|
Handbook
of Conducting Polymers
|
|
Marcel Dekker
 $195.00,
1112 pp., illus.
Your price when ordered through
ABTECH: $156.00 Quantity
ISBN: 0-8247-0050-3 April
1998
Description: Rewritten
and updated to reflect the explosion of information since the
publication of the 1st edition. Presents the latest advances in
the field of electrically conducting polymers&emdash;discussing
theory and transport, synthesis, processing, properties, and
applications.
|
Second Edition, Revised and
Expanded
Skotheim, Terje A., Moltech
Corporation, Tucson, Arizona; Elsenbaumer, Ronald L.,
University of Texas at Arlington ,and Reynolds, John
R., University of Florida, Gainesville
A Key Chapter (contributed by
ABTECH scientists):
Chapter 34
Chemical and
Biological Sensors Based on Electrically Conducting
Polymers
Anthony Guiseppi-Elie, Gordon G. Wallace, and
Tomakazu Matsue
|
|
Electrical
and Optical Polymer Systems: Fundamentals, Methods, and
Applications
|
|
Marcel Dekker
 $225.00,
976 pp., illus.
Your price when ordered through
ABTECH: $180.00Quantity
Series: Plastics Engineering.
Volume: 45
ISBN: 0-8247-0118-6 April
1998
Description: Covers background
information on methods of characterization and addresses
applications of electrical and optical polymers, including
biopolymers. Provides tutorial sections that explain how to use
characterization techniques.
|
Wise, Donald L., Northeastern
University, Boston, Massachusetts; Wnek, Gary E.,
Virginia Commonwealth University, Richmond, Virginia ;
Trantolo, Debra J., Cambridge Scientific, Inc.,
Belmont, Massachusetts; Cooper, Thomas M., Wright
Patterson Air Force Base, Ohio and Gresser, Joseph D.,
Cambridge Scientific, Inc., Belmont, Massachusetts.
Series: Plastics Engineering.
Volume: 45
A Key Chapter (contributed by
ABTECH scientists):
Chapter 34
Electrical
Impedance Properties of Chemically Responsive Hydrogels
Anthony
Guiseppi-Elie, Matthew J. Lesho and Norman F. Sheppard, Jr.
|
|
Enzyme
and Microbial Biosensors: Techniques and Protocols
|
Humana Press Inc.
 $69.50,
284 pp., illus.
Your
price when ordered through ABTECH: $ 55.60
Quantity
Series: Methods in Biotechnology.
Volume 6
ISBN 0-89603-410-0 April,
1998
Description: A
cutting-edge collection of detailed, step-by-step techniques and
protocols for constructing, evaluating, and using enzyme- and
microbial-based biosensors. Ideal for novices starting research
in their field or experienced researchers wanting to use a
biosensor for a specific analytical measurement, the methods
detailed here allow biochemists, analytical chemists,
microbiologists, and engineers to successfully apply biosensor
technology to their specific problems. The techniques include
classical enzyme biosensors based on potentiometric,
amperometric, conductimetric, optical, and thermal transducers,
as well cell-based biosensors based on amperometric and optical
transducers.
|
Mulchandani, Ashok, University
of California, Riverside California and Rogers, Kim R.,
US-EPA, Las Vegas, NV
Series: Methods in Biotechnology.
Volume 6
A key chapter (contributed by
ABTECH scientists):
Chapter 12
Enzyme Sensors
Based on Conductimetric Measurement
Norman F. Sheppard,
Jr. and Anthony Guiseppi-Elie
|
|
Affinity
Biosensors: Techniques and Protocols
|
Humana Press Inc.
 $69.60,
264 pp., ilus.
Your
price when ordered through ABTECH: $ 55.60
Quantity
Series: Methods in Biotechnology.
Volume 7
ISBN: 0-89603-539-5 April,
1998
Description: A
cutting-edge collection of detailed, step-by-step techniques and
protocols for constructing, evaluating, and using affinity-based
biosensors. Ideal for novices starting research in their field
or experienced researchers wanting to use a biosensor for a
specific analytical measurement, the methods detailed here allow
biochemists, analytical chemists, microbiologists, and engineers
to successfully apply biosensor technology to their specific
problems. The techniques include the use of antibodies and
membrane receptors to construct optical, thermal, acoustic, and
electrochemically based biosensors. Additional techniques
involve antibodies, receptors, nucleic acids, liposomes, and
eukaryotic cells.
|
Rogers, Kim R., US-EPA, Las
Vegas, NV and Mulchandani, Ashok, University
of California, Riverside California;
Series: Methods in Biotechnology.
Volume 7
|