Micro Total Analysis Systems

The Challenge of Developing muTAS; P. Bergveld. muTAS: Miniaturized Total Chemical Analysis Systems; A. Manz, E.M.J. Verpoorte, D.E. Raymond, C.S. Effenhauser, N. Burggraf, H.M. Widmer. Chances of muTAS in Analytical Chemistry; W.E. van der Linden. muTAS for Biochemical Analysis; I. Karube. Detection Principles for muTAS; H.-J. Ache. Microfabricated Liquid Handling Elements; H. Sandmaier, R. Zengerle, A. Richter. Micromechanical Components for muTAS; J.H. Fluitman, A. van den Berg, T.S. Lammerink. Material Science for Future (Bio)Chemical Microsystems: the Key Role of Tailoring Interfaces; W. Göpel. Optical Microsystems for (Bio)Chemical Analysis; O.S. Wolfbeis. Integration of Analytical Systems Incorporating Chemical Reactions and Electrophoretic Separation; D.J. Harrison, K. Fluri, Zhongui Fan, K. Seiler. Flow Injection Microsystems -- There is a Past but Where is the Future? J. Ruzicka. Micromachined Flow-Through Measurement Chambers Using LAPS Chemical Sensors; L. Bousse, R. McReynolds. Development of a PCR Microreactor; M.A. Northrup, C. Gonzales, S. Lehew, R. Hills. Application of Miniature Analyzers: From Microfluidic Components to muTAS; J. Branebjerg, B. Fabius, P. Gravesen. Microanalysis Systems for Gases; I. Lundström, A. Lloyd-Spetz, H. Sundgren, F. Winquist. Bonding and Assembling Methods for Realizing a muTAS; S. Shoji, M. Esashi. Microsystems for Analysis in Flowing Solutions; B.H. van der Schoot, E.M.J. Verpoorte, S. Jeanneret, A. Manz, N.F. de Rooij. Combined Blood Gas Sensor for pO2, pCO2 and pH; Ph. Arquint, B.H. van der Schoot, N.F. de Rooij. A Fluid Handling and Injection Microsystem for a muTAS; N. Croce, M.C. Carrozza, P. Dario. Design of an AdaptiveUnsupervised Hybrid Microsystem for Artificial Olfaction; F.A.M. Davide, C. di Natale, A. d'Amico. Integration of an Amperometric Glucose Sensor in a &mgr;TAS; L. Forssén, H. Elderstig, L. Eng, M. Nordling. Electric Field Mediated Cell Manipulation, Characterisation and Cultivation in Highly Conductive Media; G. Fuhr, B. Wagner. Electrochemical Microanalytical System for Ionometric Measurements; W. Hoffmann, M. Bruns, B. Büstgens, E. Bychkov, H. Eggert, W. Keller, D. Maas, R. Rapp, R. Ruprecht, W. Schomburg, W. Süß. Modulator Potentiometric Measuring System for the Development and Comfortable Testing of Miniaturized Ion Sensors; W. Hoffmann, R. Rapp, H.J. Ache. A Novel Sampling Technique for Total Analysis Systems; W. Künnecke, U. Bilitewski. A Micromachined Glucose Oxidase Enzyme Reactor; T. Laurell, L. Rosengren, J. Drott. First Steps of &mgr;TAS in Latvia; A. Lúsis, J. Kleperis, V. Eglìtis, A. Lloyd-Spetz, I. Lundström, H. Sundgren, F. Winquist, G. Strautmanis, I. Slaidiňs, P. Misâns, P. Rozukalns, S. Sjulzics. Microreactor with Integrated Static Mixer and Analysis System; H. Mensinger, Th. Richter, V. Hessel, J. Döpper, W. Ehrefeld. Microelectrode Arrays as Transducers for Microanalysis Systems; H. Meyer, B. Naendorf, M. Wittkampf, B. Gründig, K. Cammann. A Stacked Multichannel Amperometric Detection System; M. Paeschke, U. Wollenberger, A. Uhlig, U. Schnakenberg, B. Wagner, R. Hintsche. Components for Microfluidic Handling Modules; W.K. Schomburg, B. Büstgens, J. Fahrenberg, D. Maas. Development of a Micro Flow-System with Integrated Biosensor Array; G. Urban, G. Jobst, P. Svasek, M. Varahram, I. Moser, E. Aschauer. Tempera