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A scalable self-nanoemulsification approach to uniform nanocarriers

Nature Chemical Engineering (2026)Cite this article

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High-throughput production of uniform nanocarriers could drive biomedical breakthroughs, but remains challenging. Now an approach based on robust, scalable self-nanoemulsification driven by non-equilibrium surfactant partitioning is developed to synthesize diverse uniform nanocarriers at a rate of up to 5 l min−1.

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Fig. 1: Non-equilibrium surfactant partitioning drives self-nanoemulsification.

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This is a summary of: Cao, Q. et al. Non-equilibrium surfactant partitioning drives self-nanoemulsification for scalable nanocarrier production. Nat. Chem. Eng. https://doi.org/10.1038/s44286-026-00367-2 (2026).

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A scalable self-nanoemulsification approach to uniform nanocarriers. Nat Chem Eng (2026). https://doi.org/10.1038/s44286-026-00370-7

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