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Hydrogen‐Bonding‐Induced Polymorphous Phase Transitions in 2D Organic Nanostructures
Authors:Li Xu  Dr. Xinrui Miao  Bao Zha  Prof. Dr. Wenli Deng
Affiliation:College of Materials Science and Engineering, South China University of Technology, Guangzhou 510640 (China)
Abstract:The 2D self‐assembly of various 2‐hydroxy‐7‐alkoxy‐9‐fluorenone (HAF) molecules has been investigated by scanning tunneling microscopy (STM) at the liquid/solid interface. A systematic study revealed that HAF molecules with different numbers of carbon atoms in their alkoxy chains could form two or three different kinds of nanostructures, that is, less‐ordered, flower‐like, and zig‐zag patterns, owing to the formation of different types of intermolecular hydrogen bonds. The observed structural transition was found to be driven by molecular thermodynamics, surface diffusion, and the voltage pulse that was applied to the STM tip. The zig‐zag pattern was the most stable of these configurations. An odd–even effect on the flower‐like structure, as induced by the odd and even number of carbon atoms in the side chain, was observed by STM. The influence of the odd–even effect on the melting point has a close relationship with the molecular self‐assembled pattern. Our results are significant for understanding the influence of hydrogen‐bonding interactions on the dominant adsorption behavior on the surface and provide a new visual approach for observing the influence of the odd–even effect on the phase transition.
Keywords:fluorenones  hydrogen bonds  nanostructures  scanning tunneling microscopy  self‐assembly
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