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Hydrogen-bond-driven stabilization and antioxidant synergy in Pickering emulsions stabilized by natural polyphenol-cellulose nanocrystal hybrids.


ABSTRACT: To meet the increasing demand for green and sustainable delivery systems in food, cosmetics, and pharmaceuticals and address the research gap in natural polyphenol-cellulose nanocrystal (CNC) composite stabilizers, this study developed a bio-based Pickering emulsion stabilizer via hydrogen bonding between 6'-O-caffeoylarbutin (CA) and CNCs. Results demonstrated CA/CNCs self-assembled into a dense interfacial layer, endowing the emulsion with exceptional stability that was reflected in over 85% curcumin enscapsulation efficiency after 30 days of dark storage and structural integrity at up to 80 °C, while CA-curcumin synergism enhanced antioxidant activity with 76.9% DPPH and 81.2% ABTS+ free radical scavenging rates. FT-IR, 1H NMR, and computational simulations confirmed the hydrogen-bond network between CA and cellobiose as the core stabilization mechanism. This study provides a novel, eco-friendly strategy for high-performance natural stabilizers, offering the advancement of green, functional delivery systems across relevant industries.

SUBMITTER: Yin L 

PROVIDER: S-EPMC12814101 | biostudies-literature | 2026 Jan

REPOSITORIES: biostudies-literature

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Hydrogen-bond-driven stabilization and antioxidant synergy in Pickering emulsions stabilized by natural polyphenol-cellulose nanocrystal hybrids.

Yin Lu L   Han Kangjia K   Lv Yuxiu Y   Xie Dong D   Jiang Qian Q   Zhao Ping P   Zou Lihua L   Xie Sida S   Rao Xiaoping X   Li Wei W   Yang Xiaoqin X  

Food chemistry: X 20260103


To meet the increasing demand for green and sustainable delivery systems in food, cosmetics, and pharmaceuticals and address the research gap in natural polyphenol-cellulose nanocrystal (CNC) composite stabilizers, this study developed a bio-based Pickering emulsion stabilizer via hydrogen bonding between 6'-<i>O</i>-caffeoylarbutin (CA) and CNCs. Results demonstrated CA/CNCs self-assembled into a dense interfacial layer, endowing the emulsion with exceptional stability that was reflected in ove  ...[more]

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