Table of Contents
Preface.
A: Trends of Analytical Methodology for Determination of Indoor and Outdoor Pollutants. Biosensors for Direct Monitoring and Indoor Air Quality and Exposure Assessment Issues;
D.J. Moschandreas. Analytical Methodology for the Determination of Volatile Organic Compounds in Indoor and Outdoor Environment;
P.A. Siskos, et al. Sensor Response and Computational Molecular Modelling;
M. Thompson, et al. The Use of Chemical Sensor Systems for Sampling, Selectivity and Speciation;
I.M. Christie, et al. Use of a CCD-Based Imaging Detector and Capillary Sampling Techniques for Environmental Testing;
B. Danielsson, et al. B: DNA, Biological Recognition and Receptor Based Sensors. A Fiber Optic DNA Sensor for Rapid Detection of Environmental E. coli;
U.J. Krull, et al. Applications of an Electrochemical DNA- Biosensor to Environmental Problems;
A.M. Oliveira Brett, et al. Application of a Nucleic Based Optical Probe for Environmental and Pharmaceutical Analysis;
B. Danielsson, M. Mecklenburg. Biologically Inspired Recognition Chemistry for Biosensors. Design of Recognition Elements for Ion- Selective Electrodes (ISEs);
E.C. Hernández, L.G. Bachas. Lipid Based Enzyme Electrodes for Environmental Pollution Control;
J.-M. Kauffmann. Immunochemical Assays for Pesticides and PCBs;
M. Fránek. Development of Biosensors for Immunoassay Detection of PCBs;
M. Del Carlo, et al. Disposable Screen-Printed pH- Electrode for Determination of Anticholinesterase Activity;
R. Koncki, M. Mascini. Direct Piezoelectric Immunosensors for Pesticides;
P. Skládal, et al. Detection of Diphenylurea Derivatives with Biospecific Interaction Analysis (BIA): Kinetic Investigation;
W.F.M. Stöcklein, et al. Enzyme Sensors for the Detection of Pesticide Families;
J.-L. Marty, et al. C: Biosensors for in Field Uses. Portable Flow-Injection Systems for Field Testing. Present Development and Perspectives;
M. Trojanowicz, P.W. Alexander. Automated Field Analyzers for Environmental Pollutants Based Biosensors;
K. Cammann, et al. Lipid-Based Sensors for Continuous Monitoring or Rapid Screening of Pollutants in the Field;
D.P. Nikolelis, et al.Biosensors for in Field Measurements: Optimisation of Parameters to Control Phosphororganic Pesticides in Water and Vegetables;
N.F. Starodub, et al. D: Water Analysis. Determination of Heavy Metals Using Electrochemical Biosensors Based on Enzyme Inhibition;
D. Compagnone, et al. Exploring Sensors to Monitor Some Environmental Discharges: Laboratory Innovation versus Design and Manufacturability;
E.A.H. Hall, et al. Sensitivity and Selectivity of Electrochemical Biosensors for Inhibitor Determination;
H.C. Budnikov, G.A. Evtugyn. Solid Carbon Containing Stripping Voltammetry Sensors;
Kh.Z. Brainina, et al. Chemiluminescent Detection of Chlorophenols with a Fiber Optic Sensor;
L.J. Blum, A. Degiuli. Selective Determination of Heavy Metal Ions with Sensors Coupled to Immobilized Enzymes;
A.P. Soldatkin, et al. E: Biosensors for Environmental Pollutants Based on Non-Aqueous Systems. Micromachining, Industrialization and Market Aspects of Biosensors for Environmental Pollutants. Organic-Phase and Inhibition Based Amperometric Biosensors for the Determination of Environmental Pollutants;
E.I. Iwuoha, M.R. Smyth. Amperometric Biosensors in Reversed Micelles;
J.M. Pingarrón, A.J. Reviejo. Biosensors Based on Solid Supported Lipid Bilayers and their Physical Properties;
T. Hianik. Biosensors for Environmental Monitoring: An EPA Perspective;
K.R. Rogers, E. Koglin. Microsystem Technology in Biosensors;
V. Tvarozek. Author Index. Subject Index.