Design of surface-active artificial enzyme particles to stabilize Pickering emulsions for high-performance biphasic biocatalysis

Baciocchi; Binks; Bonomi; Chen; Chen; Crossley; Dewey; Diez-Castellnou; Gao; Jiang; Kapil; Kosif; Köhler; Li; Li; Lin; Liu; Liu; Mondloch; Nanda; Natalio; Neverov; Pengo; Pera-Titus; Silverman; Smith; Song; Sun; Tonga; Vernekar; Wang; Wang; Wang; Wiese; Wu; Yang; Zapata; Zaramella; Zhang; Zhou

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Design of surface-active artificial enzyme particles to stabilize Pickering emulsions for high-performance biphasic biocatalysis

Authors: Baciocchi
Binks
Bonomi
Chen
Chen
Crossley
Dewey
Diez-Castellnou
Gao
Jiang
Kapil
Kosif
Köhler
Li
Li
Lin
Liu
Liu
Mondloch
Nanda
Natalio
Neverov
Pengo
Pera-Titus
Silverman
Smith
Song
Sun
Tonga
Vernekar
Wang
Wang
Wang
Wiese
Wu
Yang
Zapata
Zaramella
Zhang
Zhou
Publication date: 19 December 2015
Publisher: 'Wiley'
Doi

Abstract

© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. Surface-active artificial enzymes (SAEs) are designed and constructed by a general and novel strategy. These SAEs can simultaneously stabilize Pickering emulsions and catalyze biphasic biotransformation with superior enzymatic stability and good re-usability; for example, for the interfacial conversion of hydrophobic p-nitrophenyl butyrate into yellow water-soluble p-nitrophenolate catalyzed by esterase-mimic SAE

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