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Emerging trends in flow chemistry enabled by 3D printing: Robust reactors, biocatalysis and electrochemistry
Current Opinion in Green and Sustainable Chemistry ( IF 9.3 ) Pub Date : 2020-06-19 , DOI: 10.1016/j.cogsc.2020.100367
Victor Sans

This contribution reviews the state of the art in the employment of additive manufacturing for the development of continuous-flow reactors, highlighting their potential for developing green and sustainable chemical processes. Additive manufacturing, commonly known as 3D printing, has an untapped potential for the design and development of sustainable chemical processes. The integration of multiple enabling technologies is facilitated by the freedom of design inherent to these techniques. In this way, safer and efficient processes with integrated capabilities can be realised in a simple and cost-effective fashion. This relatively young field is evolving towards more robust and functional devices. Two trends are discussed here. First, the employment of robust materials, including metal and ceramics for the fabrication of the reactors. Second, the integration of flow reactors with biocatalysis and electrochemistry, both of them are key technologies for the sustainable synthesis of chemicals and fuels.



中文翻译:

通过3D打印实现流动化学的新兴趋势:坚固的反应器,生物催化和电化学

该贡献回顾了增材制造在开发连续流反应器方面的最新技术,突出了它们在开发绿色和可持续化学过程中的潜力。增材制造(通常称为3D打印)在设计和开发可持续化学工艺方面具有未开发的潜力。这些技术固有的设计自由度促进了多种支持技术的集成。通过这种方式,可以以简单且具有成本效益的方式实现具有集成功能的更安全,更高效的过程。这个相对年轻的领域正在向功能更强大和功能更强的设备发展。这里讨论了两种趋势。首先,使用坚固的材料,包括金属和陶瓷来制造反应堆。第二,

更新日期:2020-06-19
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