Spin-Crossover Complexes

The spin-crossover (SCO) phenomenon originates from the intrinsic bistability of the d-electron configuration, created by the competition between ligand-field splitting and spin-pairing energies in a first coordination sphere of transition metal ions. Since Cambi’s visionary finding of the SCO pheno...

ver descrição completa

Na minha lista:
Detalhes bibliográficos
Autor principal: Kazuyuki Takahashi (Ed.)
Formato: Online
Idioma:inglês
Publicado em: MDPI - Multidisciplinary Digital Publishing Institute 2021
Assuntos:
Acesso em linha:27186
Tags: Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!
_version_ 1869522047254659072
author Kazuyuki Takahashi (Ed.)
author_browse Kazuyuki Takahashi (Ed.)
author_facet Kazuyuki Takahashi (Ed.)
author_sort Kazuyuki Takahashi (Ed.)
collection Directory of Open Access Books
description The spin-crossover (SCO) phenomenon originates from the intrinsic bistability of the d-electron configuration, created by the competition between ligand-field splitting and spin-pairing energies in a first coordination sphere of transition metal ions. Since Cambi’s visionary finding of the SCO phenomenon in 1931, considerable knowledge concerning syntheses, crystal structures, magnetic and thermodynamic properties, spectroscopies, molecular orbital calculations, and theories of SCO complexes has accumulated in a very large number of inorganic molecular coordination compounds, and, in addition, inorganic cobaltates and bioinorganic molecular systems. Recent studies which have focused on other electronic properties exhibited by SCO complexes themselves, control of molecular assemblies, and moreover, multifunctionalization of SCO complexes with either different electronic properties or porous frameworks will open the possibility toward future practical applications of SCO complexes. Thus, the fundamentals and applications of SCO complexes afford a very exciting research field in inorganic coordination chemistry and continues to attract growing attention on a wide range of relevant research fields. This Special Issue aims at collecting research and review contributions concerning recent advances in all aspects of SCO and related phenomena and disseminating this extensive knowledge with a broader audience by means of open access publishing. I invite you to contribute papers in the following research areas so that your research can impact the next generation trends in this promising field.
format Online
id doab-20.500.12854ir-59845
institution Directory of Open Access Books
language eng
publishDate 2021
publishDateRange 2021
publishDateSort 2021
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-598452024-04-05T12:39:21Z Spin-Crossover Complexes Kazuyuki Takahashi (Ed.) QD1-999 Stimulus-induced Spin Transition Spin-Crossover (SCO) Crystal Engineering of SCO and related complexes Valence Tautomerism Multifunctionality of SCO and related complexes Charge-transfer-induced Spin Transition Ligand-driven Spin-state Conversion thema EDItEUR::P Mathematics and Science::PN Chemistry The spin-crossover (SCO) phenomenon originates from the intrinsic bistability of the d-electron configuration, created by the competition between ligand-field splitting and spin-pairing energies in a first coordination sphere of transition metal ions. Since Cambi’s visionary finding of the SCO phenomenon in 1931, considerable knowledge concerning syntheses, crystal structures, magnetic and thermodynamic properties, spectroscopies, molecular orbital calculations, and theories of SCO complexes has accumulated in a very large number of inorganic molecular coordination compounds, and, in addition, inorganic cobaltates and bioinorganic molecular systems. Recent studies which have focused on other electronic properties exhibited by SCO complexes themselves, control of molecular assemblies, and moreover, multifunctionalization of SCO complexes with either different electronic properties or porous frameworks will open the possibility toward future practical applications of SCO complexes. Thus, the fundamentals and applications of SCO complexes afford a very exciting research field in inorganic coordination chemistry and continues to attract growing attention on a wide range of relevant research fields. This Special Issue aims at collecting research and review contributions concerning recent advances in all aspects of SCO and related phenomena and disseminating this extensive knowledge with a broader audience by means of open access publishing. I invite you to contribute papers in the following research areas so that your research can impact the next generation trends in this promising field. 2021-02-12T04:17:01Z 2021-02-12T04:17:01Z 2018-06-26 14:01:59 2018 book 27186 9783038428268 9783038428251 https://directory.doabooks.org/handle/20.500.12854/59845 eng image/png Attribution-NonCommercial-NoDerivatives 4.0 International http://www.mdpi.com/books/pdfview/book/652 http://www.mdpi.com/books/pdfview/book/652 MDPI - Multidisciplinary Digital Publishing Institute 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783038428268 9783038428251 VI, 200 open access
spellingShingle QD1-999
Stimulus-induced Spin Transition
Spin-Crossover (SCO)
Crystal Engineering of SCO and related complexes
Valence Tautomerism
Multifunctionality of SCO and related complexes
Charge-transfer-induced Spin Transition
Ligand-driven Spin-state Conversion
thema EDItEUR::P Mathematics and Science::PN Chemistry
Kazuyuki Takahashi (Ed.)
Spin-Crossover Complexes
title Spin-Crossover Complexes
title_full Spin-Crossover Complexes
title_fullStr Spin-Crossover Complexes
title_full_unstemmed Spin-Crossover Complexes
title_short Spin-Crossover Complexes
title_sort spin crossover complexes
topic QD1-999
Stimulus-induced Spin Transition
Spin-Crossover (SCO)
Crystal Engineering of SCO and related complexes
Valence Tautomerism
Multifunctionality of SCO and related complexes
Charge-transfer-induced Spin Transition
Ligand-driven Spin-state Conversion
thema EDItEUR::P Mathematics and Science::PN Chemistry
topic_facet QD1-999
Stimulus-induced Spin Transition
Spin-Crossover (SCO)
Crystal Engineering of SCO and related complexes
Valence Tautomerism
Multifunctionality of SCO and related complexes
Charge-transfer-induced Spin Transition
Ligand-driven Spin-state Conversion
thema EDItEUR::P Mathematics and Science::PN Chemistry
url 27186
work_keys_str_mv AT kazuyukitakahashied spincrossovercomplexes