ISBN 9780471203438 is out of print and is currently unavailable, alternate formats (if applicable) are shown below.
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Experimental Design for Combinatorial and High Throughput Materials Development (Out of print)
| PUBLISHER | Wiley-Interscience (12/17/2002) |
| PRODUCT TYPE | Hardcover (Hardcover) |
Description
Experimentelle Anordnungen fr die Hochdurchsatz-Materialentwicklung werden hier am Beispiel industrieller Einsatzgebiete vorgestellt.
- mit 200 Diagrammen und Zeichnungen
- Autor kann jahrelange praktische Erfahrung auf dem Gebiet der kombinatorischen Chemie (insbesondere der Entwicklung von Designstrategien) vorweisen
- nur wenige bisher am Markt befindliche Werke besprechen die Probleme experimenteller Strategien in der Materialentwicklung mit hohem Durchsatz hnlich ausfhrlich
- mit 200 Diagrammen und Zeichnungen
- Autor kann jahrelange praktische Erfahrung auf dem Gebiet der kombinatorischen Chemie (insbesondere der Entwicklung von Designstrategien) vorweisen
- nur wenige bisher am Markt befindliche Werke besprechen die Probleme experimenteller Strategien in der Materialentwicklung mit hohem Durchsatz hnlich ausfhrlich
Show More
Product Format
Product Details
ISBN-13:
9780471203438
ISBN-10:
0471203432
Binding:
Hardback or Cased Book (Sewn)
Content Language:
English
More Product Details
Page Count:
336
Carton Quantity:
38
Product Dimensions:
6.74 x 0.82 x 9.06 inches
Weight:
1.33 pound(s)
Feature Codes:
Bibliography,
Index,
Illustrated
Country of Origin:
US
Subject Information
BISAC Categories
Technology & Engineering | Chemical & Biochemical
Technology & Engineering | Materials Science - General
Dewey Decimal:
620.11
Library of Congress Control Number:
2002027393
Descriptions, Reviews, Etc.
jacket back
An invaluable reference to increasingly popular experimental methods
In the past decade, combinatorial and high throughput experimental methods have revolutionized the pharmaceutical industry, allowing researchers to conduct more experiments in a week than was previously possible in a year. Now high throughput experimentation is rapidly spreading from its origins in the pharmaceutical world to larger industrial research establishments such as GE and DuPont, and even to smaller companies and universities. Consequently, researchers need to know the kinds of problems, desired outcomes, and appropriate patterns for these new strategies. Editor James Cawse's far-reaching study identifies and applies, with specific examples, these important new principles and techniques.
Experimental Design for Combinatorial and High Throughput Materials Development progresses from methods that are now standard, such as gradient arrays, to mathematical developments that are breaking new ground. The former will be particularly useful to researchers entering the field, while the latter should inspire and challenge advanced practitioners. The book's contents are contributed by leading researchers in their respective fields. Chapters include:
* High Throughput Synthetic Approaches for the Investigation of Inorganic Phase Space
* Combinatorial Mapping of Polymer Blends Phase Behavior
* Split-Plot Designs
* Artificial Neural Networks in Catalyst Development
* The Monte Carlo Approach to Library Design and Redesign
The text also contains over 200 useful charts and drawings. Industrial chemists, chemical engineers, materials scientists, and physicists working in combinatorial and high throughput chemistry will find James Cawse's study to be an invaluable resource.
In the past decade, combinatorial and high throughput experimental methods have revolutionized the pharmaceutical industry, allowing researchers to conduct more experiments in a week than was previously possible in a year. Now high throughput experimentation is rapidly spreading from its origins in the pharmaceutical world to larger industrial research establishments such as GE and DuPont, and even to smaller companies and universities. Consequently, researchers need to know the kinds of problems, desired outcomes, and appropriate patterns for these new strategies. Editor James Cawse's far-reaching study identifies and applies, with specific examples, these important new principles and techniques.
Experimental Design for Combinatorial and High Throughput Materials Development progresses from methods that are now standard, such as gradient arrays, to mathematical developments that are breaking new ground. The former will be particularly useful to researchers entering the field, while the latter should inspire and challenge advanced practitioners. The book's contents are contributed by leading researchers in their respective fields. Chapters include:
* High Throughput Synthetic Approaches for the Investigation of Inorganic Phase Space
* Combinatorial Mapping of Polymer Blends Phase Behavior
* Split-Plot Designs
* Artificial Neural Networks in Catalyst Development
* The Monte Carlo Approach to Library Design and Redesign
The text also contains over 200 useful charts and drawings. Industrial chemists, chemical engineers, materials scientists, and physicists working in combinatorial and high throughput chemistry will find James Cawse's study to be an invaluable resource.
Show More
publisher marketing
Experimentelle Anordnungen fr die Hochdurchsatz-Materialentwicklung werden hier am Beispiel industrieller Einsatzgebiete vorgestellt.
- mit 200 Diagrammen und Zeichnungen
- Autor kann jahrelange praktische Erfahrung auf dem Gebiet der kombinatorischen Chemie (insbesondere der Entwicklung von Designstrategien) vorweisen
- nur wenige bisher am Markt befindliche Werke besprechen die Probleme experimenteller Strategien in der Materialentwicklung mit hohem Durchsatz hnlich ausfhrlich
- mit 200 Diagrammen und Zeichnungen
- Autor kann jahrelange praktische Erfahrung auf dem Gebiet der kombinatorischen Chemie (insbesondere der Entwicklung von Designstrategien) vorweisen
- nur wenige bisher am Markt befindliche Werke besprechen die Probleme experimenteller Strategien in der Materialentwicklung mit hohem Durchsatz hnlich ausfhrlich
Show More
Editor:
Cawse, James N.
JAMES N. CAWSE, PhD, is a researcher on GE's Global Research team. He deals with experimental strategy, data handling, and data interpretation for the combinatorial chemistry program there and has led design of experiments programs for 18 years.
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