1. Directed In Situ Shaping of Complex Nano- and Microstructures during Chemical Synthesis
- Author
-
Stefan Seeger, Georg R. J. Artus, Debabrata Patra, Sandro Olveira, University of Zurich, and Seeger, Stefan
- Subjects
10120 Department of Chemistry ,Materials science ,Nanostructure ,Siloxanes ,Polymers and Plastics ,Surface Properties ,chemistry.chemical_element ,Germanium ,Nanotechnology ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,Chemical synthesis ,540 Chemistry ,Nano ,Materials Chemistry ,Particle Size ,Nanoscopic scale ,2505 Materials Chemistry ,chemistry.chemical_classification ,Microchemistry ,Organic Chemistry ,Substrate (chemistry) ,Polymer ,021001 nanoscience & nanotechnology ,2507 Polymers and Plastics ,Nanostructures ,0104 chemical sciences ,Chemical engineering ,chemistry ,Polymerization ,0210 nano-technology ,1605 Organic Chemistry - Abstract
Chemical composition and shape determine the basic properties of any object. Commonly, chemical synthesis and shaping follow each other in a sequence, although their combination into a single process would be an elegant simplification. Here, a pathway of simultaneous synthesis and shaping as applied to polysiloxanes on the micro- and nanoscale is presented. Complex structures such as stars, chalices, helices, volcanoes, rods, or combinations thereof are obtained. Varying the shape-controlling reaction parameters including temperature, water saturation, and the type of substrate allows to direct the reaction toward specific structures. A general mechanism of growth is suggested and analytical evidence and thermodynamic calculations to support it are provided. An aqueous droplet in either gaseous atmosphere or in a liquid organic solvent serves as a spatially confined polymerization volume. By substituting the starting materials, germanium-based nanostructures are also obtained. This transferability marks this approach as a major step toward a generally applicable method of chemical synthesis including in situ shaping.
- Published
- 2017
- Full Text
- View/download PDF