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Lipid-inspired biomimicking morphosynthesis of a series of complex concave silica architectures.

Zhengdao LiChuanyun YangXingjian ZhangJiping ShiLu RuanQi LiuYongcai ZhangYong Zhou
Published in: Chemical communications (Cambridge, England) (2023)
The lipid-inspired biosilicification process enables the creation of a series of concave silica nanoarchitectures in the complex shapes of nanobowls, nanodishes, nanoboats, and nanoloops. The reaction at a pH of 8 initially allows the formation of thin and elastic circular gel nanosheets that can undergo inducible stretching and folding, which subsequently evolves into nanodish and nanobowl through a potential global buckling process. The adjustment of the pH to 9 and 4 enables the production of more complex morphogens of nanoboat and nanoloop, respectively. These unique silica nanoarchitectures may have a wide scope of potential application from nanoreactors in heterogenous catalysis to drug delivery systems and optical materials.
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