Nucleobase-Functionalized Poly(alkylthiophene)s: One-Pot, Sequential Direct Arylation Polymerization and Deprotection, and Surface Modification for Oil–Water Separations

Direct arylation polymerization (DArP) has emerged as an environmentally friendly, atom efficient method of synthesizing a variety of conjugated polymers. Here, we report a one-pot approach consisting of DArP followed by Boc deprotection to synthesize a functional, surface-active adenine-containing...

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Bibliographic Details
Published in:ACS applied polymer materials 2021-02, Vol.3 (2), p.1012-1021
Main Authors: Sabury, Sina, LaRiviere, Ben, Ericson, M. Nance, Kilbey, S. Michael
Format: Article
Language:English
Subjects:
direct arylation polymerization
MATERIALS SCIENCE
nucleobase
oil-water separation
superhydrophobic surface
surface modification
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Summary:Direct arylation polymerization (DArP) has emerged as an environmentally friendly, atom efficient method of synthesizing a variety of conjugated polymers. Here, we report a one-pot approach consisting of DArP followed by Boc deprotection to synthesize a functional, surface-active adenine-containing poly­(alkylthiophene). Careful control over the polymerization temperature enables the one-pot polymerization and deprotection strategy for synthesis, with quantitative (>99%) Boc deprotection achieved in 24 h. This temperature-controlled synthesis method reduces extra purification and isolation steps, which makes the total synthesis more efficient and practical, and allows higher molecular weight polymer to be made. We quantify the hydrogen bonding ability of the resulting adenine-containing polythiophene, T Ad - t T 4h , by 1H NMR host–guest titration studies and analyze the results with the Benesi–Hildebrand model, yielding an association constant of 18.7 M–1 between alkylated thymine and T Ad - t T 4h . We demonstrate that T Ad - t T 4h robustly modifies the surface of cellulosic filter paper (CFP), and the modified cellulosic filter paper, CFP-T Ad - t T 4h , is an effective oil–water separatory filter with superhydrophobic properties (water contact angle (CA) ∼151°). The utility of hydrogen bonding interactions between adenine and cellulose highlights the importance of side-chain engineering for creating functional materials.
ISSN:2637-6105
2637-6105
DOI:10.1021/acsapm.0c01281