A one‐step facile synthesis of submicrometer‐sized hollow silver spheres (see Figure) has been achieved in aqueous solutions by using double‐hydrophilic block copolymer (DHBC)‐surfactant complex micelles as removable templates. The unique silver shell structures are candidates for both fundamental research and applications.
The crystallization of calcium oxalate in aqueous solutions of a double-hydrophilic block
copolymer poly(ethyleneglycol)-block-poly(methacrylic acid) (PEG-b-PMAA) has been investigated, focusing on morphological control of the calcium oxalate dihydrate (COD) crystals.
It has been shown that with increasing polymer concentration, the morphology of the obtained
COD crystals gradually changed from tetragonal bipyramids dominated by the {101} faces
to rodlike tetragonal prisms dominated by the {100} faces, which is a morphology adopted
by some plant COD crystals but not obtained in vitro previously. The concentration of calcium
oxalate and the [Ca2+]/[C2O4
2-] ratio were also found to show considerable effects on the
morphology of the obtained COD crystals. Seed growth experiments further demonstrated
the drastic effect of the polymer on the COD crystal morphology. This effect was preliminarily
discussed in terms of possible structural correlation between the short PMAA chain of the
polymer and the COD {100} planes.
Shuttle-like crystalline TiO 2 nanoparticles were synthesized by hydrolysis of titanium tetrabutoxide in the presence of acids in NP-5 (Igepal CO-520)-cyclohexane reverse micelle at room temperature. Pure rutile nanoparticles were obtained at appropriate acid concentrations. The influences of various reaction conditions, such as concentration and type of acid, water content, H 2 O/Ti molar ratio, and reaction time, on the formation, crystal phase, morphology, and size of the TiO 2 particles were investigated.
Novel silver nanowire thin films, which consist of interwoven bundles of single-crystalline
silver nanowires about 30−40 nm in diameter, have been successfully synthesized on glass
wall by mild chemical reduction in aqueous solutions of poly(methacrylic acid) at room
temperature. Scanning electron microscopy (SEM), transmission electron microscopy (TEM),
powder X-ray diffraction (XRD), and UV−vis absorption spectroscopy have been used to
characterize the obtained silver products. It was found that there existed a competition
between precipitation of spherical particles, precipitation of individual nanowires, and
formation of silver nanowire films. It was revealed that the negatively charged glass surface
provided heterogeneous nucleation sites for the growth of bundles of silver nanowires.
Appropriate pH values and polymer concentrations were crucial for the growth of dense
silver nanowire films on the glass wall. A polymer-mediated heterogeneous nucleation and
growth process has been proposed for the formation of the unique metal nanowire thin films.
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