Information Theory of Molecular Systems

Author: Nalewajski   Roman F.  

Publisher: Elsevier Science‎

Publication year: 2006

E-ISBN: 9780080459745

P-ISBN(Paperback): 9780444519665

P-ISBN(Hardback):  9780444519665

Subject: O4 Physics;O6-0 chemical principle and method;TP3 Computers

Language: ENG

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Description

As well as providing a unified outlook on physics, Information Theory (IT) has numerous applications in chemistry and biology owing to its ability to provide a measure of the entropy/information contained within probability distributions and criteria of their information "distance" (similarity) and independence. Information Theory of Molecular Systems applies standard IT to classical problems in the theory of electronic structure and chemical reactivity.



The book starts by introducing the basic concepts of modern electronic structure/reactivity theory based upon the Density Functional Theory (DFT), followed by an outline of the main ideas and techniques of IT, including several illustrative applications to molecular systems. Coverage includes information origins of the chemical bond, unbiased definition of molecular fragments, adequate entropic measures of their internal (intra-fragment) and external (inter-fragment) bond-orders and valence-numbers, descriptors of their chemical reactivity, and information criteria of their similarity and independence.



Information Theory of Molecular Systems is recommended to graduate students and researchers interested in fresh ideas in the theory of electronic structure and chemical reactivity.

·Provides powerful tools for tackling both classical and new problems in the theory of the molecular electronic structure and chemical reactivity
·Introduces basic concepts of the modern electronic struct

Chapter

Cover

pp.:  1 – 5

copyright

pp.:  5 – 6

Preface

pp.:  6 – 6

front matter

pp.:  6 – 12

CONTENTS

pp.:  12 – 18

Acronyms

pp.:  18 – 20

INTRODUCTION

pp.:  20 – 47

body

pp.:  47 – 47

ALTERNATIVE PERSPECTIVES AND REPRESENTATIONS

pp.:  47 – 75

ENTROPY, INFORMATION AND COMMUNICATION CHANNELS

pp.:  75 – 110

PROBING THE MOLECULAR ELECTRON DISTRIBUTIONS

pp.:  110 – 137

ATOMS-IN-MOLECULES FROM THE INFORMATION THEORY

pp.:  137 – 188

OTHER PROPERTIES OF STOCKHOLDER SUBSYSTEMS

pp.:  188 – 220

COMMUNICATION THEORY OF THE CHEMICAL BOND

pp.:  220 – 263

ENTROPY/INFORMATION INDICES OF MOLECULAR FRAGMENTS

pp.:  263 – 312

REACTIVE SYSTEMS

pp.:  312 – 346

ELEMENTS OF THE INFORMATION-DISTANCE THERMODYNAMICS

pp.:  346 – 378

APPENDICES

pp.:  378 – 440

back matter

pp.:  378 – 378

REFERENCES

pp.:  440 – 453

INDEX

pp.:  453 – 464

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