中崎城太郎の論文の被引用状況

PbS-Quantum-Dot-Based Heterojunction Solar Cells Utilizing ZnO Nanowires for High External Quantum Efficiency in the Near-Infrared Region
Haibin WANG, Takaya KUBO, Jotaro NAKAZAKI, Takumi KINOSHITA, Hiroshi SEGAWA
Journal of Physical Chemistry Letters 2013, 4, 2455-2460.
被引用数：１

1. Photofunctional materials fabricated with chalcopyrite-type semiconductor nanoparticles composed of AgInS2 and its solid solutions
   T. Torimoto, T. Kameyama, S. Kuwabata
   Journal of Physical Chemistry Letters 2014, 5(2), 336-347.
   
   

A Donor-Acceptor Type Organic Dye Connected with A Quinoidal Thiophene for Dye-Sensitized Solar Cells
Makoto KOMATSU, Jotaro NAKAZAKI, Satoshi UCHIDA, Takaya KUBO, Hiroshi SEGAWA
Physical Chemistry Chemical Physics 2013, 15, 3227-3232.
被引用数：２

1. Low band gap polymers design approach based on a mix of aromatic and quinoid structures
   N. Berube, J. Gaudreau, M. Cote
   Macromolecules 2013, 46(17), 6873-6880.
   
   
2. Electronic structure calculations for the study of D-π-A organic sensitizers: exploring polythiophene linkers
   C. Climent, D. Casanova
   Chemical Physics 2013, 423, 157-166.
   
   

Visible to Near-Infrared Photoelectric Conversion in a Dye-Sensitized Solar Cell Using Ru(II) Porphyrin with Azopyridine Axial Ligands
Takumi KINOSHITA, Jun-ichi FUJISAWA, Jotaro NAKAZAKI, Satoshi UCHIDA, Takaya KUBO, Hiroshi SEGAWA
Japanese Journal of Applied Physics 2012, 51, 10NE02/1-10NE02/4.
被引用数：０

Theoretical Analysis of the Solvatochromism of Organic Dyes Differing by the Conjugation Sequence
Sergei MANZHOS, Makoto KOMATSU, Jotaro NAKAZAKI, Hiroshi SEGAWA, Koichi YAMASHITA
Journal of Photonics for Energy 2012, 2(1), 028001/1-028001/10.
被引用数：１

1. Computational design of new organics dyes with improved solar absorbance for dye-sensitized solar cells
   S. Manzhos
   MRS Communications 2013, 3(1), 37-39.
   
   

Ethynyl-linked Push-pull Porphyrin Hetero-dimers for Near-IR Dye-sensitized Solar Cells: Photovoltaic Performances versus Excited-state Dynamics
Yizhu LIU, Hong LIN, Jianbao LI, Joanne Ting DY, Koichi TAMAKI, Jotaro NAKAZAKI, Daisuke NAKAYAMA, Chie NISHIYAMA, Satoshi UCHIDA, Takaya KUBO, Hiroshi SEGAWA
Physical Chemistry Chemical Physics 2012, 14, 16703-16712.
被引用数：２

1. Diketopyrrolopyrrole-zinc porphyrin, a tuned panchromatic association for dye-sensitized solar cells
   L. Favereau, J. Warnan, F. B. Anne, Y. Pellegrin, E. Blart, D. Jacquemin, F. Odobel
   Journal of Materials Chemistry A 2013, 1(26), 7572-7575.
   
   
2. Kinetics versus energetics in dye-sensitized solar cells based on an ethynyl-linked porphyrin heterodimer
   Y. Liu, H. Lin, J. T. Dy, K. Tamaki, J. Nakazaki, C. Nishiyama, S. Uchida, H. Segawa, J. Li
   Journal of Physical Chemistry C 2014, 118(3), 1426-1435.
   
   

Enhancement of Near-IR Photoelectric Conversion in Dye-Sensitized Solar Cells Using an Osmium Sensitizer with Strong Spin-Forbidden Transition
Takumi KINOSHITA, Jun-ichi FUJISAWA, Jotaro NAKAZAKI, Satoshi UCHIDA, Takaya KUBO, and Hiroshi SEGAWA
Journal of Physical Chemistry Letters 2012, 3(3), 394-398.
被引用数：１２

1. Recent developments in molecule-based organic materials for dye-sensitized solar cells
   Y.-S. Yen, H.-H. Chou, Y.-C. Chen, C.-Y. Hsu, J. T. Lin
   Journal of Materials Chemistry 2012, 22(18), 8734-8747.
   
   
2. Unsymmetrical squaraines incorporating quinoline for near infrared responsive dye-sensitized solar cells
   J.-Y. Li, C.-Y. Chen, W.-C. Ho, S.-H. Chen, C.-G. Wu
   Organic Letters 2012, 14(21), 5420-5423.
   
   
3. Evaluation of the potential effectiveness of ruthenium(II) complexes with 2,3-disubtituted pyrazino[2,3-f][1,10]phenanthroline anchors, R2ppl (R = CN, COOH, COOEt, OH) as sensitizers for solar cells
   A. Francois, R. Diaz, A. Ramirez, B. Loeb, M. Barrera, I. Crivelli
   Polyhedron 2013, 52, 62-71.
   
   
4. Everything you always wanted to know about black dye (but were afraid to ask): a DFT/TDDFT investigation
   S. Fantacci, M. G. Lobello, F. De Angelis
   Chimia 2013, 67(3), 121-128.
   
   
5. Novel main chain polymeric metal complexes based on Zn(II) or Cd(II) with fluorene and 8-hydroxyquinoline ligand: synthesis, characterization and photovoltaic application in DSSCs
   X. Yu, G. Wen, J. Deng, X. Jin, J. Zhou, W. Zhang, C. Zhong
   Journal of Inorganic and Organometallic Polymers and Materials 2013, 23(3), 579-586.
   
   
6. Solid-state dye-sensitized solar cells using a novel class of ullazine dyes as sensitizers
   A. Dualeh, R. Humphry-Baker, J. H. Delcamp, M. K. Nazeeruddin, M. Gratzel
   Advanced Energy Materials 2013, 3(4), 496-504.
   
   
7. Highly efficient dye-sensitized solar cells: progress and future challenges
   S. Zhang, X. Yang, Y. Numata, L. Han
   Energy & Environmental Science 2013, 6(5), 1443-1464.
   
   
8. Ultrafast relaxation dynamics of osmium-polypyridine complexes in solution
   O. Bram, F. Messina, E. Baranoff, A. Cannizzo, M. K. Nazeeruddin, M. Chergui
   Journal of Physical Chemistry C 2013, 117(31), 15959-15966.
   
   
9. Design of OsII-based sensitizers for dye-sensitized solar cells: Influence of heterocyclic ancillaries
   F.-C. Hu, S.-W. Wang, M. Planells, N. Robertson, H. Padhy, B.-S. Du, Y. Chi, P.-F. Yang, H.-W. Lin, G.-H. Lee, P.-T. Chou
   ChemSusChem 2013, 6(8), 1366-1375.
   
   
10. Synthesis and photovoltaic properties of main chain polymeric metal complexes containing 8-hydroxyquinoline metal complexes conjugating alkyl fluorene or alkoxy benzene by C=N bridge for dye-sensitized solar cells
    X. Jin, X. Yu, W. Zhang, J. Zhou, G. Tang, C. Zhong
    Polymer Composites 2013, 34(10), 1629-1639.
    
    
11. Efficient parallel all-electron four-component Dirac-Kohn-Sham program using a distributed matrix approach II
    L. Storchi, S. Rampino, L. Belpassi, F. Tarantelli, H. M. Quiney
    Journal of Chemical Theory and Computation 2013, 9(12), 5356-5364.
    
    
12. Impact of spin-orbit coupling on photocurrent generation in ruthenium dye-sensitized solar cells
    S. Fantacci, E. Ronca, F. De Angelis
    Journal of Physical Chemistry Letters 2014, 5(2), 375-380.
    
    

Excitation Energy Transfer from Quantum Dots to Porphyrin J-Aggregates in Hybrid Langmuir-Blodgett Multilayers
Haibin WANG, Jotaro NAKAZAKI, Takaya KUBO, and Hiroshi SEGAWA
Chemistry Letters 2012, 41(1), 122-124.
被引用数：０

N-Fused Carbazole — Zinc Porphyrin — Free-Base Porphyrin Triad for Efficient Near-IR Dye-Sensitized Solar Cells
Yizhu LIU, Hong LIN, Joanne Ting DY, Koichi TAMAKI, Jotaro NAKAZAKI, Daisuke NAKAYAMA, Satoshi UCHIDA, Takaya KUBO, and Hiroshi SEGAWA
Chemical Communications 2011, 47(13), 4010-4012.
被引用数：２９

1. Novel D-π-A system based on zinc-porphyrin derivatives for highly efficient dye-sensitised solar cells
   M. J. Lee, K. D. Seo, H. M. Song, M. S. Kang, Y. K. Eom, H. S. Kang, H. K. Kim
   Tetrahedron Letters 2011, 52(30), 3879-3882.
   
   
2. Donor-substituted β-functionalized porphyrin dyes on hierarchically structured mesoporous TiO2 spheres. Highly efficient dye-sensitized solar cells
   M. Ishida, S. W. Park, D. Hwang, Y. B. Koo, J. L. Sessler, D. Y. Kim, D. Kim
   Journal of Physical Chemistry C 2011, 115(39), 19343-19354.
   
   
3. Novel D-π-A system based on zinc porphyrin dyes for dye-sensitized solar cells: Synthesis, electrochemical, and photovoltaic properties
   K. D. Seo, M. J. Lee, H. M. Song, H. S. Kang, H. K. Kim
   Dyes and Pigments 2012, 94(1), 143-149.
   
   
4. Modulation of energy levels by donor groups: An effective approach for optimizing the efficiency of zinc-porphyrin based solar cells
   B. Liu, W. Zhu, Y. Wang, W. Wu, X. Li, B. Chen, Y.-T. Long, Y. Xie
   Journal of Materials Chemistry 2012, 22(15), 7434-7444.
   
   
5. A new family of A2B2 type porphyrin derivatives: synthesis, physicochemical characterization and their application in dye-sensitized solar cells
   M. K. Panda, G. D. Sharma, K. R. J. Thomas, A. G. Coutsolelos
   Journal of Materials Chemistry 2012, 22(16), 8092-8102.
   
   
6. Self-assembling porphyrins and phthalocyanines for photoinduced charge separation and charge transport
   H. Imahori, T. Umeyama, K. Kurotobi, Y. Takano
   Chemical Communications 2012, 48(34), 4032-4045.
   
   
7. Quantum chemical study of the ground and excited state electronic structures of carbazole oligomers with and without triarylborane substitutes
   S. Zhang, Z. Qu, P. Tao, B. Brooks, Y. Shao, X. Chen, C. Liu
   Journal of Physical Chemistry C 2012, 116(23), 12434-12442.
   
   
8. Tetrathiafulvalene-fused porphyrins via quinoxaline linkers: Symmetric and asymmetric donor-acceptor systems
   H. Jia, B. Schmid, S.-X. Liu, M. Jaggi, P. Monbaron, S. V. Bhosale, S. Rivadehi, S. J. Langford, L. Sanguinet, E. Levillain, M. El-Khouly, Y. Morita, S. Fukuzumi, S. Decurtins
   ChemPhysChem 2012, 13(14), 3370-3382.
   
   
9. Photophysical and electrochemical properties, and molecular structures of organic dyes for dye-sensitized solar cells
   Y. Ooyama, Y. Harima
   ChemPhysChem 2012, 13(18), 4032-4080.
   
   
10. Synthesis and photophysical properties of phosphorus(V) porphyrins functionalized with axial carbazolylvinylnaphthalimides
    Y. Zhan, K. Cao, C. Wang, J. Jia, P. Xue, X. Liu, X. Duan, R. Lu
    Organic&Biomolecular Chemistry 2012, 10(43), 8701-8709.
    
    
11. A selective co-sensitization approach to increase photon conversion efficiency and electron lifetime in dye-sensitized solar cells
    L. H. Nguyen, H. K. Mulmudi, D. Sabba, S. A. Sneha, S. K. Batabyal, K. Nonomura, M. Graetzel S. G. Mhaisalkar
    Physical Chemistry Chemical Physics 2012, 14(47), 16182-16186.
    
    
12. Ethynyl-linked push-pull porphyrin hetero-dimers for near-IR dye-sensitized solar cells: photovoltaic performances versus excited-state dynamics
    Y. Liu, H. Lin, J. Li, J. T. Dy, K. Tamaki, J. Nakazaki, D. Nakayama, C. Nhishiyama, S. Uchida, T. Kubo, H. Seagwa
    Physical Chemistry Chemical Physics 2012, 14(48), 16703-16712.
    
    
13. Molecular engineering of cocktail co-sensitization for efficient panchromatic porphyrin-sensitized solar cells
    H.-P. Wu, Z.-W. Ou, T.-Y. Pan, C.-M. Lan, W.-K. Huang, H.-W. Lee, N. M. Reddy, C.-T. Chen, W.-S. Chao, C.-Y. Yeh, E. W.-G. Diau
    Energy&Environmental Science 2012, 5(12), 9843-9848.
    
    
14. Porphyrin-sensitized solar cells
    L.-L. Li, E. W.-G. Diau
    Chemical Society Reviews 2013, 42(1), 291-304.
    
    
15. Zinc porphyrins with a pyridine ring anchoring group for dye sensitized solar cells
    J. Lu, X. Xu, Z. Li, K. Cao, J. Cui, Y. Zhang, Y. Shen, Y. Li, J. Zhu, S. Dai, W. Chen, Y. Cheng, M. Wang
    Chemistry - An Asian Journal 2013, 8(5), 956-962.
    
    
16. Novel D-π-A structured porphyrin dyes with diphenylamine derived electron-donating substituents for highly efficient dye-sensitized solar cells
    S. H. Kang, I. T. Choi, M. S. Kang, Y. K. Eom, M. J. Ju, J. Y. Hong, H. S. Kang, H. K. Kim
    Journal of Materials Chemistry A 2013, 1(12), 3977-3982.
    
    
17. Synthesis and photophysical properties of doubly β-to-β bridged cyclic ZnII porphyrin arrays
    Q. Hao, Y. Zeng, T. Yu, J. Chen, G. Yang, Y. Li
    Chemistry - An Asian Journal 2013, 8(5), 1015-1022.
    
    
18. Performance of four artificial chlorin-type sensitizers with different stereostructures in dye-sensitized solar cells
    X. Liu, C. Li, X. Peng, Y. Zhou, Z. Zeng, Y. Li, T. Zhang, B. Zhang, Y. Dong, D. Sun, P. Cheng, Y. Feng
    Dyes and Pigments 2013, 98(2), 181-189.
    
    
19. Cation exchange at semiconducting oxide surfaces: origin of light-induced performance increases in porphyrin dye-sensitized solar cells
    M. J. Griffith, K. Sunahara, A. Furube, A. J. Mozer, D. L. Officer, P. Wagner, G. G. Wallace, S. Mori
    Journal of Physical Chemistry C 2013, 117(23), 11885-11898.
    
    
20. New triphenylamine organic dyes containing dithieno[3,2-b:2',3'-d]pyrrole (DTP) units for iodine-free dye-sensitized solar cells
    Z. Wang, M. Liang, L. Wang, Y. Hao, C. Wang, Z. Sun, S. Xue
    Chemical Communications 2013, 49(51), 5748-5750.
    
    
21. Diketopyrrolopyrrole-zinc porphyrin, a tuned panchromatic association for dye-sensitized solar cells
    L. Favereau, J. Warnan, F. B. Anne, Y. Pellegrin, E. Blart, D. Jacquemin, F. Odobel
    Journal of Materials Chemistry A 2013, 1(26), 7572-7575.
    
    
22. Quantum-chemical insight into the reactivity of 5-bromo-10,20-diarylporphyrins towards nucleophiles
    K. P. Birin, Y. G. Gorbunova, A. Y. Tsivadze, A. G. Bessmertnykh-Lemeune, R. Guilard
    Makrogeterotsikly 2012, 5(4-5), 338-342.
    
    
23. Porphyrins bearing long alkoxyl chains and carbazole for dye-sensitized solar cells: tuning cell performance through an ethynylene bridge
    Y. Wang, X. Li, B. Liu, W. Wu, W. Zhu, Y. Xie
    RSC Advances 2013, 3(34), 14780-14790.
    
    
24. D-π-A structured porphyrins for efficient dye-sensitized solar cells
    J. Lu, X. Xu, K. Cao, J. Cui, Y. Zhang, Y. Shen, X. Shi, L. Liao, Y. Cheng, M. Wang
    Journal of Materials Chemistry A 2013, 1(34), 10008-10015.
    
    
25. Efficient sensitization of dye-sensitized solar cells by novel triazine-bridged porphyrin-porphyrin dyads
    G. E. Zervaki, M. S. Roy, M. K. Panda, P. A. Angaridis, E. Chrissos, G. D. Sharma, A. G. Coutsolelos
    Inorganic Chemistry 2013, 52(17), 9813-9825.
    
    
26. A nonconjugated bridge in dimer-sensitized solar cells retards charge recombination without decreasing charge injection efficiency
    K. Sunahara, M. J. Griffith, T. Uchiyama, P. Wagner, D. L. Officer, G. G. Wallace, A. J. Mozer, S. Mori
    ACS Applied Materials and Interfaces 2013, 5(21), 10824-10829.
    
    
27. N-annulated perylene as an efficient electron donor for porphyrin-based dyes: enhanced light-harvesting ability and high-efficiency Co(II/III)-based dye-sensitized solar cells
    J. Luo, M. Xu, R. Li, K.-W. Huang, C. Jiang, Q. Qi, W. Zeng, J. Zhang, C. Chi, P. Wang, J. Wu
    Journal of the American Chemical Society 2014, 136(1), 265-272.
    
    
28. Facile dearomatisation of porphyrins using palladium-catalysed hydrazination: the 5,15-diiminoporphodimethenes and their redox products
    L. J. Esdaile, G. L. Simpkins, O. B. Locos, L. Rintoul, M. P. Duriska, P. Turner, J. C. McMurtrie, D. P. Arnold
    Tetrahedron 2014, 70(2), 517-532.
    
    
29. Kinetics versus energetics in dye-sensitized solar cells based on an ethynyl-linked porphyrin heterodimer
    Y. Liu, H. Lin, J. T. Dy, K. Tamaki, J. Nakazaki, C. Nishiyama, S. Uchida, H. Segawa, J. Li
    Journal of Physical Chemistry C 2014, 118(3), 1426-1435.
    
    

Meso-meso Linked Porphyrin Dimers for Dye-sensitized Solar Cells
Joanne Ting DY, Koichi TAMAKI, Yoshitaka SANEHIRA, Jotaro NAKAZAKI, Satoshi UCHIDA, Takaya KUBO, and Hiroshi SEGAWA
Electrochemistry 2009, 77(3), 206-209.
被引用数：１２

1. Zn-Zn porphyrin dimer-sensitized solar cells: Toward 3-D light harvesting
   A. J. Mozer, M. J. Griffith, G. Tsekouras, P. Wagner, G. G. Wallace, S. Mori, K. Sunahara, M. Miyashita, J. C. Earles, K. C. Gordon, L. Du, R. Katoh, A. Furube, D. L. Officer
   Journal of the American Chemical Society 2009, 131(43), 15621-15623.
   
   
2. Doubly β-functionalized meso-meso directly linked porphyrin dimer sensitizers for photovoltaics
   J. K. Park, J. Chen, H. R. Lee, S. W. Park, H. Shinokubo, A. Osuka, D. Kim
   Journal of Physical Chemistry C 2009, 113(52), 21956-21963.
   
   
3. Cyclic tetrapyrrole based molecules for dye-sensitized solar cells
   X.-F. Wang, H. Tamiaki
   Energy and Environmental Science 2010, 3(1), 94-106.
   
   
4. Polymer-sensitized solar cells with novel soluble polythiophene derivatives
   T. Kubo, K. Akitsu, S. Uchida, H. Segawa, N. Otani, M. Tomura, T. Tamura, M. Matsumura
   Journal of Photopolymer Science and Technology 2010, 23(2), 283-286.
   
   
5. Remarkable improvement in sensitizing property of tetraphenylporphyrincarboxylic acids as sensitizers for dye-sensitized solar cells by the introduction of trimethylsilyl groups as substituents
   K. Kakiage, E. Fujimura, H. Mine, T. Izumizawa, T. Katoh, K. Yoshimura, S. Kyushin, T. Kyomen, M. Hanaya
   Chemistry Letters 2010, 39(10), 1063-1065.
   
   
6. N-fused carbazole — zinc porphyrin — free-base porphyrin triad for efficient near-IR dye-sensitized solar cells
   Y. Liu, H. Lin, J. T. Dy, K. Tamaki, J. Nakazaki, D. Nakayama, S. Uchida, T. Kubo, H. Segawa
   Chemical Communications 2011, 47(13), 4010-4012.
   
   
7. Development of dye-sensitized solar cells fabricated with PVDF-HFP-type polymeric solid electrolytes and titanium dioxide nanotubes
   Y. Nishikitani, T. Kubo
   Journal of the Japan Petroleum Institute 2011, 54(3), 168-179.
   
   
8. Development of efficient organic solar cells based on triarylamine-functionalized ruthenium dyes
   Y. Nishikitani, T. Kubo, H. Masuda
   Molecular Crystals and Liquid Crystals 2011, 538, 1-9.
   
   
9. SiO₂ aerogel templated, porous TiO₂ photoanodes for enhanced performance in dye-sensitized solar cells containing a Ni(III)/(IV) bis(dicarbollide) shuttle
   T. C. Li, F. Fabregat-Santiago, O. K. Farha, A. M. Spokoyny, S. R. Raga, J. Bisquert, C. A. Mirkin, T. J. Marks, J. T. Hupp
   Journal of Physical Chemistry C 2011, 115(22), 11257-11264.
   
   
10. Opp-dibenzoporphyrins as a light-harvester for dye-sensitized solar cells
    R. Deshpande, B. Wang, L. Dai, L. Jiang, C. S. Hartley, S. Zou, H. Wang, L. Kerr
    Chemistry - An Asian Journal 2012, 7(11), 2662-2669.
    
    
11. Visible to near-infrared photoelectric conversion in a dye-sensitized solar cell using Ru(II) porphyrin with azopyridine axial ligands
    T. Kinoshita, J. Fujisawa, J. Nakazaki, S. Uchida, T. Kubo, H. Segawa
    Japanese Journal of Applied Physics 2012, 51(10, Pt.2), 10NE02/1-10NE02/4.
    
    
12. Ethynyl-linked push-pull porphyrin hetero-dimers for near-IR dye-sensitized solar cells: photovoltaic performances versus excited-state dynamics
    Y. Liu, H. Lin, J. Li, J. T. Dy, K. Tamaki, J. Nakazaki, D. Nakayama, C. Nhishiyama, S. Uchida, T. Kubo, H. Seagwa
    Physical Chemistry Chemical Physics 2012, 14(48), 16703-16712.
    
    

Push-Pull Quinoid Dye for Dye Sensitized Solar Cell
Makoto KOMATSU, Koichi TAMAKI, Jotaro NAKAZAKI, Satoshi UCHIDA, Takaya KUBO, and Hiroshi SEGAWA
ECS Transactions 2008, 16(25), 65-72.
被引用数：１

1. Quinoid conjugated dye designed for efficient sensitizer in dye sensitized solar cells
   Y. Jiao, W. Ma, S. Meng
   Chemical Physics Letters 2013, 586, 97-99.
   
   

Regioselective Sulfonation of 2-Porphyrinylthiophene under Kinetic and Thermodynamic Control
Yonbon ARAI, Jotaro NAKAZAKI, and Hiroshi SEGAWA
Tetrahedron Letters 2008, 49(40), 5810-5812.
被引用数：８

1. Five-membered ring systems: Thiophenes and Se/Te analogues
   T. Janosik, J. Bergman
   Progress in Heterocyclic Chemistry 2009, 21, 115-144.
   
   
2. Positional selectivity in electrophilic substitution in π-excessive heteroaromatics
   L. I. Belen'kii
   Advances in Heterocyclic Chemistry 2010, 99, 143-183.
   
   
3. J-aggregation of protonated meso-tetrakis(sulfonatothienyl)porphyrin isomers: Morphological selection of self-assembled nanostructures from structurally similar zwitterionic porphyrins
   Y. Arai, H. Segawa
   Chemical Communications 2010, 46(24), 4279-4281.
   
   
4. Electrophilic aromatic substitution
   R. G. Coombes
   Organic Reaction Mechanisms 2011, 165-182.
   
   
5. Cl^— complexation induced H- and J-aggregation of meso-tetrakis(4-sulfonatothienyl)porphyrin diacid in aqueous solution
   Y. Arai, H. Segawa
   Journal of Physical Chemistry B 2011, 115(24), 7773-7780.
   
   
6. Homogeneously mixed porphyrin J-aggregates with rod-shaped nanostructures via zwitterionic self-assembly
   Y. Arai, K. Tsuzuki, H. Segawa
   Physical Chemistry Chemical Physics 2012, 14(3), 1270-1276.
   
   
7. Significantly enhanced adsorption of bulk self-assembling porphyrins at solid/liquid interfaces through the self-assembly process
   Y. Arai, H. Segawa
   Journal of Physical Chemistry B 2012, 116(45), 13575-13581.
   
   
8. Regiocontrolled construction of furo[3,2-c]pyran-4-one derivatives by palladium-catalyzed cyclization of propargylic carbonates with 4-hydroxy-2-pyrones
   M. Yoshida, T. Nakagawa, K. Kinoshita, K. Shishido
   Journal of Organic Chemistry 2013, 78(4), 1687-1692.
   
   

Modulative Magnetic Interaction in π-Diradicals of Directly meso-Linked Porphyrin Dimers
Jotaro NAKAZAKI, Yutaka SENSHU, and Hiroshi SEGAWA
Polyhedron 2005, 24(16-17), 2538-2543.
被引用数：５

1. Electron spin-spin exchange coupling mediated by the porphyrin π system
   D. A. Shultz, C. P. Mussari, K. K. Ramanathan, J. W. Kampf
   Inorganic Chemistry 2006, 45(15), 5752-5759.
   
   
2. Comparative behaviour of the anodic oxidation of mono-, di- and tetra-arylporphyrins: Towards new electroactive materials with variable bandgaps
   J. Rault-Berthelot, C. Paul-Roth, C. Poriel, S. Juillard, S. Ballut, S. Drouet, G. Simonneaux
   Journal of Electroanalytical Chemistry 2008, 623(2), 204-214.
   
   
3. Study of antibacterial activity of ZnZnbisporphyrin complexes and its free components on Staphylococcus aureus by microcalorimetry
   X.-J. Xu, C.-Q. Chen, Z.-Y. Wang, Y. Zhang, A.-X. Hou, C.-H. Li, Y. Liu
   Biological Trace Element Research 2009, 127(3), 269-277.
   
   
4. Rapid intramolecular hole hopping in meso-meso and meta-phenylene linked linear and cyclic multiporphyrin arrays
   T. M. Wilson, T. Hori, M.-C. Yoon, N. Aratani, A. Osuka, D. Kim, M. R. Wasielewski
   Journal of the American Chemical Society 2010, 132(4), 1383-1388.
   
   
5. Control over the oxidative reactivity of metalloporphyrins. Efficient electrosynthesis of meso,meso-linked zinc porphyrin dimer
   A. K. D. Dime, C. H. Devillers, H. Cattey, B. Habermeyer, D. Lucas
   Dalton Transactions 2012, 41(3), 929-936.
   
   

Spin Alignment of Orthogonal π-Radicals of Directly meso-meso Linked Porphyrin Dimer, Trimer, and Tetramer
Jotaro NAKAZAKI, Yutaka SENSHU, Daiki MACHIDA, and Hiroshi SEGAWA
Transactions of the Materials Research Society of Japan 2005, 30(3), 739-742.
被引用数：０

Triplet π-Diradical Dication of Directly meso-β-Linked Porphyrin Dimer
Hiroshi SEGAWA, Yutaka SENSHU, Jotaro NAKAZAKI, and Kimihiro SUSUMU
Journal of the American Chemical Society 2004, 126(5), 1354-1355.
被引用数：１７

1. Synthesis and characterization of a directly linked N-confused porphyrin dimer
   P. J. Chmielewski
   Angewandte Chemie International Edition 2004, 43(42), 5655-5658.
   
   
2. Synthesis and characterization of a cyclic bis-silver(I) assembly of four 2-aza-21-carbaporphyrinatosilver(III) subunits
   P. J. Chmielewski
   Angewandte Chemie International Edition 2005, 44(39), 6417-6420.
   
   
3. The importance of a β-β bond for long-range antiferromagnetic coupling in directly linked copper(II) and silver(II) diporphyrins
   T. Ikeue, K. Furukawa, H. Hata, N. Aratani, H. Shinokubo, T. Kato, A. Osuka
   Angewandte Chemie International Edition 2005, 44(42), 6899-6901.
   
   
4. Modulative magnetic interaction in π-diradicals of directly meso-linked porphyrin dimers
   J. Nakazaki, Y. Senshu, H. Segawa
   Polyhedron 2005, 24(16-17), 2538-2543.
   
   
5. Spin alignment of orthogonal π-radicals of directly meso-meso linked porphyrin dimer, trimer, and tetramer
   J. Nakazaki, Y. Senshu, D. Machida, H. Segawa
   Transactions of the Materials Research Society of Japan 2005, 30(3), 739-742.
   
   
6. Electron spin-spin exchange coupling mediated by the porphyrin π system
   D. A. Shultz, C. P. Mussari, K. K. Ramanathan, J. W. Kampf
   Inorganic Chemistry 2006, 45(15), 5752-5759.
   
   
7. Synthesis of brominated directly fused diporphyrins through gold(III)-mediated oxidation
   A. K. Sahoo, Y. Nakamura, N. Aratani, K. S. Kim, S. B. Noh, H. Shinokubo, D. Kim, A. Osuka
   Organic Letters 2006, 8(18), 4141-4144.
   
   
8. Synthesis, characterization, and chirality of dimeric N-confused porphyrin-zinc complexes: Toward the enantioselective synthesis of bis(porphyrinoid) systems
   M. Siczek, P. J. Chmielewski
   Angewandte Chemie International Edition 2007, 46(39), 7432-7436.
   
   
9. Photochemical and electrochemical properties of porphyrin dimers containing an anhydride spacer
   H. Fa, W. Yin, C. Hou, W. Zheng, D. Wang, X. Wang
   Journal of Coordination Chemistry 2009, 62(7), 1151-1161.
   
   
10. Theoretical study of intermolecular interactions in meso-tetraphenylporphyrin diacid dimer (H₄TPPCl₂)₂
    Y.-P. Ma, S.-G. He, X.-L. Ding, Z.-C. Wang, W. Xue, Q. Shi
    Physical Chemistry Chemical Physics 2009, 11(14), 2543-2552.
    
    
11. Enhanced electron-transfer properties of cofacial porphyrin dimers through π-π interactions
    A. Takai, C. P. Gros, J.-M. Barbe, R. Guilard, S. Fukuzumi
    Chemistry - A European Journal 2009, 15(13), 3110-3122.
    
    
12. An efficient PIFA-mediated synthesis of fused diporphyrin and triply-singly interlacedly linked porphyrin array
    Q. Ouyang, Y.-Z. Zhu, C.-H. Zhang, K.-Q. Yan, Y.-C. Li, J.-Y. Zheng
    Organic Letters 2009, 11(22), 5266-5269.
    
    
13. Helical bis(N-confused porphyrins) with subunits fused by double orthometalation with platinum: adaptability of an apparently rigid system
    P. J. Chmielewski, B. Durlej, M. Siczek, L. Szterenberg
    Angewandte Chemie International Edition 2009, 48(46), 8736-8739, S8736/1-S8736/62.
    
    
14. Palladium-catalyzed dimerization of meso-bromoporphyrins: Highly regioselective meso-β coupling through unprecedented remote C-H bond cleavage
    S. Tokuji, T. Yurino, N. Aratani, H. Shinokubo, A. Osuka
    Chemistry--A European Journal 2009, 15(45), 12208-12211, S12208/1-S12208/18.
    
    
15. Synthesis and magnetic properties of orthogonally linked phenothiazine cation radical dimer and tetramer
    H. Oka
    Organic Letters 2010, 12(3), 448-451.
    
    
16. Efficient photoinduced electron transfer in a porphyrin tripod-fullerene supramolecular complex via π-π interactions in nonpolar media
    A. Takai, M. Chkounda, A. Eggenspiller, C. P. Gros, M. Lachkar, J.-M. Barbe, S. Fukuzumi
    Journal of the American Chemical Society 2010, 132(12), 4477-4489.
    
    
17. Greatly enhanced intermolecular π-dimer formation of a porphyrin trimer radical trications through multiple π bonds
    A. Takai, C. P. Gros, J.-M. Barbe, S. Fukuzumi
    Chemistry--A European Journal 2011, 17(12), 3420-3428.
    
    

Structure and Properties of Protonated Water-Insoluble Porphyrin J-Aggregates Formed at Liquid-Liquid or Gas-Liquid Interface
Hiroshi SEGAWA, Shinsuke OKADA, Noriko HORIKAWA, and Jotaro NAKAZAKI
Transactions of the Materials Research Society of Japan 2004, 29(3), 907-910.
被引用数：０

Design and Preparation of Pyrrole-Based Spin-Polarized Donors
Jotaro NAKAZAKI, InGwon CHUNG, Michio M. MATSUSHITA, Tadashi SUGAWARA, Ryoji WATANABE, Akira IZUOKA, and Yuzo KAWADA
Journal of Materials Chemistry 2003, 13(5), 1011-1022.
被引用数：３７

1. Organic metals and superconductors based on BETS (BETS = bis(ethylenedithio)tetraselenafulvalene)
   H. Kobayashi, H. B. Cui, A. Kobayashi
   Chemical Reviews 2004, 104(11), 5265-5288.
   
   
2. Theory of doping induced high-spin in a model of polyene-based molecular magnets
   P. Huai, Y. Shimoi, S. Abe
   Los Alamos National Laboratory, Preprint Archive, Condensed Matter 2004, 1-10.
   
   
3. Theory of doping induced high-spin in a model of polyene-based molecular magnets
   P. Huai, Y. Shimoi, S. Abe
   Journal of the Physical Society of Japan 2004, 73(11), 3149-3157.
   
   
4. Charge-induced spin alignment in diradical donor molecules: Numerical calculations of correlated many-electron-spin systems
   P. Huai, Y. Shimoi, S. Abe
   Journal of Chemical Physics 2005, 122(24), 244324/1-244324/5.
   
   
5. Structure-property relationships in conjugated donor-acceptor molecules based on cyanoanthracene: Computational and experimental studies
   J.-H. Lin, A. Elangovan, T.-I. Ho
   Journal of Organic Chemistry 2005, 70(18), 7397-7407.
   
   
6. Theory of photoinduced high-spin states in organic molecules
   P. Huai, Y. Shimoi, S. Abe
   Physical Review B 2005, 72(9), 094413/1-094413/9.
   
   
7. Construction of a network structure composed of gold nanoparticles and spin-polarized molecular wires and its conducting and magnetic properties
   M. Minamoto, M. M. Matsushita, T. Sugawara
   Polyhedron 2005, 24(16-17), 2263-2268.
   
   
8. Triradical cation of p-phenylenediamine having two nitroxide radical groups: Spin alignment mediated by delocalized spin
   A. Ito, Y. Nakano, M. Urabe, T. Kato, K. Tanaka
   Journal of the American Chemical Society 2006, 128(9), 2948-2953.
   
   
9. Crystallography and magnetism of two 1-(4-nitroxylphenyl)pyrroles
   Z. Delen, P. M. Lahti
   Journal of Organic Chemistry 2006, 71(25), 9341-9347.
   
   
10. Negative magneto-resistance observed on an ion-radical salt of a TTF-based spin-polarized donor
    M. M. Matsushita, H. Kawakami, Y. Kawada, T. Sugawara
    Chemistry Letters 2007, 36(1), 110-111.
    
    
11. Crystallography and magnetism of 1-(4-[N-tert-butylaminoxyl]-2,3,5,6-tetrafluorophenyl)pyrrole
    Z. Delen, P. M. Lahti
    Polyhedron 2007, 26(9-11), 2031-2036.
    
    
12. Electrochromic properties of a soluble conducting polymer: Poly(1-(4-fluorophenyl)-2,5-di(thiophen-2-yl)-1H-pyrrole)
    A. Arslan, O. Tuerkarslan, C. Tanyeli, I. M. Akhmedov, L. Toppare
    Materials Chemistry and Physics 2007, 104(2-3), 410-416.
    
    
13. Towards understanding of magnetic interactions within a series of tetrathiafulvalene-π conjugated-verdazyl diradical cation system: A density functional theory study
    V. Polo, A. Alberola, J. Andres, J. Anthony, M. Pilkington
    Physical Chemistry Chemical Physics 2008, 10(6), 857-864.
    
    
14. Synthesis of star polymer architectures with site-isolated chromophore cores
    C. T. Adkins, E. Harth
    Macromolecules 2008, 41(10), 3472-3480.
    
    
15. Controlling co-tunneling currents in nanoparticle networks using spin-polarized wire molecules
    P. Nickels, M. M. Matsushita, M. Minamoto, S. Komiyama, T. Sugawara
    Small 2008, 4(4), 471-475.
    
    
16. Cotunneling current affected by spin-polarized wire molecules in networked gold nanoparticles
    T. Sugawara, M. Minamoto, M. M. Matsushita, P. Nickels, S. Komiyama
    Physical Review B 2008, 77(23), 235316/1-235316/7.
    
    
17. Ruthenium complexes bearing π-extended pyrrolo-styryl-bipyridine ligand: electronic properties and evaluation as photosensitizers
    A. Grabulosa, D. Martineau, M. Beley, P. C. Gros, S. Cazzanti, S. Caramori, C. A. Bignozzi
    Dalton Transactions 2009, (1), 63-70.
    
    
18. Metal-free oxidative cross-coupling of unfunctionalized aromatic compounds
    Y. Kita, K. Morimoto, M. Ito, C. Ogawa, A. Goto, T. Dohi
    Journal of the American Chemical Society 2009, 131(5), 1668-1669.
    
    
19. Spintronics in organic π-electronic systems
    T. Sugawara, M. M. Matsushita
    Journal of Materials Chemistry 2009, 19(12), 1738-1753.
    
    
20. Synthesis and properties of TSF-based spin-polarized donor
    H. Komatsu, R. Mogi, M. M. Matsushita, T. Miyagi, Y. Kawada, T. Sugawara
    Polyhedron 2009, 28(9-10), 1996-2000.
    
    
21. New pyrrole-based organic dyes for dye-sensitized solar cells: convenient syntheses and high efficiency
    Q. Li, L. Lu, C. Zhong, J. Huang, Q. Huang, J. Shi, X. Jin, T. Peng, J. Qin, Z. Li
    Chemistry--A European Journal 2009, 15(38), 9664-9668, S9664/1-S9664/14.
    
    
22. New pyrimidines incorporating thiophene and pyrrole moieties: synthesis and electrochemical polymerization
    A. Y. Bushueva, E. V. Shklyaeva, G. G. Abashev
    Mendeleev Communications 2009, 19(6), 329-331.
    
    
23. Application of the elongation method to the electronic structure of spin-polarized molecular wire under electric field
    Y. Orimoto, F. L. Gu, J. Korchowiec, A. Imamura, Y. Aoki
    Theoretical Chemistry Accounts 2010, 125(3-6), 493-501.
    
    
24. The chemistry of nitroxide radicals in the molecular design of magnets
    E. V. Tretyakov, V. I. Ovcharenko
    Russian Chemical Reviews 2009, 78(11), 971-1012.
    
    
25. Synthesis and spectroelectrochemical properties of two new dithienylpyrroles bearing anthraquinone units and their polymer films
    G. Wang, X. Fu, J. Huang, L. Wu, Q. Du
    Electrochimica Acta 2010, 55(23), 6933-6940.
    
    
26. Synthesis and electrochemical polymerization of 4,7-di(2-thienyl)indene
    G. G. Abashev, V. P. Begishev, A. Y. Bushueva, V. A. Romanova, E. V. Shklyaeva
    Russian Journal of Applied Chemistry 2010, 83(8), 1440-1443.
    
    
27. Biradical character of linear π-conjugated oligomer dications composed of thiophene, pyrrole, and methylthio end-capping units
    T. Nishinaga, M. Tateno, M. Fujii, W. Fujita, M. Takase, M. Iyoda
    Organic Letters 2010, 12(23), 5374-5377.
    
    
28. Low band gap dyes based on 2-styryl-5-phenylazo-pyrrole: Synthesis and application for efficient dye-sensitized solar cells
    J. A. Mikroyannidis, D. V. Tsagkournos, P. Balraju, G. D. Sharma
    Journal of Power Sources 2011, 196(8), 4152-4161.
    
    
29. Theoretical study of dynamic electron-spin-polarization via the doublet-quartet quantum-mixed state and time-resolved ESR spectra of the quartet high-spin state
    Y. Teki, T. Matsumoto
    Physical Chemistry Chemical Physics 2011, 13(13), 5728-5746.
    
    
30. N-substituted 2,5-di(2-thienyl)pyrroles: Application, production, properties, and electrochemical polymerization
    G. G. Abashev, A. Y. Bushueva, E. V. Shklyaeva
    Chemistry of Heterocyclic Compounds 2011, 47(2), 130-154.
    
    
31. Multielectrochromic property of N-phenylnaphthalen-2-amine and N-(4-(1H-pyrrol-1-yl)phenyl)-N-phenylnaphthalen-2-amine
    C. Zhang, G. Wang, M. Ouyang
    Journal of Electroanalytical Chemistry 2011, 660(1), 45-49.
    
    
32. A new approach for synthesis of electroactive phenol based polymer: 4-(2,5-Di(thiophen-2-yl)-1H-pyrrol-1-yl)phenol and its oxidative polymer
    I, Kaya, A. Aydin
    Progress in Organic Coatings 2012, 73(2-3), 239-249.
    
    
33. Theoretical investigation on second-order nonlinear optical properties and redox-switching of phenyl nitronyl-nitroxide radical derivatives
    X. Du, N. Ma, S. Sun, G. Yang, Y. Qiu
    Journal of Theoretical & Computational Chemistry 2012, 11(5), 1075-1088.
    
    
34. N-substituted 2,5-di(2-thienyl)pyrroles. Synthesis and electrochemical properties
    T. S. El'shina, E. A. Sosnin, E. V. Shklyaeva, G. G. Abashev
    Russian Journal of General Chemistry 2013, 83(4), 726-730.
    
    
35. Effect of substituents on the structure, stability, and π-dimerization of dithienylpyrrole radical cations
    T. Nishinaga, T. Kageyama, M. Koizumi, K. Ando, M. Takase, M. Iyoda
    Journal of Organic Chemistry 2013, 78(18), 9205-9213.
    
    
36. New tetrathiafulvalenes containing a 2,5-bis(thiophen-2-yl)pyrrole fragment: Synthesis, optical properties, and electrochemical behavior
    E. A. Ignatenko, E. V. Shklyaeva, G. G. Abashev
    Russian Journal of Organic Chemistry 2013, 49(9), 1379-1385.
    
    
37. Redox modulation of para-phenylenediamine by substituted nitronyl nitroxide groups and their spin states
    A. Ito, R. Kurata, D. Sakamaki, S. Yano, Y. Kono, Y. Nakano, K. Furukawa, T. Kato, K. Tanaka
    Journal of Physical Chemistry A 2013, 117(48), 12858-12867.
    
    

Design of Spin-Polarized Molecular Wire as a Prototypal Unimolecular Quantum Spin Device
Jotaro NAKAZAKI, InGwon CHUNG, Ryoji WATANABE, Toshiyuki ISHITSUKA, Yuzo KAWADA, Michio M. MATSUSHITA, and Tadashi SUGAWARA
Internet Electronic Journal of Molecular Design 2003, 2(2), 112-127.
被引用数：８

1. Design and preparation of pyrrole-based spin-polarized donors
   J. Nakazaki, I. Chung, M. M. Matsushita, T. Sugawara, R. Watanabe, A. Izuoka, Y. Kawada
   Journal of Materials Chemistry 2003, 13(5), 1011-1022.
   
   
2. Construction of a network structure composed of gold nanoparticles and spin-polarized molecular wires and its conducting and magnetic properties
   M. Minamoto, M. M. Matsushita, T. Sugawara
   Polyhedron 2005, 24(16-17), 2263-2268.
   
   
3. Intramolecular triplet energy transfer via higher triplet excited state during stepwise two-color two-laser irradiation
   Y. Oseki, M. Fujitsuka, M. Sakamoto, T. Majima
   Journal of Physical Chemistry A 2007, 111(39), 9781-9788.
   
   
4. Controlling co-tunneling currents in nanoparticle networks using spin-polarized wire molecules
   P. Nickels, M. M. Matsushita, M. Minamoto, S. Komiyama, T. Sugawara
   Small 2008, 4(4), 471-475.
   
   
5. Cotunneling current affected by spin-polarized wire molecules in networked gold nanoparticles
   T. Sugawara, M. Minamoto, M. M. Matsushita, P. Nickels, S. Komiyama
   Physical Review B 2008, 77(23), 235316/1-235316/7.
   
   
6. Spintronics in organic π-electronic systems
   T. Sugawara, M. M. Matsushita
   Journal of Materials Chemistry 2009, 19(12), 1738-1753.
   
   
7. Application of the elongation method to the electronic structure of spin-polarized molecular wire under electric field
   Y. Orimoto, F. L. Gu, J. Korchowiec, A. Imamura, Y. Aoki
   Theoretical Chemistry Accounts 2010, 125(3-6), 493-501.
   
   
8. N-substituted 2,5-di(2-thienyl)pyrroles: Application, production, properties, and electrochemical polymerization
   G. G. Abashev, A. Y. Bushueva, E. V. Shklyaeva
   Chemistry of Heterocyclic Compounds 2011, 47(2), 130-154.
   
   

Spin Alignment of Orthogonal π-Radicals of Directly meso-Linked Porphyrin Arrays
Hiroshi SEGAWA, Daiki MACHIDA, Yutaka SENSHU, Jotaro NAKAZAKI, Kazutaka HIRAKAWA, and Feipeng WU
Chemical Communications 2002, (24), 3032-3033.
被引用数：１８

1. Fast self-exchange electron transfer and delocalization of unpaired electron between zinc porphyrin radical cations and zinc porphyrins
   S. Fukuzumi, T. Hasobe, Y. Endo, K. Ohkubo, H. Imahori
   Journal of Porphyrins and Phthalocyanines 2003, 7(4,5), 328-336.
   
   
2. Synthesis of new porphyrins with peripheral conjugated chelates and their use for the preparation of porphyrin dimers linked by metal ions
   S. Richeter, C. Jeandon, J.-P. Gisselbrecht, R. Graff, R. Ruppert, H. J. Callot
   Inorganic Chemistry 2004, 43(1), 251-263.
   
   
3. Triplet π-diradical dication of directly meso-β-linked porphyrin dimer
   H. Segawa, Y. Senshu, J. Nakazaki, K. Susumu
   Journal of the American Chemical Society 2004, 126(5), 1354-1355.
   
   
4. Rapid exciton migration and fluorescent energy transfer in helical polyisocyanides with regularly arranged porphyrin pendants
   M. Fujitsuka, A. Okada, S. Tojo, F. Takei, K. Onitsuka, S. Takahashi, T. Majima
   Journal of Physical Chemistry B 2004, 108(32), 11935-11941.
   
   
5. Long-lived charge-separated state generated in a ferrocene-meso,meso-linked porphyrin trimer-fullerene pentad with a high quantum yield
   H. Imahori, Y. Sekiguchi, Y. Kashiwagi, T. Sato, Y. Araki, O. Ito, H. Yamada, S. Fukuzumi
   Chemistry - A European Journal 2004, 10(13), 3184-3196.
   
   
6. π-Complex formation in electron-transfer reactions of porphyrins
   S. Fukuzumi, T. Hasobe, K. Ohkubo, M. J. Crossley, P. V. Kamat, H. Imahori
   Journal of Porphyrins and Phthalocyanines 2004, 8(1,2&3), 191-200.
   
   
7. Synthesis and characterization of a directly linked N-confused porphyrin dimer
   P. J. Chmielewski
   Angewandte Chemie International Edition 2004, 43(42), 5655-5658.
   
   
8. EPR of exchange-coupled oligomers
   D. Collison, E. J. L. Mcinnes
   Electron Paramagnetic Resonance 2004, 19, 374-397.
   
   
9. Synthesis and characterization of a cyclic bis-silver(I) assembly of four 2-aza-21-carbaporphyrinato silver(III) subunits
   P. J. Chmielewski
   Angewandte Chemie International Edition 2005, 44(39), 6417-6420.
   
   
10. The importance of a β-β bond for long-range antiferromagnetic coupling in directly linked copper(II) and silver(II) diporphyrins
    T. Ikeue, K. Furukawa, H. Hata, N. Aratani, H. Shinokubo, T. Kato, A. Osuka
    Angewandte Chemie International Edition 2005, 44(42), 6899-6901.
    
    
11. Modulative magnetic interaction in π-diradicals of directly meso-linked porphyrin dimers
    J. Nakazaki, Y. Senshu, H. Segawa
    Polyhedron 2005, 24(16-17), 2538-2543.
    
    
12. Spin alignment of orthogonal π-radicals of directly meso-meso linked porphyrin dimer, trimer, and tetramer
    J. Nakazaki, Y. Senshu, D. Machida, H. Segawa
    Transactions of the Materials Research Society of Japan 2005, 30(3), 739-742.
    
    
13. Electron spin-spin exchange coupling mediated by the porphyrin π system
    D. A. Shultz, C. P. Mussari, K. K. Ramanathan, J. W. Kampf
    Inorganic Chemistry 2006, 45(15), 5752-5759.
    
    
14. Meso,meso-linked and triply fused diporphyrins with mixed-metal ions: Synthesis and electrochemical investigations
    L.-A. Fendt, H. Fang, M. E. Plonska-Brzezinska, S. Zhang, F. Cheng, C. Braun, L. Echegoyen, F. Diederich
    European Journal of Organic Chemistry 2007, (28), 4659-4673.
    
    
15. Synthesis, characterization, and chirality of dimeric N-confused porphyrin-zinc complexes: Toward the enantioselective synthesis of bis(porphyrinoid) systems
    M. Siczek, P. J. Chmielewski
    Angewandte Chemie International Edition 2007, 46(39), 7432-7436.
    
    
16. An efficient PIFA-mediated synthesis of fused diporphyrin and triply-singly interlacedly linked porphyrin array
    Q. Ouyang, Y.-Z. Zhu, C.-H. Zhang, K.-Q. Yan, Y.-C. Li, J.-Y. Zheng
    Organic Letters 2009, 11(22), 5266-5269.
    
    
17. Helical bis(N-confused porphyrins) with subunits fused by double orthometalation with platinum: Adaptability of an apparently rigid system
    P. J. Chmielewski, B. Durlej, M. Siczek, L. Szterenberg
    Angewandte Chemie International Edition 2009, 48(46), 8736-8739, S8736/1-S8736/62.
    
    
18. Rapid intramolecular hole hopping in meso-meso and meta-phenylene linked linear and cyclic multiporphyrin arrays
    T. M. Wilson, T. Hori, M.-C. Yoon, N. Aratani, A. Osuka, D. Kim, M. R. Wasielewski
    Journal of the American Chemical Society 2010, 132(4), 1383-1388.
    
    

Preparation of Isolable Ion-Radical Salt Derived from TTF-Based Spin-Polarized Donor
Jotaro NAKAZAKI, Yoshihiro ISHIKAWA, Akira IZUOKA, Tadashi SUGAWARA, and Yuzo KAWADA
Chemical Physics Letters 2000, 319(3,4), 385-390.
被引用数：２９

1. Design, preparation, and electronic structure of high-spin cation diradicals derived from amine-based spin-polarized donors
   H. Sakurai, A. Izuoka, T. Sugawara
   Journal of the American Chemical Society 2000, 122(40), 9723-9734.
   
   
2. A new organic anion consisting of the TEMPO radical for organic charge-transfer salts: 2,2,6,6-Tetramethylpiperidinyloxy-4-sulfamate (TEMPO-NHSO₃^-)
   H. Akutsu, J. Yamada, S. Nakatsuji
   Chemistry Letters 2001, (3), 208-209.
   
   
3. Preparation and characterization of novel organic radical anions for organic conductors: TEMPO-NHSO₃^- and TEMPO-OSO₃^-
   H. Akutsu, J. Yamada, S. Nakatsuji
   Synthetic Metals 2001, 120(1-3), 871-872.
   
   
4. Novel π-electron donors for magnetic conductors containing a PROXYL radical
   H. Fujiwara, E. Fujiwara, H. Kobayashi
   Chemistry Letters 2002, (10), 1048-1049.
   
   
5. Design of spin-polarized molecular wire as a prototypal unimolecular quantum spin device
   J. Nakazaki, I. Chung, R. Watanabe, T. Ishitsuka, Y. Kawada, M. M. Matsushita, T. Sugawara
   Internet Electronic Journal of Molecular Design 2003, 2(2), 112-127.
   
   
6. Design and preparation of pyrrole-based spin-polarized donors
   J. Nakazaki, I. Chung, M. M. Matsushita, T. Sugawara, R. Watanabe, A. Izuoka, Y. Kawada
   Journal of Materials Chemistry 2003, 13(5), 1011-1022.
   
   
7. A novel TTF-based donor carrying four nitronyl nitroxides
   G. Harada, T. Jin, A. Izuoka, M. M. Matsushita, T. Sugawara
   Tetrahedron Letters 2003, 44(23), 4415-4418.
   
   
8. Synthesis, structure and physical properties of donors containing a PROXYL radical
   H. Fujiwara, E. Fujiwara, H. Kobayashi
   Synthetic Metals 2003, 135-136, 533-534.
   
   
9. A novel TTP donor containing a PROXYL radical for magnetic molecular conductors
   H. Fujiwara, H.-J. Lee, H. Kobayashi, E. Fujiwara, A. Kobayashi
   Chemistry Letters 2003, 32(6), 482-483.
   
   
10. New BEDT-TTF-based organic conductor including an organic anion derived from the TEMPO radical, α-(BEDT-TTF)₃(TEMPO-NHCOCH₂SO₃)₂・6H₂O
    H. Akutsu, J. Yamada, S. Nakatsuji
    Chemistry Letters 2003, 32(12), 1118-1119.
    
    
11. A stable radical-substituted radical cation with strongly ferromagnetic interaction: Nitronyl nitroxide-substituted 5,10-diphenyl-5,10-dihydrophenazine radical cation
    S. Hiraoka, T. Okamoto, M. Kozaki, D. Shiomi, K. Sato, T. Takui, K. Okada
    Journal of the American Chemical Society 2004, 126(1), 58-59.
    
    
12. Synthesis, structure, and physical properties of a new organic conductor based on a π-extended donor containing a stable 2,2,5,5-tetramethyl-1-pyrrolidinyloxy radical
    H. Fujiwara, H. -J. Lee, H. -B. Cui, H. Kobayashi, E. Fujiwara, A. Kobayashi
    Advanced Materials 2004, 16(19), 1765-1769.
    
    
13. Development of an antiferromagnetic organic superconductor κ-(BETS)₂FeBr₄
    H. Fujiwara, H. Kobayashi
    Bulletin of the Chemical Society of Japan 2005, 78(7), 1181-1196.
    
    
14. Novel organic magnetic conductors based on organochalcogen donors and an organic magnetic anion, TEMPO-NHCOCH₂SO₃^-
    H. Akutsu, J. Yamada, S. Nakatsuji
    Synthetic Metals 2005, 152(1-3), 377-380.
    
    
15. New organic free radical anions TEMPO-A-CO-(o-,m-,p-)C₆H₄SO₃^-(A = NH, NCH₃, O) and their TTF and/or BEDT-TTF salts
    H. Akutsu, K. Masaki, K. Mori, J. Yamada, S. Nakatsuji
    Polyhedron 2005, 24(16-17), 2126-2132.
    
    
16. New organic magnetic anions TEMPO-CONA(CH₂)_nSO₃^- (n =0-3 for A=H, n =2 for A=CH₃) and their TTF, TMTSF, and/or BEDT-TTF salts
    A. Yamashita, H. Akutsu, J. Yamada, S. Nakatsuji
    Polyhedron 2005, 24(16-17), 2796-2802.
    
    
17. A field-effect transistor consists of spin-polarized TTF-based donor
    M. M. Matsushita, H. Kawakami, E. Okabe, H. Kouka, Y. Kawada, T. Sugawara
    Polyhedron 2005, 24(16-17), 2870-2875.
    
    
18. A novel BEDT-TTF-based purely organic magnetic conductor, α-(BEDT-TTF)₂(TEMPO-N(CH₃)COCH₂SO₃)・3H₂O
    H. Akutsu, J. Yamada, S. Nakatsuji, S. S. Turner
    Solid State Communications 2006, 140(5), 256-260.
    
    
19. Negative magneto-resistance observed on an ion-radical salt of a TTF-based spin-polarized donor
    M. M. Matsushita, H. Kawakami, Y. Kawada, T. Sugawara
    Chemistry Letters 2007, 36(1), 110-111.
    
    
20. Preparations, reactions, and properties of functional nitroxide radicals
    S. Nakatsuji
    Nitroxides 2008, 161-204.
    
    
21. Molecule-based system with coexisting conductivity and magnetism and without magnetic inorganic ions
    M. M. Matsushita, H. Kawakami, T. Sugawara, M. Ogata
    Physical Review B 2008, 77(19), 195208/1-195208/6.
    
    
22. A new ferrimagnet based on a radical-substituted radical cation salt
    Y. Masuda, M. Kuratsu, S. Suzuki, M. Kozaki, D. Shiomi, K. Sato, T. Takui, Y. Hosokoshi, X.-Z. Lan, Y. Miyazaki, A. Inaba, K. Okada
    Journal of the American Chemical Society 2009, 131(13), 4670-4673.
    
    
23. Synthesis and properties of TSF-based spin-polarized donor
    H. Komatsu, R. Mogi, M. M. Matsushita, T. Miyagi, Y. Kawada, T. Sugawara
    Polyhedron 2009, 28(9-10), 1996-2000.
    
    
24. The chemistry of nitroxide radicals in the molecular design of magnets
    E. V. Tretyakov, V. I. Ovcharenko
    Russian Chemical Reviews 2009, 78(11), 971-1012.
    
    
25. Application of the elongation method to the electronic structure of spin-polarized molecular wire under electric field
    Y. Orimoto, F. L. Gu, J. Korchowiec, A. Imamura, Y. Aoki
    Theoretical Chemistry Accounts 2010, 125(3-6), 493-501.
    
    
26. Radical-substituted dihydrophenazine radical cation salts: Molecular packing structure and bulk magnetic property
    Y. Masuda, H. Takeda, M. Kuratsu, S. Suzuki, M. Kozaki, D. Shiomi, K. Sato, T. Takui, K. Okada
    Pure and Applied Chemistry 2010, 82(4), 1025-1032.
    
    
27. Interplay between magnetism and conductivity derived from spin-polarized donor radicals
    T. Sugawara, H. Komatsu, K. Suzuki
    Chemical Society Reviews 2011, 40(6), 3105-3118.
    
    
28. Playing with organic radicals as building blocks for functional molecular materials
    I. Ratera, J. Veciana
    Chemical Society Reviews 2012, 41(1), 303-349.
    
    
29. An unprecedented self-assembled porous framework constructed by intermolecular S・・・S contacts
    K.-I. Son, H.-J. Lee, J. Kim, D.-Y. Noh
    Bulletin of the Korean Chemical Society 2012, 33(8), 2773-2776.
    
    

New Synthesis of 2-[1,3-Dithiol-2-ylidene]-5,6-dihydro- 1,3-dithiolo[4,5-b][1,4]dithiins with Formyl Group on Fused Benzene, [1,4]Dithiin, or Thiophene Ring
Yoshihiro ISHIKAWA, Tomoko MIYAMOTO, Asami YOSHIDA, Yuzo KAWADA, Jotaro NAKAZAKI, Akira IZUOKA, and Tadashi SUGAWARA
Tetrahedron Letters 1999, 40(50), 8819-8822.
被引用数：２０

1. Preparation of isolable ion-radical salt derived from TTF-based spin-polarized donor
   J. Nakazaki, Y. Ishikawa, A. Izuoka, T. Sugawara, Y. Kawada
   Chemical Physics Letters 2000, 319(3,4), 385-390.
   
   
2. A novel route towards formylated 1,3-dithiole-2-thiones via an unprecedented allylic 1,4-diol rearrangement
   T. Khan, P. J. Skabara, S. J. Simon, M. B. Hursthouse
   Chemical Communications 2001, (4), 369-370.
   
   
3. Functionalised organosulfur donor molecules: Synthesis of racemic hydroxymethyl-, alkoxymethyl- and dialkoxymethyl-bis(ethylenedithio)tetrathiafulvalenes
   N. Saygili, R. J. Brown, P. Day, R. Hoelzl, P. Kathirgamanathan, E. R. Mageean, T. Ozturk, M. Pilkington, M. M. B. Qayyum, S. S. Turner, L. Vorwerg, J. D. Wallis
   Tetrahedron 2001, 57(23), 5015-5026.
   
   
4. Theoretical investigation on the magnetic interaction of the tetrathiafulvalene-nitronyl nitroxide stacking model: Possibility of organic magnetic metals and magnetic superconductors
   F. Matsuoka, Y. Yamashita, T. Kawakami, Y. Kitagawa, Y. Yoshioka, K. Yamaguchi
   Polyhedron 2001, 20(11-14), 1169-1176.
   
   
5. Five-membered ring systems: With O & S (Se, Te) atoms
   R. A. Aitken
   Progress in Heterocyclic Chemistry 2001, 13, 205-216.
   
   
6. Some novel amino acid-schiff bases and their complexes synthesis, characterization, solid state conductivity behaviors and potentiometric studies
   N. Sarl, P. Guerkan
   Zeitschrift fuer Naturforschung, B: Chemical Sciences 2004, 59(6), 692-698.
   
   
7. Synthesis strategies and chemistry of nonsymmetrically substituted tetrachalcogenafulvalenes
   J. M. Fabre
   Chemical Reviews 2004, 104(11), 5133-5150.
   
   
8. Highly functionalized tetrathiafulvalenes: Riding along the synthetic trail from electrophilic alkynes
   A. Gorgues, P. Hudhomme, M. Salle
   Chemical Reviews 2004, 104(11), 5151-5184.
   
   
9. Substituted BEDT-TTF derivatives. Synthesis, chirality, properties and potential applications
   J. D. Wallis, J.-P. Griffiths
   Journal of Materials Chemistry 2005, 15(3), 347-365.
   
   
10. Functions containing a thiocarbonyl group and at least one halogen; also at least one chalcogen and no halogen
    E. Kleinpeter
    Comprehensive Organic Functional Group Transformations II 2005, 6, 495-544.
    
    
11. Construction of a network structure composed of gold nanoparticles and spin-polarized molecular wires and its conducting and magnetic properties
    M. Minamoto, M. M. Matsushita, T. Sugawara
    Polyhedron 2005, 24(16-17), 2263-2268.
    
    
12. A field-effect transistor consists of spin-polarized TTF-based donor
    M. M. Matsushita, H. Kawakami, E. Okabe, H. Kouka, Y. Kawada, T. Sugawara
    Polyhedron 2005, 24(16-17), 2870-2875.
    
    
13. Negative magneto-resistance observed on an ion-radical salt of a TTF-based spin-polarized donor
    M. M. Matsushita, H. Kawakami, Y. Kawada, T. Sugawara
    Chemistry Letters 2007, 36(1), 110-111.
    
    
14. CpCoI-mediated diels-alder reaction forming dimeric 1,3-dithiol-2-one derivative with spiro structure and successive formation of novel cobalt dithiolene complex
    T. Masui, M. Nomura, Y. Kobayashi, K. Terada, C. Fujita-Takayama, T. Sugiyama, M. Kajitani
    Chemistry Letters 2008, 37(10), 1032-1033.
    
    
15. Spintronics in organic π-electronic systems
    T. Sugawara, M. M. Matsushita
    Journal of Materials Chemistry 2009, 19(12), 1738-1753.
    
    
16. Influence of magnetic field upon the conductance of a unicomponent crystal of a tetrathiafulvalene-based nitronyl nitroxide
    H. Komatsu, M. M. Matsushita, S. Yamamura, Y. Sugawara, K. Suzuki, T. Sugawara
    Journal of the American Chemical Society 2010, 132(13), 4528-4529.
    
    
17. Synthesis, characterization, and dc conductivity of hydrogen-bonding dibenzotetrathiafulvalene (DBTTF) based salts
    Y. Kobayashi, A. Suzuki, Y. Yamada, K. Saigo, T. Shibue
    Synthetic Metals 2010, 160(7-8), 575-583.
    
    
18. Sensitizing the sensitizer: the synthesis and photophysical study of Bodipy-Pt(II)(diimine)(dithiolate) conjugates
    T. Lazarides, T. M. McCormick, K. C. Wilson, S. Lee, D. W. McCamant, R. Eisenberg
    Journal of the American Chemical Society 2011, 133(2), 350-364.
    
    
19. Interplay between magnetism and conductivity derived from spin-polarized donor radicals
    T. Sugawara, H. Komatsu, K. Suzuki
    Chemical Society Reviews 2011, 40(6), 3105-3118.
    
    
20. Playing with organic radicals as building blocks for functional molecular materials
    I. Ratera, J. Veciana
    Chemical Society Reviews 2012, 41(1), 303-349.
    
    

Novel Spin-Polarized TTF Donors Affording Ground State Triplet Cation Diradicals
Jotaro NAKAZAKI, Michio M. MATSUSHITA, Akira IZUOKA, and Tadashi SUGAWARA
Tetrahedron Letters 1999, 40(27), 5027-5030.
被引用数：４７

1. New synthesis of 2-[1,3-dithiol-2-ylidene]-5,6-dihydro-1,3-dithiolo[4,5-b][1,4]dithiins with formyl group on fused benzene, [1,4]dithiin, or thiophene ring
   Y. Ishikawa, T. Miyamoto, A. Yoshida, Y. Kawada, J. Nakazaki, A. Izuoka, T. Sugawara
   Tetrahedron Letters 1999, 40(50), 8819-8822.
   
   
2. Preparation of isolable ion-radical salt derived from TTF-based spin-polarized donor
   J. Nakazaki, Y. Ishikawa, A. Izuoka, T. Sugawara, Y. Kawada
   Chemical Physics Letters 2000, 319(3,4), 385-390.
   
   
3. Incorporation of stable organic radicals of the tris(2,4,6-trichlorophenyl)methyl radical series to pyrrole units as models for semiconducting polymers with high spin multiplicity. 1. [2,6-Dichloro-4-[2,5-bis(5-methyl-2-thienyl)-1-pyrrolyl]phenyl]- bis(2,4,6-trichlorophenyl)methyl radical as a precursor of a disjoint heterospin diradical with a triplet or a nearly degenerate singlet-triplet ground state
   V. M. Domingo, X. Burdons, E. Brillas, J. Carilla, J. Rius, X. Torrelles, L. Julia
   Journal of Organic Chemistry 2000, 65(21), 6847-6855.
   
   
4. Design, preparation, and electronic structure of high-spin cation diradicals derived from amine-based spin-polarized donors
   H. Sakurai, A. Izuoka, T. Sugawara
   Journal of the American Chemical Society 2000, 122(40), 9723-9734.
   
   
5. Five-membered ring systems: With O & S (Se, Te) atoms
   R. A. Aitken
   Progress in Heterocyclic Chemistry 2000, 12, 204-218.
   
   
6. Electronically controllable high spin systems realized by spin-polarized donors
   T. Sugawara, H. Sakurai, A. Izuoka
   Hyper-Structured Molecules II: Chemistry Physics and Application 2001, 35-57.
   
   
7. New concepts in tetrathiafulvalene chemistry
   J. L. Segura, N. Martin
   Angewandte Chemie International Edition 2001, 40(8), 1372-1409.
   
   
8. Theoretical design of organo-magnetic conducting crystal
   T. Kawakami, F. Matsuoka, Y. Yamashita, Y. Kitagawa, M. Nakano, K. Yamaguchi
   Synthetic Metals 2001, 121(1-3), 1826-1827.
   
   
9. Theoretical investigation on the magnetic interaction of the tetrathiafulvalene-nitronyl nitroxide stacking model: Possibility of organic magnetic metals and magnetic superconductors
   F. Matsuoka, Y. Yamashita, T. Kawakami, Y. Kitagawa, Y. Yoshioka, K. Yamaguchi
   Polyhedron 2001, 20(11-14), 1169-1176.
   
   
10. Transition metals in organic synthesis: Highlights for the year 1999
    B. C. G. Soderberg
    Coordination Chemistry Reviews 2002, 224(1-2), 171-243.
    
    
11. Novel π-electron donors for magnetic conductors containing a PROXYL radical
    H. Fujiwara, E. Fujiwara, H. Kobayashi
    Chemistry Letters 2002, (10), 1048-1049.
    
    
12. Synthesis, redox behavior and X-ray structure of bis-TTF containing a pyridine unit as a potential building block in the construction of conducting magnetic materials
    S. Bouguessa, K. Herve, S. Golhen, L. Ouahab, J.-M. Fabre
    New Journal of Chemistry 2003, 27(3), 560-564.
    
    
13. Theoretical studies on effective parameters for ionic radical clusters: Possibility of organic magnetic metals
    Y. Yamashita, T. Kawakami, Y. Kitagawa, T. Taniguchi, S. Nakano, R. Takeda, K. Yamaguchi
    Synthetic Metals 2003, 133-134, 589-591.
    
    
14. Design of spin-polarized molecular wire as a prototypal unimolecular quantum spin device
    J. Nakazaki, I. Chung, R. Watanabe, T. Ishitsuka, Y. Kawada, M. M. Matsushita, T. Sugawara
    Internet Electronic Journal of Molecular Design 2003, 2(2), 112-127.
    
    
15. Design and preparation of pyrrole-based spin-polarized donors
    J. Nakazaki, I. Chung, M. M. Matsushita, T. Sugawara, R. Watanabe, A. Izuoka, Y. Kawada
    Journal of Materials Chemistry 2003, 13(5), 1011-1022.
    
    
16. A novel TTF-based donor carrying four nitronyl nitroxides
    G. Harada, T. Jin, A. Izuoka, M. M. Matsushita, T. Sugawara
    Tetrahedron Letters 2003, 44(23), 4415-4418.
    
    
17. Synthesis, structure and physical properties of donors containing a PROXYL radical
    H. Fujiwara, E. Fujiwara, H. Kobayashi
    Synthetic Metals 2003, 135-136, 533-534.
    
    
18. A novel TTP donor containing a PROXYL radical for magnetic molecular conductors
    H. Fujiwara, H.-J. Lee, H. Kobayashi, E. Fujiwara, A. Kobayashi
    Chemistry Letters 2003, 32(6), 482-483.
    
    
19. New BEDT-TTF-based organic conductor including an organic anion derived from the TEMPO radical, α-(BEDT-TTF)₃(TEMPO-NHCOCH₂SO₃)₂・6H₂O
    H. Akutsu, J. Yamada, S. Nakatsuji
    Chemistry Letters 2003, 32(12), 1118-1119.
    
    
20. Synthesis, reactions, and selected physico-chemical properties of 1,3- and 1,2-tetrachalcogenafulvalenes
    G. Schukat, E. Fanghaenel
    Sulfur Reports 2003, 24(1-2), 1-190.
    
    
21. Magnetism in organic radical ion salts based on nitronyl nitroxide derivatives substituted with heterocyclic aromatic hydrocarbons
    T. Sugano, S. J. Blundell, W. Hayes, P. Day
    Polyhedron 2003, 22(14-17), 2343-2348.
    
    
22. A stable radical-substituted radical cation with strongly ferromagnetic interaction: Nitronyl nitroxide-substituted 5,10-diphenyl-5,10-dihydrophenazine radical cation
    S. Hiraoka, T. Okamoto, M. Kozaki, D. Shiomi, K. Sato, T. Takui, K. Okada
    Journal of the American Chemical Society 2004, 126(1), 58-59.
    
    
23. Synthesis strategies and chemistry of nonsymmetrically substituted tetrachalcogenafulvalenes
    J. M. Fabre
    Chemical Reviews 2004, 104(11), 5133-5150.
    
    
24. Synthesis, structure, and physical properties of a new organic conductor based on a π-extended donor containing a stable 2,2,5,5-tetramethyl-1-pyrrolidinyloxy radical
    H. Fujiwara, H. -J. Lee, H. -B. Cui, H. Kobayashi, E. Fujiwara, A. Kobayashi
    Advanced Materials 2004, 16(19), 1765-1769.
    
    
25. Development of an antiferromagnetic organic superconductor κ-(BETS)₂FeBr₄
    H. Fujiwara, H. Kobayashi
    Bulletin of the Chemical Society of Japan 2005, 78(7), 1181-1196.
    
    
26. Imidic acids and derivatives. C-heteroatom-substituted nitrones, other dipoles
    F. M. Cordero, S. Cicchi
    Science of Synthesis 2005, 22, 267-330.
    
    
27. Novel organic magnetic conductors based on organochalcogen donors and an organic magnetic anion, TEMPO-NHCOCH₂SO₃^-
    H. Akutsu, J. Yamada, S. Nakatsuji
    Synthetic Metals 2005, 152(1-3), 377-380.
    
    
28. New organic free radical anions TEMPO-A-CO-(o-,m-,p-)C₆H₄SO₃^-(A = NH, NCH₃, O) and their TTF and/or BEDT-TTF salts
    H. Akutsu, K. Masaki, K. Mori, J. Yamada, S. Nakatsuji
    Polyhedron 2005, 24(16-17), 2126-2132.
    
    
29. New organic magnetic anions TEMPO-CONA(CH₂)_nSO₃^- (n =0-3 for A=H, n =2 for A=CH₃) and their TTF, TMTSF, and/or BEDT-TTF salts
    A. Yamashita, H. Akutsu, J. Yamada, S. Nakatsuji
    Polyhedron 2005, 24(16-17), 2796-2802.
    
    
30. A field-effect transistor consists of spin-polarized TTF-based donor
    M. M. Matsushita, H. Kawakami, E. Okabe, H. Kouka, Y. Kawada, T. Sugawara
    Polyhedron 2005, 24(16-17), 2870-2875.
    
    
31. Synthesis and characterization of a new family of spin bearing TTF ligands
    M. Chahma, X. S. Wang, A. Van der Est, M. Pilkington, Melanie
    Journal of Organic Chemistry 2006, 71(7), 2750-2755.
    
    
32. A novel BEDT-TTF-based purely organic magnetic conductor, α-(BEDT-TTF)₂(TEMPO-N(CH₃)COCH₂SO₃)・3H₂O
    H. Akutsu, J. Yamada, S. Nakatsuji, S. S. Turner
    Solid State Communications 2006, 140(5), 256-260.
    
    
33. Negative magneto-resistance observed on an ion-radical salt of a TTF-based spin-polarized donor
    M. M. Matsushita, H. Kawakami, Y. Kawada, T. Sugawara
    Chemistry Letters 2007, 36(1), 110-111.
    
    
34. New TTF and bis-TTF containing thiophene units: Electrical properties of the resulting salts
    T. Abbaz, A.-K. Gouasmia, H. Fujiwara, T. Hiraoka, T. Sugimoto, M. Taillefer, J.-M. Fabre
    Synthetic Metals 2007, 157(13-15), 508-516.
    
    
35. Towards understanding of magnetic interactions within a series of tetrathiafulvalene-π conjugated-verdazyl diradical cation system: A density functional theory study
    V. Polo, A. Alberola, J. Andres, J. Anthony, M. Pilkington
    Physical Chemistry Chemical Physics 2008, 10(6), 857-864.
    
    
36. Molecule-based system with coexisting conductivity and magnetism and without magnetic inorganic ions
    M. M. Matsushita, H. Kawakami, T. Sugawara, M. Ogata
    Physical Review B 2008, 77(19), 195208/1-195208/6.
    
    
37. Spintronics in organic π-electronic systems
    T. Sugawara, M. M. Matsushita
    Journal of Materials Chemistry 2009, 19(12), 1738-1753.
    
    
38. Rational approaches to organic ferromagnets based on neutral radicals appended to organosulfur donors
    A. Alberola, M. Pilkington
    Current Organic Synthesis 2009, 6(1), 66-78.
    
    
39. Synthesis and properties of TSF-based spin-polarized donor
    H. Komatsu, R. Mogi, M. M. Matsushita, T. Miyagi, Y. Kawada, T. Sugawara
    Polyhedron 2009, 28(9-10), 1996-2000.
    
    
40. Copper(II) complexes containing tetrathiafulvalene substituted by a bipyridine ligand: Synthesis, X-ray diffraction and EPR characterizations
    L. Kaboub, A.-K. Gouasmia, J.-P. Legros, E. Harte, C. Coulon, J. M. Fabre
    Synthetic Metals 2009, 159(19-20), 2075-2080.
    
    
41. Application of the elongation method to the electronic structure of spin-polarized molecular wire under electric field
    Y. Orimoto, F. L. Gu, J. Korchowiec, A. Imamura, Y. Aoki
    Theoretical Chemistry Accounts 2010, 125(3-6), 493-501.
    
    
42. Preparations and characterizations of new series of TTF ligands containing a nitrogen aromatic heterocycle
    S. Bouguessa, A. K. Gouasmia, L. Ouahab, S. Golhen, J. M. Fabre
    Synthetic Metals 2010, 160(5-6), 361-367.
    
    
43. Very strongly ferromagnetically coupled diradicals from mixed radical centers. II. Nitronyl nitroxide coupled to tetrathiafulvalene via spacers
    I. A. Latif, V. P. Singh, U. Bhattacharjee, A. Panda, S. N. Datta
    Journal of Physical Chemistry A 2010, 114(24), 6648-6656.
    
    
44. Interplay between magnetism and conductivity derived from spin-polarized donor radicals
    T. Sugawara, H. Komatsu, K. Suzuki
    Chemical Society Reviews 2011, 40(6), 3105-3118.
    
    
45. Playing with organic radicals as building blocks for functional molecular materials
    I. Ratera, J. Veciana
    Chemical Society Reviews 2012, 41(1), 303-349.
    
    
46. Theoretical investigation on second-order nonlinear optical properties and redox-switching of phenyl nitronyl-nitroxide radical derivatives
    X. Du, N. Ma, S. Sun, G. Yang, Y. Qiu
    Journal of Theoretical and Computational Chemistry 2012, 11(5), 1075-1088.
    
    
47. Diradical based organic molecular magnetism: theory and applications
    D. Bhattacharya, A. Panda, A. Misra
    International Journal of Condensed Matter, Advanced Materials and Superconductivity Research 2012, 11(1-2), 101-128.
    
    
48. Diradical based organic molecular magnetism: theory and applications
    D. Bhattacharya, A. Panda, A. Misra
    Advances in Materials Science Research 2012, 11, 291-318.
    
    
49. Synthesis and electrical conductivity of new organic materials bearing a tetrathiafulvalene unit
    R. Khammar, A. Bendjeddou, T. Abbaz, M. Benahmed, A. Gouasmia, R. Rehamnia, M. Dekhici, D. Villemin
    Journal of Chemical and Pharmaceutical Research 2015, 7(3), 311-315.
    
    
50. Structural, magnetic and DFT studies on a charge-transfer salt of a tetrathiafulvalenepyridyl-(1,5-diisopropyl)verdazyl diradical cation
    S. Venneri, J. Wilson, J. M. Rawson, M. Pilkington
    ChemPlusChem 2015, 80(11), 1624-1633.
    
    
51. Theory and practice of uncommon molecular electronic configurations
    G. Gryn'ova, M. L. Coote, C. Corminboeuf
    Wiley Interdisciplinary Reviews: Computational Molecular Science 2015, 5(6), 440-459.
    
    

Ground State Spin Multiplicity of Cation Diradicals Derived from Pyrroles Carrying Nitronyl Nitroxide
Jotaro NAKAZAKI, Michio M. MATSUSHITA, Akira IZUOKA, and Tadashi SUGAWARA
Molecular Crystals and Liquid Crystals 1997, 306, 81-88.
被引用数：８

1. Approach to hyper-structured high spin molecules
   T. Sugawara
   Hyper-Structured Molecules I: Chemistry, Physics and Applications 1999, 101-127.
   
   
2. The design of stabilized high-spin spin-bearing blocks
   R. J. Bushby
   Magnetic Properties of Organic Materials 1999, 179-195.
   
   
3. Synthesis, crystal structures and electronic properties of imidazoline nitroxide radicals bearing active groups in electropolymerisation
   E. Coronado, C. Gimenez-Saiz, M. Carlos, F. M. Romero, E. Rusanov, H. Stoeckli-Evans
   New Journal of Chemistry 2003, 27(3), 490-497.
   
   
4. Design and preparation of pyrrole-based spin-polarized donors
   J. Nakazaki, I. Chung, M. M. Matsushita, T. Sugawara, R. Watanabe, A. Izuoka, Y. Kawada
   Journal of Materials Chemistry 2003, 13(5), 1011-1022.
   
   
5. Syntheses and structures of azol-1-yl derivatives of nitronyl and imino nitroxides
   E. V. Tretyakov, G. V. Romanenko, V. I. Ovcharenko
   Tetrahedron 2004, 60(1), 99-103.
   
   
6. Construction of a network structure composed of gold nanoparticles and spin-polarized molecular wires and its conducting and magnetic properties
   M. Minamoto, M. M. Matsushita, T. Sugawara
   Polyhedron 2005, 24(16-17), 2263-2268.
   
   
7. Application of the elongation method to the electronic structure of spin-polarized molecular wire under electric field
   Y. Orimoto, F. L. Gu, J. Korchowiec, A. Imamura, Y. Aoki
   Theoretical Chemistry Accounts 2010, 125(3-6), 493-501.
   
   
8. Synthesis and characterization of poly{2-[3-(1H-pyrrol-2-yl)phenyl]-1H-pyrrole} and its copolymer with EDOT
   E. Turac, M. Ak, E. Sahmetlioglu, M. Kasim Sener, M. A. Kaya
   Russian Journal of General Chemistry 2011, 81(12), 2510-2516.