Abstract
AbstractA novel conceptual approach to gas‐responsive functionality, with the capability to tune the amphiphilic characteristics of existing waterborne polyurethanes (WPUs), via CO2/N2 bubbling in aqueous solution, is exploited. In this study, a series of functional WPUs are successfully prepared. These colloids exhibit high aqueous stability, excellent capability for emulsification/demulsification as a surfactant, and reversible hydrophilic/hydrophobic phase transition owing to reversible formation of carboxylic acid moieties induced by bubbling CO2 gas. More interestingly, when carboxylated multiwalled carbon nanotubes (CNTs) are covalently incorporated into these WPUs, the CNT exhibits CO2‐switchable amphiphilic behavior in a two‐phase mixture of n‐butanol (BuOH)/deionized water, forming a stable hydrophobic CNT dispersion in BuOH upon CO2 bubbling, and reversibly reverting to the previous hydrophilic CNT dispersion in water upon N2 bubbling. With simple preparation and switchable amphiphilic properties, these CO2‐responsive WPUs offer a paradigm for the development of multifunctional gas‐responsive polymers.
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