Rational Modulation of the Periodicity in Linear Hydrogen-Bonded Assemblies of Trimesic Acid on Surfaces
Journal of the American Chemical Society2006Vol. 128(13), pp. 4212–4213
Citations Over TimeTop 1% of 2006 papers
Krishna G. Nath, Oleksandr Ivasenko, Jill A. Miwa, Hung Dang, James D. Wuest, Antonio Nanci, Dmitrii F. Perepichka, Federico Rosei
Abstract
We demonstrate a surprising cooperative adsorption process at the liquid-solid interface, involving self-assembly in which a three-fold hydrogen-bonding unit (trimesic acid, TMA) is forced into a linear pattern by noncovalent interaction with an alcohol. Our work shows that the unexpected linear pattern formed by coadsorption of TMA and alcohols can be modulated in size by choosing alcohols with different chain lengths.
Related Papers
- → An Acetic Acid Solvate of Trimesic Acid That Exhibits Triple Inclined Interpenetration and Mixed Supramolecular Homosynthons(2006)60 cited
- → Self-Assembly of 1,3,5-Benzenetricarboxylic (Trimesic) Acid and Its Analogues(1999)114 cited
- → Acetic acid as a solvent for the synthesis of metal–organic frameworks based on trimesic acid(2019)20 cited
- → Trimesic acid on Cu in ethanol: Potential-dependent transition from 2-D adsorbate to 3-D metal-organic framework(2017)9 cited
- → Phenol Derivatives as Co-Crystallized Templates to Modulate Trimesic-Acid-Based Hydrogen-Bonded Organic Molecular Frameworks(2021)6 cited