The team of Prof. D. Schlüter (ETHZ) pushes for a mild and facile and rational approach to the synthesis of new 2-D materials using specially-designed monomers to control internal pattern. These monomers are spread onto the air-water interface and pre-organized by isothermal compression, followed by in-situ photo-polymerization (anthracene-based monomer) or complexation with transition metal ions (terpyridine-based monomer). The 2-D polymer sheets are transferred onto silicon supports or metal grids for chemical and microscopy analyses, structural studies, and mechanical property evaluation. In this work, neutron reflectivity has been employed as the unique non-destructive technique to characterize the monolayer thickness throughout the entire preparation process: before and after polymerization of the monolayer at the free surface, the polymerized sheet transferred onto a solid support, and in a novel strategy for customizing 2-D organometallics, transmetallation of the monolayer.
Contact : Lay-Theng LEE (LLB)
- Synthesis of a covalent monolayer sheet by photochemical anthracene dimerization at the air/water interface and its mechanical characterization by AFM indentation, P. Payamyar et al., Adv. Mater. 2014, 26, 2052–2058,
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Synthesis of two-dimensional analogues of copolymers by site-to-site transmetalation of organometallic monolayer sheets,
Zhikun Zheng etal., J. Am. Chem. Soc. 2014, 136, 6103−6110, - Thin metal organics join 2-D club, M. Jacoby, Highlights C&EN 2014, 92(14), 35.