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Abstract
Methods allowing chemical reactions to be carried out on ultra-small scales in a controllable fashion are potentially important for a number of disciplines, including molecular electronics, photonics and molecular biology, and may provide fundamental insight into chemistry in confined spaces. Ultra-small-scale reactions also circumvent potential problems associated with reagent and product toxicity, and reduce energy consumption and waste generation. Here, we report a technique for performing chemical reactions on a zeptomole (10−21 mol) scale. We show that electrospun polymer nanofibres with a diameter of 100–300 nm can be loaded with reactants, and that the junctions formed between crossed nanofibres can function as attolitre-volume reactors. Exposure to heat or solvent vapours fuses the fibres and initiates the reaction. The reaction products can be analysed directly within the nanofibre junctions by fluorescence measurements and mass spectrometry, and solvent extraction of multiple reactors allows product identification by common micromethods such as high-performance liquid chromatography–mass spectrometry. Performing chemical reactions on ultra-small scales is important in a number of disciplines. Now, it has been shown that a junction formed by fusing two polymer nanowires preloaded with reactants provides an effective attolitre-volume in which reactions can be conducted on a zeptomole (10−21 mol) scale. Cite this article
Anzenbacher, P., Palacios, M. Polymer nanofibre junctions of attolitre volume serve as zeptomole-scale chemical reactors. Nature Chem 1, 80–86 (2009). https://doi.org/10.1038/nchem.125 