Reprint
Organic Conductors
Edited by
June 2022
418 pages
- ISBN978-3-0365-4559-2 (Hardback)
- ISBN978-3-0365-4560-8 (PDF)
This book is a reprint of the Special Issue Organic Conductors that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Summary
This collection of articles focuses on different aspects of the study of organic conductors. Recent progress in both theoretical and experimental studies is covered in this Special Issue. Papers on a wide variety of studies are categorized into representative topics of chemistry and physics. Besides classical studies on the crystalline organic conductors, applied studies on semiconducting thin films and a number of new topics shared with inorganic materials are also discussed.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
organic π-radical; molecular conductor; phthalocyanine; three-dimensional network; three-dimensional electronic system; organic conductors; bis(ethylenedithio)tetrathiafulvalene (BEDT-TTF); bis(ethylenediseleno)tetrathiafulvalene (BEST); bis(ethylenedithio)tetraselenafulvalene (BETS); electrical resistivity; magnetic susceptibility; X-ray analysis; charge-ordered state; quantum chemical calculations; Madelung energy; magnetic property; reversible transformation; spin ladder; nodal line semimetal; single-component molecular conductor; conductivity; DOS; tight-binding model; interacting electrons in one dimension; electronic and lattice instabilities; renormalization group method; organic conductors; X-ray diffraction; single crystal; electron density; molecular orbital; single-component molecular conductors; extended-TTF dithiolate ligands; gold dithiolate complexes; (BETS)2Fe1−xGaxCl4; π-d interaction; NMR; charge glass; heat capacity; electric current; electric voltage; Boson peak; organic conductors; chirality; tetrathiafulvalene; crystal structures; electrical resistivity; band structure calculations; tetrathiafulvalene; molecular conductor; hydrogen bonding; charge-transfer salts; (TMTTF)2X; deuteration; anions; charge transport; tunnel junction; MOCVD; quantum well; co-doping; solar cells; (TMTSF)8(I3)5; (TMTSF)5(I3)2; (TMTSF)4(I3)4·THF; organic conductor; crystal structure; electrical resistivity; high pressure; DFT; MP2; organic superconductors; Beechgard salts; Maxwell-Garnett approximation; high-Tc; single-component molecular conductor; pressure effect; Dirac electron system; resistivity; magnetoresistance; synchrotron X-ray diffraction; band calculation; organic superconductors; correlated electron materials; layered organic conductor; unconventional superconductivity; vortex dynamics; d-wave pairing symmetry; superconducting gap structure; magnetic field; flux-flow resistivity; organic conductor; charge-ordered insulator; electric double layer transistor; organic field-effect transistor; π–d system; Mott insulator; strongly correlated electron system; multiferroic; dielectric; photoconductor; Dirac electron system; single-component molecular conductor; organic conductors; organic semiconductors; molecular orbitals; pyroelectricity; temperature modulation; molecular ferroelectrics; radiative temperature control; thermal diffusion model; lithium niobate; molecular conductor; first-principles calculation; density-functional theory; charge ordering; hybrid functional; electronic structure; nickel–dithiolene complex; cycloalkane substituent; molecular conductor; crystalline organic charge-transfer complexes; disordered systems; overlap integrals; extended Hückel approximation; Dirac electrons; zero-gap semiconductors; merging of Dirac cones; n/a