\begin{document}$ {v}_{\rm afv} $\end{document}), which indicates that the \begin{document}$ {v}_{\rm afv} $\end{document}of 40-nm vesicles is one order of magnitude larger than that of the 112 nm vesicles. Both theoretical analysis and experimental observation show that the smaller vesicles can attain the higher concentration on the surface (C) and high diffusivity in the medium. The global growth theoretical model (GGM) presents that for the patches with the same surface area and vesicle exposure time, the growth of the patch depends on C and lipid loss percentage during the vesicle rupture. The calculated lipid loss of the smaller vesicles is slightly higher than that of the larger vesicles, while C plays a dominating role in determining the disparity of the patch growth between the different vesicles. This study promotes the understanding of the growth mechanism of patches on the surface. It demonstates the critcial role of the supply of vesicles in this process and provides an enlightenment for investigating the reassembly of lipids on a nanoscale."> - 必威体育下载

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Citation:

    Ma Bei-Bei, Wang Fan, Lin Ling, Zhu Tao, Jiang Zhong-Ying
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    • Abstract views:2669
    • PDF Downloads:53
    • Cited By:0
    Publishing process
    • Received Date:21 February 2022
    • Accepted Date:03 April 2022
    • Available Online:02 August 2022
    • Published Online:20 August 2022

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