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• W3161711410 endingPage "4942" @default.
• W3161711410 startingPage "4929" @default.
• W3161711410 abstract "The asymmetric water–air interface provides a dynamic aqueous environment with properties that are often very different than bulk aqueous or gaseous phases and promotes reactions that are thermodynamically, kinetically, or otherwise unfavorable in bulk water. Prebiotic chemistry faces a key challenge: water is necessary for life yet reduces the efficiency of many biomolecular synthesis reactions. This perspective considers water–air interfaces as auspicious reaction environments for abiotic synthesis. We discuss recent evidence that (1) water–air interfaces promote condensation reactions including peptide synthesis, phosphorylation, and oligomerization; (2) photochemistry at water–air interfaces may have been a significant source of prebiotic molecular complexity, given the lack of oxygen and increased availability of near-ultraviolet radiation on early Earth; and (3) water–air interfaces can promote spontaneous reduction and oxidation reactions, potentially providing protometabolic pathways. Life likely began within a relatively short time frame, and water–air interfaces offer promising environments for simultaneous and efficient biomolecule production." @default.
• W3161711410 created "2021-05-24" @default.
• W3161711410 creator A5051342774 @default.
• W3161711410 creator A5052467573 @default.
• W3161711410 creator A5088239798 @default.
• W3161711410 date "2021-05-12" @default.
• W3161711410 modified "2023-09-25" @default.
• W3161711410 title "Water–Air Interfaces as Environments to Address the Water Paradox in Prebiotic Chemistry: A Physical Chemistry Perspective" @default.
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• W3161711410 doi "https://doi.org/10.1021/acs.jpca.1c02864" @default.
• W3161711410 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33979519" @default.
• W3161711410 hasPublicationYear "2021" @default.
• W3161711410 type Work @default.

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