Wolfgang Ehrfeld Bücher

InhaltsverzeichnisMaterials for Micro-Optics and Nonlinear Optics.Inorganic-organic Polymers for Micro-Optic Applications.Bistable Nematics — A Novel Approach towards Optical Information Processing.Nonlinear Optics with Inhomogeneously Poled Polymers.Esterification of Polymers with Acid Chloride Groups — A New Route to Polymethacrylates with Nonlinear Optically Active Side Groups.Polymer Filled Porous Glass Plates — A Composite Material for Nonlinear Optics.Crystalline Organic Semiconductors: A New Class of Materials for Photonic Devices.Characterization and Modelling.Optical Characterization of Ultrathin Polymer Films by Evanescent Light.Optimization of Polymer Inverted-Rib-Waveguides by the Finite Element Method.?(3) — Effects in Polymer Waveguides.Absorption Studies of Optically Nonlinear Side-Chain Polymer and Polymer-Dye Films oriented by Corona Poling.Electrooptical Measurement of ?(3) in Polymers with Conjugated ?-Electron Systems.Fabrication Techniques and Applications.Deep Proton Irradiation of PMMA for a 3D Integration of Micro-Optical Components.Fabrication of Micro-Optic Elements by UV-initiated Polymerization.Micropatterning of Organic-Inorganic Nanocomposites for Micro-Optical Applications.Replication of Microrelief Structures for Diffractive and Integrated Optics.Fabrication of Monomode Polymer Waveguides by Replication Technique.Examples and Potential Applications of LIGA Components in Micro-Optics.Photonic Microsystems from LIGA Technology.Force Transducers on the Basis of Piezoelectric Copolymers.Applications of Integrated Optics in the Field of Measuring Technology and Sensorics.Realization of 10-Polymer-Components and Present State in Polymer Technology at HHI Berlin.Applications of Integrated Optical Polymer Components on Coherent OFDM-Systems.Theory.Linear Mode Beating and Nonlinear Mode Coupling in Resonant Optical Waveguides.Evolution of Guided Wave Fields in Rib ARROW-Structures.

Tiny devices with huge potential! New concepts of chemical synthesis have led to an increasing demand for miniaturization and more complex systems. Microreaction technology is a hot topic as it opens completely new possibilities for chemical engineering, combinatorial chemistry, and biotechnology. Small, inexpensive, independent, and versatile devices ensure many reactions achieve maximum selectivity, minimum waste, minimum investment, a better control of the process, safe manufacture and production on demand - to create a more efficient process. This book outlines the fabrication techniques of microfluidic components, unit operations of micro-chemical engineering and current world-wide activities. Requirements with respect to needs of the chemical industry have been included. Chemists, chemical engineers, biotechnologists, process engineers, microsystem technologists in the chemical and pharmaceutical industry and academia, as well as manufacturers of analytical instruments, will find this book a state-of- the-art review of this extremely interesting and rapidly developing field.

Miniaturization has cost and time-saving advantages for numerous applications in chemistry, pharmacy, medicine and biotechnology. Additionally, microreaction technology offers new solutions for the automobile industry and environmental technology, e. g. fuel cells, or mobile sensor systems for on-the-spot analysis. Therefore, the 3rd International Conference on Microreaction Technology - IMRET 3 is an important forum for creating awareness of the wide variety of the new trends in this up-and-coming discipline.

The First International Conference on Microreaction Technology will be a platform to exchange experience on the development, fabrication and performance of microreactors as well as on reactions in microchemical systems and their impact on industrial and laboratory applications.