Host-guest interactions of catechol and 4-ethylcatechol with surface-immobilized blue-box molecules
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Owais, Ahmed
Djerdjev, Alex M.
Hook, J
Yuen, Alex
Rowlands, William
White, Nicholas
Neto, Chiara
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RSC Publications
Abstract
Catechol and 4-ethylcatechol are highly toxic, carcinogenic, and mutagenic molecules, often produced in
water in small quantities as a result of hydrothermal upgrading processes. In this work, we demonstrate the
facile immobilization of cyclobis(paraquat-p-phenylene) macrocycles (known as blue box (BB)) on silica
surfaces, and show that BB-coated silica surfaces adsorb large amounts of catechol and 4-ethylcatechol,
with a molar ratio of 214 : 1 and 432 : 1, respectively, instead of the expected 1 : 1 ratio. The adsorbates
formed large aggregates on the silica surface, with a height range of 2–55 nm dependent on the
catechol concentration and reaction time, while uncoated silica powder did not adsorb any catechol
from water. The aggregates are shown to be poly(catechol)s, as a result of a BB-induced polymerization
process in water under non-alkaline conditions. The process is initiated by the formation of radical
cations of the adsorbed catechol and 4-ethylcatechol upon the complexation with assembled BB
molecules through charge-transfer interactions. This is the first report of the polymerization of guest
molecules catalyzed by surface-immobilized BB macrocycles. A BB-coated silica powder was used to
extract up to 95% of 4-ethylcatechol in 3 hours and 60% of catechol in 2 hours from dilute aqueous
solutions and did not leave particulates behind. More than 90% of the BB4+ macrocycles could be
recovered from the silica surfaces after the water treatment processes.
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Journal of Materials Chemistry A
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2037-12-31
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