Artificial intelligence-powered microfluidics for nanomedicine and materials synthesis,Nanoscale

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Artificial intelligence-powered microfluidics for nanomedicine and materials synthesis
Nanoscale ( IF 5.8 ) Pub Date : 2021-11-09 , DOI: 10.1039/d1nr06195j
Linbo Liu ₁ , Mingcheng Bi ₂ , Yunhua Wang ₁ , Junfeng Liu ₂ , Xiwen Jiang ₃ , Zhongbin Xu ₂ , Xingcai Zhang _{1,

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Affiliation

Artificial intelligence (AI) is an emerging technology with great potential, and its robust calculation and analysis capabilities are unmatched by traditional calculation tools. With the promotion of deep learning and open-source platforms, the threshold of AI has also become lower. Combining artificial intelligence with traditional fields to create new fields of high research and application value has become a trend. AI has been involved in many disciplines, such as medicine, materials, energy, and economics. The development of AI requires the support of many kinds of data, and microfluidic systems can often mine object data on a large scale to support AI. Due to the excellent synergy between the two technologies, excellent research results have emerged in many fields. In this review, we briefly review AI and microfluidics and introduce some applications of their combination, mainly in nanomedicine and material synthesis. Finally, we discuss the development trend of the combination of the two technologies.

中文翻译：

用于纳米医学和材料合成的人工智能微流体

人工智能（AI）是一种潜力巨大的新兴技术，其强大的计算和分析能力是传统计算工具无法比拟的。随着深度学习和开源平台的推广，人工智能的门槛也越来越低。将人工智能与传统领域相结合，创造具有较高研究和应用价值的新领域已成为一种趋势。人工智能已经涉及医学、材料、能源、经济学等多个学科。AI的发展需要多种数据的支持，而微流控系统往往可以大规模挖掘对象数据来支持AI。由于两种技术之间的良好协同作用，许多领域都涌现出了优秀的研究成果。在这次审查中，我们简要回顾了人工智能和微流体，并介绍了它们组合的一些应用，主要是在纳米医学和材料合成方面。最后，我们讨论了两种技术结合的发展趋势。

更新日期：2021-11-23

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