<HashMap><database>biostudies-literature</database><scores/><additional><submitter>Shao C</submitter><funding>Natural Science Foundation of Jiangsu Province (Jiangsu Provincial Natural Science Foundation)</funding><funding>National Natural Science Foundation of China (National Science Foundation of China)</funding><pagination>8023</pagination><full_dataset_link>https://www.ebi.ac.uk/biostudies/studies/S-EPMC11399338</full_dataset_link><repository>biostudies-literature</repository><omics_type>Unknown</omics_type><volume>15(1)</volume><pubmed_abstract>H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis represents an appealing approach for sustainable and decentralized H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> production. Unfortunately, current reactions are mostly carried out in laboratory-scale single-phase batch reactors, which have a limited H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> production rate (&lt;100 μmol h&lt;sup>-1&lt;/sup>) and cannot operate in an uninterrupted manner. Herein, we propose continuous H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis and extraction in a biphasic fluid system. A superhydrophobic covalent organic framework photocatalyst with perfluoroalkyl functionalization is rationally designed and prepared via the Schiff-base reaction. When applied in a home-built biphasic fluid photo-reactor, the superhydrophobicity of our photocatalyst allows its selective dispersion in the oil phase, while formed H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> is spontaneously extracted to the water phase. Through optimizing reaction parameters, we achieve continuous H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis and extraction with an unprecedented production rate of up to 968 μmol h&lt;sup>-1&lt;/sup> and tunable H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> concentrations from 2.2 to 38.1 mM. As-obtained H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> solution could satisfactorily meet the general demands of household disinfection and wastewater treatments.</pubmed_abstract><journal>Nature communications</journal><pubmed_title>Perfluoroalkyl-modified covalent organic frameworks for continuous photocatalytic hydrogen peroxide synthesis and extraction in a biphasic fluid system.</pubmed_title><pmcid>PMC11399338</pmcid><funding_grant_id>U2002213</funding_grant_id><funding_grant_id>BK20220027</funding_grant_id><funding_grant_id>52161160331</funding_grant_id><pubmed_authors>Li Y</pubmed_authors><pubmed_authors>Hu Y</pubmed_authors><pubmed_authors>Huang W</pubmed_authors><pubmed_authors>Ji Y</pubmed_authors><pubmed_authors>Yan Y</pubmed_authors><pubmed_authors>Yu X</pubmed_authors><pubmed_authors>Xu J</pubmed_authors><pubmed_authors>Shao C</pubmed_authors></additional><is_claimable>false</is_claimable><name>Perfluoroalkyl-modified covalent organic frameworks for continuous photocatalytic hydrogen peroxide synthesis and extraction in a biphasic fluid system.</name><description>H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis represents an appealing approach for sustainable and decentralized H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> production. Unfortunately, current reactions are mostly carried out in laboratory-scale single-phase batch reactors, which have a limited H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> production rate (&lt;100 μmol h&lt;sup>-1&lt;/sup>) and cannot operate in an uninterrupted manner. Herein, we propose continuous H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis and extraction in a biphasic fluid system. A superhydrophobic covalent organic framework photocatalyst with perfluoroalkyl functionalization is rationally designed and prepared via the Schiff-base reaction. When applied in a home-built biphasic fluid photo-reactor, the superhydrophobicity of our photocatalyst allows its selective dispersion in the oil phase, while formed H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> is spontaneously extracted to the water phase. Through optimizing reaction parameters, we achieve continuous H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> photosynthesis and extraction with an unprecedented production rate of up to 968 μmol h&lt;sup>-1&lt;/sup> and tunable H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> concentrations from 2.2 to 38.1 mM. As-obtained H&lt;sub>2&lt;/sub>O&lt;sub>2&lt;/sub> solution could satisfactorily meet the general demands of household disinfection and wastewater treatments.</description><dates><release>2024-01-01T00:00:00Z</release><publication>2024 Sep</publication><modification>2026-06-02T23:18:58.922Z</modification><creation>2025-04-04T12:09:58.305Z</creation></dates><accession>S-EPMC11399338</accession><cross_references><pubmed>39271689</pubmed><doi>10.1038/s41467-024-52405-3</doi></cross_references></HashMap>