Advances in Quantitative Structure-Property Relationships
- 1st Edition, Volume 2 - April 15, 1999
- Latest edition
- Editors: M. Charton, B.I. Charton
- Language: English
Quantitative structure property relationships (QSPR) have become a major method of chemical research. In the course of this development the field has suffered from fragmentation.… Read more
Description
Description
Quantitative structure property relationships (QSPR) have become a major method of chemical research. In the course of this development the field has suffered from fragmentation. Applications of QSPR are found in all major chemical disciplines including physical organic, physical, medicinal, agricultural, biological, enviromental, and polymer chemistry. Frequently workers in one area are unaware of parameterizations and models used in other ares which they might well find useful. The is a common thread which runs through these widely diverse areas. The basic principles, parameterizations and methodology are the same or similar throughout.
The object of this series is to provide interesting and timely reviews covering all aspects of the field. It encourages the transfer of new methods, techniques, and parameterizations from the area in which they were developed to other areas that can make good use of them. In view of the widespread use of QSPR we believe that this is an important objective. This series will provide the cross-fertilization which is sorely needed.
The object of this series is to provide interesting and timely reviews covering all aspects of the field. It encourages the transfer of new methods, techniques, and parameterizations from the area in which they were developed to other areas that can make good use of them. In view of the widespread use of QSPR we believe that this is an important objective. This series will provide the cross-fertilization which is sorely needed.
Readership
Readership
For scientists and researchers interested in the field of QSPR.
Table of contents
Table of contents
Preface
(M. Charton, B Charton).
Exploring the enegetics of binding in chromatography and related events
(P.S. Magee).
Structural effects on gas-phase reactivities
(G. Chuchani et al.).
The prediction of melting point
(J.C. Dearden).
The application of the intermolecular force model to peptide and protein QSAR.
(M. Charton).
Index.
(M. Charton, B Charton).
Exploring the enegetics of binding in chromatography and related events
(P.S. Magee).
Structural effects on gas-phase reactivities
(G. Chuchani et al.).
The prediction of melting point
(J.C. Dearden).
The application of the intermolecular force model to peptide and protein QSAR.
(M. Charton).
Index.
Product details
Product details
- Edition: 1
- Latest edition
- Volume: 2
- Published: June 1, 1999
- Language: English
About the editors
About the editors
MC
M. Charton
Affiliations and expertise
Pratt InstituteBC
B.I. Charton
Affiliations and expertise
St. John's University