3D打印是绿色分析样品制备新设备的好选择吗?

IF 5.2 Q1 CHEMISTRY, ANALYTICAL
Francisco Mestre-Manrique , Roser Payà-Pou , Miriam Beneito-Cambra, Ernesto Francisco Simó-Alfonso, Enrique Javier Carrasco-Correa
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引用次数: 2

摘要

绿色化学可以定义为减少或消除有害物质的工艺设计,并由《绿色化学12原则》(PGCs)进行了描述。PGCs为化学过程应实现的绿色特性提供了指导。然而,评估是复杂的,没有足够的度量来提供将方法的特征转换为客观尺度水平的可能性,例如数字或颜色。为此,开发了绿色指标,以便对该方法的绿色性进行综合评估。较旧的系统是基于原子效率或产生废物的质量,但这些系统并不适用于所有化学分支,尤其是分析化学。因此,出现了一系列新的度量方法,如国家环境方法指数、生态量表、绿色分析程序指数、RGB模型、六边形或分析绿色度量方法。关于分析化学,特别是在样品制备领域,已经出现了基于3D打印设备的使用的新趋势。不同的3D打印模式提供了制备专用设备的可能性,这些设备影响溶剂的小型化、自动化和减少,并且可以在短时间内以低能耗制备。因此,3D打印可以为绿色分析化学方法的制备提供新的替代方案。在这项工作中,使用提到的六个指标来评估11部已发表作品的绿色性,这些作品使用3D打印设备进行样品制备。讨论了每个度量的结果,并对所有度量进行了比较。最合适的评估方法是分析绿色度度量方法,该方法用于将选定作品之一的绿色度水平与使用更传统材料和系统的作品进行比较。这些结果证明了3D打印有助于开发新型绿色分析化学方法的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Is 3D printing a good alternative to prepare novel devices for Green Analytical sample preparation?

Green Chemistry can be defined as the design of processes that reduce or eliminate hazardous substances and are described by the 12 Principles of Green Chemistry (PGCs). The PGCs provides a guide of the green characteristics that a chemical process should fulfill. However, the evaluation is complicated without an adequate metric that provides the possibility to convert the characteristics of the method to an objective scale level, such as a number or a color. For this purpose, green metrics have been developed in order to do a comprehensive evaluation of the method greenness. The older systems were based on atomic efficiency or mass of generated waste, but those are not adequate for all the chemistry branches, especially on Analytical Chemistry. Hence, a series of novel metrics, such as National Environmental Methods Index, Eco-Scale, Green Analytical Procedure Index, RGB model, Hexagon or Analytical GREEnness metric approach has appeared. Regarding Analytical Chemistry, especially in the sample preparation field, a novel trend based on the use of 3D printing devices has emerged. The different 3D printing modes offer the possibility to prepare devoted devices that affects the miniaturization, automation, reduction of solvents and can be prepared in short times with low energy. Therefore, 3D printing could offer novel alternatives in the preparation of Green Analytical Chemistry methods. In this work, the six mentioned metrics were used to evaluate the greenness of 11 published works that perform sample preparation using 3D printed devices. The results of each metric have been discussed and a comparison of all metrics has been done. The most adequate methodology for the evaluation was the Analytical GREEnness metric approach which was used to compare the greenness level of one of the selected works with a work using more conventional materials and systems. These results demonstrate the capabilities of 3D printing to help in the development of novel Green Analytical Chemistry methods.

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