Micromixers: Fundamentals, Design, and Fabrication

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A wide range of applications in chemistry and biochemistry are driving the rapid development of microfluidics. This book focuses its attention on an important subtopic of microfluidics; mixing in microscale. It provides the fundamentals of transport effects in microscale including molecular diffusion, convection, and chaotic advection.

The science and technology of microfluidics cover a wide spectrum and the science of mixing in microscale has evolved from reports on fabricated devices to an extensive collection of established knowledge. The focal point of Micromixers: Fundamentals, Design, and Fabrication is the current applicable knowledge and practical issues in designing, fabricating, and characterizing micromixers in the chemical and biochemical industries. Based on scaling law, it recommends practical micromixer designs utilizing the advantages of the microscale effects. The book is intended for practicing engineers and for upper-level undergraduate and graduate level students.

• Provides the basic terminology and fundamental physics of transport effects used for designing micromixers.

• Highlights the challenges and advantages of miniaturization in mixing.

• Outlines currently available microtechnologies for fabricating micromixers.

• Discusses current applications including lab-on-a-chip for chemical/biochemical analysis, and chemical production.

• Defines concepts such as electrohydrodynamic, dielectrophoretic, electrokinetic, magneto hydrodynamic, acoustic and thermal effects and their implementation in micromixers.

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Nanostructured Materials: Selected Synthesis Methods, Properties and Applications

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In the framework of the rapid development of nanoscience and nanotechnology, the domain of nanostructured materials is attracting more and more researchers, both academic and industrial. Synthesis methods are a major prerequisite for achievement in this rapidly evolving field. Nanostructured Materials: Selected Synthesis Methods, Properties and Applications presents several important recent advances in synthesis methods for nanostructured materials and processing of nano-objects into macroscopic samples, such as nanocrystalline ceramics. This book will not cover the whole spectrum of possible synthesis techniques, which would be limitless, but it presents especially interesting highlights in the domains of research of the editors.

Subjects that are covered include the following:
*”chimie douce” approaches for preparation of a large variety of nanostructured materials, including metals, alloys, semiconductors and oxides;
*hydrothermal synthesis with water as solvent and reaction medium can be specifically adapted to nanostructured materials;
*”electrospraying” as a powerful new route for the preparation of nanoparticles, especially of oxides for electroceramics;
*nanoparticles processed into nanostructured ceramics, by using dynamic compaction techniques;
*applications of nanostructured materials.

This book complements the previous volume in this series (P. Knauth, J. Schoonman, eds., Nanocrystalline Metals and Oxides: Selected Properties and Applications, Kluwer, Boston, 2002).

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Automated Nanohandling by Microrobots

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The rapid development of nanotechnology has created a need for advanced nanohandling tools and techniques. One active branch of research in this area focuses on the use of microrobots for automated handling of micro- and nanoscale objects. Automated Nanohandling by Microrobots presents work on the development of a versatile microrobot-based nanohandling robot station inside a scanning electron microscope (SEM). The SEM serves as a powerful vision sensor, providing a high resolution and a high depth of focus, allowing different fields of application to be opened up.

The pre-conditions for using a SEM are high-precision, user-friendly microrobots which can be integrated into the SEM chamber and equipped with application-specific tools. Automated Nanohandling by Microrobots introduces an actuation principle for such microrobots and presents a new robot design. Different aspects of this research field regarding the hardware and software implementation of the system components, including the sensory feedback for automated nanohandling, are discussed in detail. Extensive applications of the microrobot station for nanohandling, nano-characterization and nanostructuring are provided, together with the experimental results.

Based upon the Microrobotics course for students of computer sciences and physics at the University of Oldenburg, Automated Nanohandling by Microrobots provides the practicing engineer and the engineering student with an introduction to the design and applications of robot-based nanohandling devices. Those unfamiliar with the subject will find the text, which is complemented throughout by the extensive use of illustrations, clear and simple to understand.

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