Chichester, West Sussex ; ; Malden, MA : , : Wiley-Blackwell, , 2013

1-118-32085-9

1-299-15833-1

1-118-32088-3

1 online resource (270 p.)

PSY021000

302.3/5

Organizational behavior

Corporate culture

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Organizational Fit Key : Issues and New Directions; Contents; About the Editors; About the Contributors; Preface; 1 Fit for the Future; Person-Environment (PE) Fit Paradigm; Perceived Fit Paradigm; The Epistemology of Fit; The Chapters; Part 1: New directions within the fit paradigms; Part 2: New directions for the fit paradigms; Conclusion; References; Part 1 New Directions within the Fit Paradigms; 2 A Motivational Model of Person-Environment Fit: Psychological Motives as Drivers of Change; Fundamental Motivations to Fit; Drive for consistency; Drive for hedonism

Drive for uncertainty reduction Drive for control; Drive for belonging; Fit Management Tactics; Model of PE fit; Biases and heuristics; Responses to job satisfaction; Coping, stress, and regulation; Proactive behaviors; Discussion; Expanding the motivational model; Implications for PE fit research; Conclusion; References; 3 Dyadic Fit and the Process of Organizational Socialization; Relationships and Fit: Definitions; Contributions of an Interpersonal Socialization Perspective to the Literature on Fit; Dyadic Fit and Organizational Socialization

Antecedents of the Development of Dyadic Fit in the Socialization Process Dyadic Fit and Interpersonal Processes; Outcomes of Dyadic Fit in the Socialization Process; Summary; References; 4 A Self-Regulation Approach to Person-Environment Fit; Theories of Self-Regulation;

Viewing PE Fit within a Self-Regulation Framework; Regulating Person-Environment Fit over Time; Individual Differences that Impact PE Fit; Limitations; Conclusion; Notes; References; 5 Person-Organization Fit, Organizational Citizenship, and Social-Cognitive Motivational Mechanisms; Organizational Fit and Citizenship

PO fit and performance Citizenship performance; An Integrative Social-Cognitive Model; CAPS; Fit-related schema and encoding processes; Cognitive-affective mediating processes; Behavior generation process; Self-regulation processes; Discussion; Theoretical issues for consideration; Conclusion; References; 6 Mapping Fit: Maximizing Idiographic and Nomothetic Benefits; Introduction; Nomothetic and Idiographic Research; Combining approaches; A heuristic model; Mapping Fit; Different forms of cognitive maps; Generating maps; Analyzing maps; Conclusion; References

Part 2 New Directions for the Fit Paradigms 7 The Construal of Person-Organization Fit during the ASA Stages: Content, Source, and Focus of Comparison; Introduction; The Need to Fit: The Need to Belong; The Establishment of PO Fit; ASA: Content, Source, and Reference of PO Fit Perceptions; PO fit with the unknown; PO fit with the known; Some people make the place; Fit with prototypical models; Conclusions and Avenues for Future Research; Note; References; 8 Exploring the Middle Range of Person-Environment Fit Theories through a Conservation of Resources Perspective

Conservation of Resources Theory

"An ambitious survey of the field, by an international group of scholars, that looks toward the future of person-organization fit. Explores how people form their impressions of fit and the impact these have on their behavior, and how companies can maximize fit  Includes multiple perspectives on the topic of how people fit into organizations, discussing issues across the field and incorporating insights from related disciplines  Actively encourages scholars to take part in organizational fit research, drawing on workshops and symposia held specially for this book to explore some of the creative directions that the field is taking into the future  "--

Hoboken, N.J., : Wiley-Interscience, c2008

9786611237288

9781281237286

1281237280

9780470226759

0470226757

9780470226742

0470226749

1 online resource (257 p.)

541/.226

Dihydrogen bonding

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

DIHYDROGEN BONDS; CONTENTS; Preface; 1 Introduction: Weak Noncovalent Interactions; References; 2 Brief Summary of Hydrogen-Bonded Systems: Definitions and General View; 2.1 Conventional Hydrogen Bonds: Theoretical and Experimental Criteria of Hydrogen Bond Formation; 2.1.1 Energy and Geometry of Conventional Hydrogen Bonds; 2.1.2 Cooperative and Anticooperative Energy Effects in Systems with Classical Hydrogen Bonds; 2.1.3 Dynamics of Classical Hydrogen Bonds; 2.2 Nonconventional Hydrogen Bonds as a Part of Hydrogen-Bonded Systems: Definition and Classification

2.3 Difference Between Hydrogen and Chemical Bonds2.4 Concluding Remarks; References; 3 Concept of Dihydrogen Bonding; 3.1 General View: From an H(2) Molecule to a Dihydrogen Bond via a Dihydrogen Ligand; 3.2 The Nature of Dihydrogen Bonding: The Topology of Electron Density and Contributions to Total Bonding Energy; 3.3. Scalar Spin-Spin Coupling Through Dihydrogen Bonds as Evidence of Their Partly Covalent Character; 3.4 Field Effects on Dihydrogen Bonding; 3.5 Pressure Effects on Dihydrogen Bonding; 3.6 Difference Between

Hydrogen and Dihydrogen Bonds; 3.7 Concluding Remarks; References

4 How to Find a Dihydrogen Bond: Experimental Criteria of Dihydrogen Bond Formation4.1 Dihydrogen-Bonded Complexes in the Solid State: X-Ray and Neutron Diffraction Evidence; 4.1.1 Topology of Electron Density in Dihydrogen-Bonded Systems from Diffraction Data; 4.2 Gas-Phase Experiments with Dihydrogen-Bonded Complexes; 4.3 Experiments with Dihydrogen-Bonded Complexes in Solutions; 4.3.1 IR Spectral Criteria for the Formation of Dihydrogen-Bonded Complexes in Solutions; 4.3.2 How to Determine the Stoichiometry of Dihydrogen-Bonded Complexes in Solution by IR Spectroscopy

4.3.3 Energy Parameters of Dihydrogen-Bonded Complexes from IR Spectra in Solution4.3.4 (1)H Nuclear Magnetic Resonance Evidence for Dihydrogen Bonding in Solution; 4.3.5 Energy Parameters of Dihydrogen Bonds in Solution from (1)H NMR; 4.4 Concluding Remarks; References; 5 Intramolecular Dihydrogen Bonds: Theory and Experiment; 5.1 Weak Intramolecular Bonding: C-H· · ·H-C in Systems with Slightly Polarized Bonds CH; 5.2 Intramolecular Dihydrogen Bonds in Solid Amino Acids: C-H Bonds as Weak Proton Acceptors; 5.3 Intramolecular Dihydrogen Bonds: C-H· · ·H-B

5.4 Intramolecular Bonds: N-H· · ·H-B and O-H· · ·H-B5.5 Intramolecular Dihydrogen Bonds in Metal Hydride Complexes; 5.5.1 Intramolecular Dihydrogen Bonds in Metal Hydride Clusters; 5.6 Connection Between Intramolecular Dihydrogen Bonding and Dehydrogenation Reactions; 5.7 Concluding Remarks; References; 6 Intermolecular Dihydrogen-Bonded Complexes: From Groups 1A-4A to Xenon Dihydrogen-Bonded Complexes; 6.1 Group 1A: Dihydrogen Bonds X-H· · ·H-Li and X-H· · ·H-Na (X = F, Cl, NH(3), CN, NC, HO, HS, ClCC, FCC, HCC)

6.2 Group 2A: Dihydrogen Bonds X-H· · ·H-Mg and X-H· · ·H-Be (X = F, Cl, Br, NH(3), NNN, CN, NC, ClCC, FCC, HCC, CH(3)CC, F(2)Be, FKr, FAr)

This definitive reference consolidates current knowledge on dihydrogen bonding, emphasizing its role in organizing interactions in different chemical reactions and molecular aggregations. After an overview, it analyzes the differences between dihydrogen bonds, classical hydrogen bonds, and covalent bonds. It describes dihydrogen bonds as intermediates in intramolecular and intermolecular proton transfer reactions. It describes dihydrogen bonding in the solid-state, the gas phase, and in solution. This is the premier reference for physical chemists, biochemists, biophysicists, and chemical engi