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Controlling the Nucleation and Growth of Au on a -Se Nanospheres to Enhance Their Cellular Uptake and Cytotoxicity.

Haoyan ChengChenxiao WangZhiheng LyuZhihong ZhuQinfei Ke
Published in: Journal of the American Chemical Society (2023)
We report a method to experimentally control the heterogeneous nucleation and growth of Au nanoparticles on the surface of amorphous Se ( a -Se) nanospheres. When a Au III precursor is added into a colloidal suspension of a -Se nanospheres, galvanic replacement occurs between them and the resultant Au 0 atoms then heterogeneously nucleate and grow from the surface of the a -Se nanospheres. As a unique feature of this system, the Au 0 atoms can only be produced on the surface of the a -Se nanospheres in the nucleation stage. Once Au nuclei are formed on the surface at the very beginning of a synthesis, they will serve as the preferential sites for further deposition of Au 0 atoms, making it possible to control the number of Au nanoparticles on each nanosphere and the morphology of the final product. The dependence of the initial reduction rate on the pH can be used to obtain Se-Au hybrid nanoparticles containing one, two, three, and multiple Au nanoparticles on the surface of each a -Se nanosphere. The presence of Au patches on the hybrid nanoparticles offers an experimental handle to optimize the ligand distribution for the achievement of enhanced cellular uptake and cytotoxicity for the a -Se nanospheres.
Keyphrases
  • sensitive detection
  • reduced graphene oxide
  • visible light
  • gold nanoparticles
  • machine learning