Photoinitiated Polymerization of Columnar Stacks of Self-Assembled Trialkyl-1,3,5-benzenetricarboxamide Derivatives

Abstract

A disk-shaped molecule, N-(5-sorbyl-pentyl)-N‘,N‘‘-di(n-octyl)benzene-1,3,5-tricarboxamide (1), has been synthesized and assembled into a columnar stack in cyclohexane. Using a photoinitiated process, we polymerized monomer 1 in its self-assembled state and analyzed the resulting poly-1. On cooling a boiling cyclohexane solution of 1, the molecules aggregate via amide hydrogen bonds, as supported by the position of the N−H stretching band in FT-IR spectroscopy. Evidence of helical columnar stacking of 1 in the aggregate is provided by an induced CD effect upon blending 1 with a chiral side-chain homologue 3 in a so-called “sergeants and soldiers” experiment. The columnar assembly in cyclohexane was polymerized by UV light (365 nm) irradiation in the presence of 2,2-dimethoxy-2-phenylacetophenone as radical photoinitiator. The polymerization occurs selectively to give 1,4-polymer with isolated trans CC bonds, as shown by FT-IR, and ¹H and ¹³C NMR spectroscopy. Lack of polymerization of methyl sorbate (4) under identical conditions, and low incorporation of 4 in copolymerizations with 1 in cyclohexane, suggests that the polymerization preferentially occurs within the columnar assembly. Size exclusion chromatography shows that the degree of polymerization (X_n) based on number average molecular weight is approximately 65. Incorporation of small amounts of nonpolymerizable derivatives 2 and 3 into the columns has no effect on X_n and conversion. Molecular models show that the polymerizable sidearm of 1 is long enough to span the distance between the monomers in the chiral stack. Under the atomic force microscope (AFM), purified samples of polymerized 1 displayed nanometer-sized fibrous morphologies with a high-axial-ratio (>150), uniform width (60 nm), and a thickness (1.0 nm) which corresponds to the width of the benzene tricarboxamide core of 1, whereas aggregates of nonpolymerized 1 yield a featureless image due to their instability.