| 4887 - 4890 |
Introduction: Molecular conductors
Batail P |
| 4891 - 4945 |
Tetrathiafulvalenes, oligoacenenes, and their buckminsterfullerene derivatives: The brick and mortar of organic electronics
Bendikov M, Wudl F, Perepichka DF |
| 4947 - 4969 |
Organic conductors with unusual band fillings
Mori T |
| 4971 - 5003 |
Charge-transfer and energy-transfer processes in pi-conjugated oligomers and polymers: A molecular picture
Bredas JL, Beljonne D, Coropceanu V, Cornil J |
| 5005 - 5036 |
Toward systematic understanding of diversity of electronic properties in low-dimensional molecular solids
Seo H, Hotta C, Fukuyama H |
| 5037 - 5055 |
Theoretical framework for quasi-one dimensional systems
Giamarchi T |
| 5057 - 5083 |
New trends in the synthesis of pi-electron donors for molecular conductors and superconductors
Yamada J, Akutsu H, Nishikawa H, Kikuchi K |
| 5085 - 5113 |
Bi-TTF, bis-TTF, and related TTF oligomers
Iyoda M, Hasegawa M, Miyake Y |
| 5115 - 5131 |
Tetrathiafulvalene cyclophanes and cage molecules
Jeppesen JO, Nielsen MB, Becher J |
| 5133 - 5150 |
Synthesis strategies and chemistry of nonsymmetrically substituted tetrachalcogenafulvalenes
Fabre JM |
| 5151 - 5184 |
Highly functionalized tetrathiafulvalenes: Riding along the synthetic trail from electrophilic alkynes
Gorgues A, Hudhomme P, Salle M |
| 5185 - 5202 |
Dithiadiazafulvalenes: Promising precursors of molecular materials
Lorcy D, Bellec N |
| 5203 - 5241 |
Conducting organic radical cation salts with organic and organometallic anions
Geiser U, Schlueter JA |
| 5243 - 5264 |
Single-component molecular metals with extended-TTF dithiolate ligands
Kobayashi A, Fujiwara E, Kobayashi H |
| 5265 - 5288 |
Organic metals and superconductors based on BETS (BETS = bis(ethylenedithio)tetraselenafulvalene)
Kobayashi H, Cui HB, Kobayashi A |
| 5289 - 5317 |
Bis(ethylenethio)tetrathiafulvalene (BET-TTF) and related dissymmetrical electron donors: From the molecule to functional molecular materials and devices (OFETs)
Rovira C |
| 5319 - 5346 |
Conducting metal dithiolene complexes: Structural and electronic properties
Kato R |
| 5347 - 5378 |
Molecular conductors and superconductors based on trihalides of BEDT-TTF and some of its analogues
Shibaeva RP, Yagubskii EB |
| 5379 - 5418 |
Activation of hydrogen- and halogen-bonding interactions in tetrathiafulvalene-based crystalline molecular conductors
Fourmigue M, Batail P |
| 5419 - 5448 |
Magnetic molecular conductors
Coronado E, Day P |
| 5449 - 5477 |
Magnetic TTF-based charge-transfer complexes
Enoki T, Miyazaki A |
| 5479 - 5501 |
Conducting and magnetic Langmuir-Blodgett films
Talham DR |
| 5503 - 5533 |
Phthalocyanines - Versatile components of molecular conductors
Inabe T, Tajima H |
| 5535 - 5563 |
N,N'-dicyanoquinone diimines (DCNQIs): Versatile acceptors for organic conductors
Hunig S, Herberth E |
| 5565 - 5591 |
Organic conductors: From charge density wave TTF-TCNQ to superconducting (TMTSF)(2)PF6
Jerome D |
| 5593 - 5608 |
Control of electronic properties of molecular conductors by uniaxial strain
Kagoshima S, Kondo R |
| 5609 - 5634 |
Study of molecular conductors by X-ray diffuse scattering
Ravy S |
| 5635 - 5653 |
NMR studies on two-dimensional molecular conductors and superconductors: Mott transition in kappa-(BEDT-TTF)(2)X
Miyagawa K, Kanoda K, Kawamoto A |
| 5655 - 5687 |
Electron spin resonance: A major probe for molecular conductors
Coulon C, Clerac R |
| 5689 - 5715 |
Optical properties of two-dimensional organic conductors: Signatures of charge ordering and correlation effects
Dressel MT, Drichko N |
| 5717 - 5735 |
Muon-Spin rotation studies of electronic properties of molecular conductors and superconductors
Blundell SJ |
| 5737 - 5781 |
High magnetic fields: A tool for studying electronic properties of layered organic metals
Kartsovnik MV |
