软物质科学与 COVID-19 大流行。

Soft matter science and the COVID-19 pandemic.

机构信息

Edinburgh Complex Fluids Partnership (ECFP), SUPA and School of Physics & Astronomy, The University of Edinburgh, Peter Guthrie Tait Road, Edinburgh EH9 3FD, UK.

出版信息

Soft Matter. 2020 Sep 23;16(36):8310-8324. doi: 10.1039/d0sm01223h.

DOI:10.1039/d0sm01223h

PMID:32909024

Abstract

Much of the science underpinning the global response to the COVID-19 pandemic lies in the soft matter domain. Coronaviruses are composite particles with a core of nucleic acids complexed to proteins surrounded by a protein-studded lipid bilayer shell. A dominant route for transmission is via air-borne aerosols and droplets. Viral interaction with polymeric body fluids, particularly mucus, and cell membranes controls their infectivity, while their interaction with skin and artificial surfaces underpins cleaning and disinfection and the efficacy of masks and other personal protective equipment. The global response to COVID-19 has highlighted gaps in the soft matter knowledge base. We survey these gaps, especially as pertaining to the transmission of the disease, and suggest questions that can (and need to) be tackled, both in response to COVID-19 and to better prepare for future viral pandemics.

摘要

支撑全球应对 COVID-19 大流行的科学主要集中在软物质领域。冠状病毒是复合粒子，其核心是核酸与蛋白质复合，周围是带有蛋白突刺的脂质双层外壳。主要传播途径是空气传播的气溶胶和飞沫。病毒与聚合体液，特别是黏液和细胞膜的相互作用控制着它们的感染力，而它们与皮肤和人工表面的相互作用则支撑着清洁和消毒以及口罩和其他个人防护设备的功效。全球对 COVID-19 的应对突显了软物质知识库中的差距。我们调查了这些差距，特别是与疾病传播有关的差距，并提出了一些可以（并且需要）解决的问题，这些问题既是为了应对 COVID-19，也是为了更好地为未来的病毒性大流行做好准备。

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软物质科学与 COVID-19 大流行。

Soft matter science and the COVID-19 pandemic.

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