Synthesis and Solid-State Self-Assembly of Polyphenols
Balasubramaniam Venkataramanan
Wong Ling Guan James
Jagadese J. Vittal
Valiyaveettil Suresh
10.1021/cg0341508.s003
https://acs.figshare.com/articles/dataset/Synthesis_and_Solid_State_Self_Assembly_of_Polyphenols/3340390
A simple synthetic strategy for polyphenols (<b>1</b>−<b>3</b>) is outlined, and their crystallographic investigations
are described. Interesting self-assembled structures were observed in the crystal lattice owing to the 3D structure
and hydrogen-bonding interactions between the hydroxyl groups. In the crystal lattice of trisphenol <b>1</b>, each hydroxyl
group participates in forming monohelical chains of hydrogen bonds along the <i>a</i>-axis. Each molecule of trisphenol
<b>1</b> is linked to six adjacent molecules through O−H···O hydrogen bonds. In the crystal lattice of trisphenol <b>2</b>, each
molecule is linked to six symmetrically oriented trisphenol neighbors through a total of six hydrogen bonds, thereby
creating a distorted ladder-type hydrogen bonded chains. Pentaphenol <b>3</b> crystallizes as tetrahydrate and water
molecules are incorporated into the crystal lattice through the formation of cyclic water hexamer with a chair
conformation. In all the above structures, both the number and the position of the hydroxyl groups on the
triphenylmethane core play an important role in the formation of supramolecular architectures.
2004-05-05 00:00:00
hydrogen bonds
Pentaphenol 3 crystallizes
molecule
formation
3 D structure
cyclic water hexamer
hydroxyl groups
crystal lattice
trisphenol 1