利用超声波悬浮技术在悬浮液滴中进行无容器生物有机反应。

Containerless Bioorganic Reactions in a Floating Droplet by Levitation Technique Using an Ultrasonic Wave.

作者信息

Matsubara Teruhiko, Takemura Kenjiro

机构信息

Department of Biosciences and Informatics Faculty of Science and Technology Keio University 3-14-1 Hiyoshi, Kohoku-ku Yokohama Kanagawa 223-8522 Japan.

Department of Mechanical Engineering Faculty of Science and Technology Keio University 3-14-1 Hiyoshi, Kohoku-ku Yokohama Kanagawa 223-8522 Japan.

出版信息

Adv Sci (Weinh). 2020 Dec 16;8(3):2002780. doi: 10.1002/advs.202002780. eCollection 2021 Feb.

DOI:10.1002/advs.202002780

PMID:33552862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7856899/

Abstract

To ensure sustainable consumption and production patterns, alternative process design without plastics for chemical and biological reactions will benefit future generations. Reaction flasks used in chemical and biological laboratories have been made from glass, metals, and plastics so far. If containerless processing can be realized, researchers will have a next-generation reaction process, which will be reactor and plastic-free, and without risks of unforeseen issues induced by contact with reactions flasks, including contamination and alteration of the reactants. Here, polymerization, click chemistry, and enzymatic reactions can proceed effectively in a floating droplet at a node of standing wave generated by ultrasonic levitation. These results demonstrate that floating droplets levitated by acoustic waves can represent a revolutionary containerless reactor for performing various reactions in the fields of chemistry and biology.

摘要

为确保可持续的消费和生产模式，用于化学和生物反应的无塑料替代工艺设计将造福子孙后代。到目前为止，化学和生物实验室中使用的反应烧瓶由玻璃、金属和塑料制成。如果能够实现无容器处理，研究人员将拥有下一代反应工艺，该工艺将无需反应器和塑料，并且没有因与反应烧瓶接触而引发的不可预见问题的风险，包括反应物的污染和变化。在这里，聚合反应、点击化学和酶促反应可以在由超声悬浮产生的驻波节点处的悬浮液滴中有效进行。这些结果表明，声波悬浮的悬浮液滴可以代表一种用于在化学和生物学领域进行各种反应的革命性无容器反应器。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2df/7856899/88215814e02d/ADVS-8-2002780-g001.jpg

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利用超声波悬浮技术在悬浮液滴中进行无容器生物有机反应。

Containerless Bioorganic Reactions in a Floating Droplet by Levitation Technique Using an Ultrasonic Wave.

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