Protein Information

ID 2534
Name P105
Synonyms CDH13; p105; CDHH; Cadherin 13; Cadherin 13 precursor; H cadherin; Heart cadherin; T cad…

Compound Information

ID 1399
Name ethylene oxide
CAS oxirane

Reference

PubMed Abstract RScore(About this table)
19968275 Goy-Lopez S, Taboada P, Cambon A, Juarez J, Alvarez-Lorenzo C, Concheiro A, Mosquera V: Modulation of size and shape of Au nanoparticles using amino-X-shaped poly (ethylene oxide)-poly (propylene oxide) block copolymers. J Phys Chem B. 2010 Jan 14;114(1):66-76.
In the present work, the formation and stabilization of gold nanoparticles in a one-pot water-based synthesis has been achieved in the presence of a four-arm, star-shaped polyoxyethyelene-polyoxypropylene (PEO-PPO) block copolymer, Tetronic T904, which acts as both reductant and stabilizer. The influence of several parameters such as copolymer and gold salt concentration, reaction temperature, and solution pH on both the size and shape of the resulting nanocrystals has been established. Low copolymer/gold salt molar ratios favor the formation of either triangular or hexagonal planar nanostructures due to a low reduction rate which turns the reaction into kinetic control. As the molar ratio increases, reduction becomes faster with the subsequent increase in the number of crystal seeds and, thus, the decrease in particle size. In addition, there is an increase in the reduction rate which causes the reduction reaction to be governed by thermodynamics, and consequently, spherical geometries are favored. A particle spherical shape can also be promoted as a consequence of the accumulation of block copolymer molecules on different crystallographic planes, homogenizing the metal surface structure and disabling the growth in different crystallographic directions. The same behavior was observed when the reaction temperature was raised. The size and shape of gold nanoparticles could also be controlled by varying the pH of the medium. As the pH becomes more acidic, protons prevent the oxyethylene part of the copolymer from the reduction of metal ions, and consequently, the number of nuclei decreases. This explains the overall increase in the particle size and the change in shape when the synthesis is carried out in acid medium. Finally, comparison with nanoparticles obtained in the presence of a structurally related linear block copolymer Pluronic P105, with a similar number of EO and PO units as T904, denoted an important incidence of the arrangement of PEO and PPO blocks on the reduction reaction rate and the size and shape of the resulting nanoparticles.
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