期刊
JOURNAL OF ORGANIC CHEMISTRY
卷 84, 期 3, 页码 1126-1138出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.joc.8b02389
关键词
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资金
- National Science Foundation [CHE-0847358, CHE-1363375]
- Irvine Foundation grant
The hydrogen-bonding activation for 66 organocatalysts has been quantified using a P-31 NMR binding experiment with triethylphosphine oxide (TEPO). Diverse structural classes, including phenols, diols, silanols, carboxylic acids, boronic acids, and phosphoric acids, were examined with a variety of steric and electronic modifications to understand how the structure and secondary effects contribute to hydrogen-bonding ability and catalysis. Hammett plots demonstrate high correlation for the Delta delta P-31 NMR shift to Hammett parameters, establishing the ability of TEPO binding to predict electronic trends. Upon correlation to catalytic activity in a Friedel-Crafts addition reaction, data demonstrate that P-31 NMR shifts correlate to catalytic activity better than pK(a) values. Boronic acids were investigated, and P-31 NMR binding experiments predicted strong hydrogen-bonding ability, for which catalytic activity was confirmed, resulting in the greatest rate enhancement observed in the Friedel-Crafts addition of all organocatalysts studied. A detailed investigation supports that boronic acid activation proceeds through hydrogen-bonding interactions and not coordination with the Lewis acidic boron center. Using P-31 NMR spectroscopy offers a simple and rapid tool to quantify and predict hydrogen-bonding abilities for the design and applications of new organocatalysts and supramolecular synthons.
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