalysis and nanotechnology of gold nanoparticles (AuNP) were discussed. The optimization of potassium-ion-exchanged optical waveguides in glass for evanescent field propulsion of AuNP was also done. It was observed that the optical manipulation of AuNP on waveguide surfaces offers a controllable tool for application to particle sorting, sensing and atomic mirrors. The use of AuNP in optoelectronic devices enhance the optical and electrical properties, stability and inhibits photoluminescence decay.
@article{ daniel_gold_0,
  title = {Gold Nanoparticles: Assembly, Supramolecular Chemistry, Quantum-Size-Related Properties, and Applications Toward Biology, Catalysis, and Nanotechnology},
  volume = {104},
  shorttitle = {Gold Nanoparticles: Assembly, Supramolecular Chemistry, Quantum-Size-Related Properties, and Applications Toward Biology, Catalysis, and Nanotechnology},
  abstract = {The assembly, supramolecular chemistry, quantum-size-related properties and applications towards biology, catalysis and nanotechnology of gold nanoparticles ({AuNP}) were discussed. The optimization of potassium-ion-exchanged optical waveguides in glass for evanescent field propulsion of {AuNP} was also done. It was observed that the optical manipulation of {AuNP} on waveguide surfaces offers a controllable tool for application to particle sorting, sensing and atomic mirrors. The use of {AuNP} in optoelectronic devices enhance the optical and electrical properties, stability and inhibits photoluminescence decay.},
  author = {Daniel, Marie Christine {and} Astruc Didier},
  month = {January},
  year = {0},
  pages = {293--346}
}

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