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引用次数: 0
摘要
在微分析系统的分离方法是一个精心设计的,有组织的,并写的书,处理及时的主题。在过去的几十年里,科学家们开始讨论分析仪器和芯片实验室的小型化。本书关注微流体的某些方面-流体在密闭空间中的行为和对这些流体的操纵-即,进行化学分析,生化分析和类似过程的可能性。这类研究的产品通常被称为微型全分析系统(m-TAS),或者更一般地称为芯片上的实验室(LOC)设备。由于它面向广泛的读者,它也是由许多学科的贡献者编写的,这些学科构成了LOC社区的骨干。当然,本书不可能试图涵盖LOC的整个领域。相反,它关注的是过去15年来LOC发展背后的主要驱动力之一:小型化分离系统。分离单元仍然是许多微型tas和LOC设备的核心,现代分离技术是分析化学家不可或缺的工具。本书概述了微制造设备的分离技术:理论背景信息,设计和理解,制造和材料问题,实现,以及与LOC应用(样品制备,检测等)的其他部分相关的分离系统。它的目的是作为一个一站式购物指南的问题,有关分离技术的微量分析设备。然而,它不仅仅是一个快速的参考指南,而是一个逗留和浏览的地方。这些信息很可能是在书中的几个地方提供的。一个多作者的卷给读者不同的风格,不同的方法,和不同的意见。许多主题是如此普遍,以至于它们在不同的章节中反复出现,展示了处理给定问题的不同角度,反映了研究人员对相同问题的不同背景。这个优秀的卷使所有那些感兴趣的微流体一个很好的参考,可以是一个研究生课程的文本。版权# Taylor & Francis Group, LLC ISSN 1532-1819 print/1532-4230 online DOI: 10.1080/15321810600862389
Separation Methods in Microanalytical Systems is a well designed, organized, and written book which deals with a timely topic. In the last couple of decades scientists started talking about miniaturization of analytical instrumentation and lab-on-a-chip. This book concerns itself with certain aspects of microfluidics – the behavior of fluids in confined spaces and the manipulation of these fluids – namely, the possibility to perform chemical analyses, biochemical assays, and similar processes. The products of this kind of research are often dubbed micro-Total Analysis Systems (m-TAS) or, more generally, lab-on-a-chip (LOC) devices. As it is intended for a wide audience, it was also written by contributors from many of the disciplines that constitute the backbone of the LOC community. Of course, this book cannot attempt to cover the entire field of LOC. Instead it focuses on what has been one of the main driving forces behind the development of LOC for the last 15 years: miniaturized separation systems. Separation units are still at the heart of many micro-TAS and LOC devices, and modern separation techniques are indispensable tools for analytical chemists. This book gives an overview of separation techniques on micro-fabricated devices: theoretical background information, design and understanding, fabrication and material issues, implementations, and separation systems in relation to other parts of LOC applications (sample preparation, detection, etc.). It is intended as a one-stop shopping guide for questions concerning separation techniques in microanalytical devices. It is, however, not so much meant only as a quick reference guide, but rather as a place to linger and browse. It is very likely that the information is provided in several locations within the book. A multiauthor volume gives the reader different styles, different approaches, and different opinions. Many topics are so common that they reappear in different chapters, showing different angles to approach a given problem, reflecting the different backgrounds from which researchers attach the same issues. This excellent volume makes a good reference for all those interested in microfludics and can be a text for a graduate course. Journal of Immunoassay & Immunochemistry, 27: 379–386, 2006 Copyright # Taylor & Francis Group, LLC ISSN 1532-1819 print/1532-4230 online DOI: 10.1080/15321810600862389
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