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Conjugated Complexes with Quinonediimine Derivatives

  • Chapter
Redox Systems Under Nano-Space Control

Summary

An architecturally controlled formation of conjugated complexes with redoxactive π-conjugated quinonediimine (qd) ligands by regulation of the coordinationmode is described in this chapter. The qdmoiety also serves as a redox-active π-conjugated bridging spacer for the construction of redox-active conjugated complexes. Incorporated metals play an important role as a metallic dopant to form a multiredox and multimetallic system. Conjugated complexes provide redox-switching systems based on redox properties of the qd spacer.

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1.5 References

  1. a) MacDiarmid AG, Yang LS, Huang WS, Humphrey BD (1987) Synth Met 18:393. b) Epstein AJ, Ginder JM, Richter AF, MacDiarmid AG (1987) Conducting Polymers, Alcacer L (ed), Reidel, Holland, p 121. c) Salaneck WR, Clark DT, Samuelsen EJ (1990) Science and Application of Conductive Polymers. Adams Hilger, New York. d) Ofer D, Crooks RM, Wrighton MS (1990) J Am Chem Soc 112:7869. e) Gustafsson G, Cao Y, Treacy GM, Klavetter F, Colaneri N, Heeger AJ (1992) Nature 357:477. f) Bradley DDC (1993) Synth Met 54:401. g) Miller JS (1993) Adv Mater 5:587. h) Miller JS (1993) Adv Mater 5:671. i) Bloor D (1995) Chem Br 31:385. j) Jestin I, Frère P, Blanchard P, Roncali J (1998) Angew Chem Int Ed 37:942, and references therein. See also the Nobel lectures of Heeger AJ, MacDiamid AG, and Shirakawa H (2001) Angew Chem Int Ed 40:issue 14.

    Article  CAS  Google Scholar 

  2. a) Ramaraj R, Natarajan P (1991) J Polym Sci A 29:1339. b) Yamamoto T, Yoneda Y, Maruyama T (1992) J Chem Soc Chem Commun 1652. c) Hirao T, Higuchi M, Ikeda I, Ohshiro Y (1993) J Chem Soc Chem Commun 194. d) Hirao T, Higuchi M, Hatano B, Ikeda I (1995) Tetrahedron Lett 36:5925. e) Higuchi M, Yamaguchi S, Hirao T (1996) Synlett 1213. f) Higuchi M, Imoda D, Hirao T (1996) Macromolecules 29:8277. g) Higuchi M, Ikeda I, Hirao T (1997) J Org Chem 62:1072. h) Hirao T, Yamaguchi S, Fukuhara S (1999) Tetrahedron Lett 40:3009. i) Hirao T, Yamaguchi S, Fukuhara S (1999) Synth Met 106:67. j) Murray RW (1984) Electroanalytical Chemistry, Bard AJ (ed), Marcel Dekker, New York, Vol 13, p 191. k) Abruna HD (1988) Electroresponsive Molecular and Polymer System, Skotheim TA (ed), Marcel Dekker, New York, Vol 1, p 97.

    Article  CAS  Google Scholar 

  3. a) Sonogashira S, Takahashi S, Hagihara N (1977) Macromolecules 10:879. b) Hmyene M, Yassar A, Escorne M, Percheron-Guegan A, Garnier F (1994) Adv Mater 6:564. c) Altmann M, Bunz UHF (1995) Angew Chem Int Ed Engl 34:569. d) Lavastre O, Even M, Dixneuf PH, Pacreau A, Vairon J-P (1996) Organometallics 15:1530. e) Sheridan JB, Lough AJ, Manners I (1996) Organometallics 15:2195. f) Hirao T, Kurashina M, Aramaki K, Nishihara H (1996) J Chem Soc Dalton Trans 2929. g) Nguyen P, Gómez-Elipe P, Manners I (1999) Chem Rev 99:1515 and references therein. h) Richard P, Kingsborough RP, Swager TM (1999) J Am Chem Soc 121:8825. i) Würthner F, Sautter A, Thalacker C (2000) Angew Chem Int Ed 39:1243.

    Article  CAS  Google Scholar 

  4. a) Balch AL, Holm RH (1966) J Am Chem Soc 88:5201. b) Christoph GG, Goedken VL (1973) J Am Chem Soc 95:3869. c) Warren LF (1977) Inorg Chem 16:2814. d) Vogler A, Kunkely H (1980) Angew Chem Int Ed Engl 19:221. e) Belser P, von Zelewsky A, Zehnder M (1981) Inorg Chem 20:3098. f) Gross ME, Ibers JA, Trogler WC (1982), Organometallics 1:530. g) Miller EJ, Brill TB (1983) Inorg Chem 22:2392. h) Pyle AM, Barton JK (1987) Inorg Chem 26:3820. i) Masui H, Lever ABP, Auburn PR (1991) Inorg Chem 30:2402. j) Masui H, Lever ABP, Dodsworth ES (1993) Inorg Chem 32:258. k) Mitra KN, Goswami S (1997) Chem Commun 49. l) Metcalfe RA, Lever ABP (1997) Inorg Chem 36:4762. m) Jüstel T, Bendix J, Metzler-Nolte N, Weyhermüller T, Nuber B, Wieghardt K (1998) Inorg Chem 37:35. n) Mitra KN, Peng S-M, Goswami S (1998) Chem Commun 1685. o) Rall J, Stange AF, Hübler K, Kaim W (1998) Angew Chem Int Ed 37:2681. p) Dollberg CL, Turro C (2001) Inorg Chem 40:2484. q) Herebian D, Bothe E, Neese F, Weyhermüller T, Wieghardt K (2003) J Am Chem Soc 125:9116.

    Article  CAS  Google Scholar 

  5. a) Herington EFG (1959) J Chem Soc 3633. b) Rieder K, Hauser U, Siegenthaler H, Schmidt E, Ludi A (1975) Inorg Chem 14:1902. c) Cheng H-Y, Lee G-H, Peng S-M (1992) Inorg Chim Acta 191:25. d) Conner D, Jayaprakash KN, Gunnoe TB, Boyle PD (2002) Organometallics 21:5265.

    Google Scholar 

  6. Wei Y, Yang C, Ding T (1996) Tetrahedron Lett 37:731.

    Article  CAS  Google Scholar 

  7. The series of N-heterocyclic multidentate podand ligands have been used as complex catalysts in oxygenation with molecular oxygen: a) Hirao T, Moriuchi T, Mikami S, Ikeda I, Ohshiro Y (1993) Tetrahedron Lett 34:1031. b) Hirao T, Moriuchi T, Ishikawa T, Nishimura K, Mikami S, Ohshiro Y, Ikeda I (1996) J Mol Catal A: Chemical 113:117.

    Article  CAS  Google Scholar 

  8. Moriuchi M, Bandoh S, Miyaji Y, Hirao T (2000) J Organomet Chem 599:135.

    Article  CAS  Google Scholar 

  9. a) Huck WTS, Hulst R, Timmerman P, van Veggel FCJM, Reinhoudt DN (1997) Angew Chem Int Ed Engl 36:1006. b) Kickham JE, Loeb SJ, Murphy SL (1997) Chem Eur J 3:1203. c) Cameron BR, Loeb SJ, Yap GPA (1997) Inorg Chem 36:5498.

    Article  CAS  Google Scholar 

  10. Moriuchi T, Kamikawa M, Bandoh S, Hirao T (2002) Chem Commun 1476.

    Google Scholar 

  11. Moriuchi T, Bandoh S, Miyaishi M, Hirao T (2001) Eur J Inorg Chem 651.

    Google Scholar 

  12. Wnek GE (1986) Synth Met 15:213.

    Article  CAS  Google Scholar 

  13. Moriuchi T, Miyaishi M, Hirao T (2001) Angew Chem Int Ed 40:3042.

    Article  CAS  Google Scholar 

  14. a) Moutet JC, Saint-Aman E, Tranvan F, Angibeaud P, Utille JP (1992) Adv Mater 4:511. b) Guo H, Knobler CM, Kaner RB (1999) Synth Met 101:44. c) Egan V, Bernstein R, Hohmann L, Tran T, Kaner RB (2001) Chem Commun 801.

    Article  CAS  Google Scholar 

  15. a) Majidi MR, Kane-Maguire LAP, Wallace GG (1995) Polymer 36:3597. b) Majidi MR, Kane-Maguire LAP, Wallace GG (1996) Polymer 37:359. c) Reece DA, Kane-Maguire LAP, Wallace GG (2001) Synth Met 119:101. d) MaCarthy PA, Huang J, Yang S-C, Wang H-L (2002) Langmuir 18:259. e) Yang Y, Wan M (2002) J Mater Chem 12:897. f) Li W, Wang H-L (2004) J Am Chem Soc 126:2278.

    Article  CAS  Google Scholar 

  16. Shen X, Moriuchi T, Hirao T (2004) Tetrahedron Lett 45:4733.

    Article  CAS  Google Scholar 

  17. Hirao T (1997) Chem Rev 97:2707.

    Article  CAS  Google Scholar 

  18. Hirao T, Fukuhara S, Otomaru Y, Moriuchi T (2001) Synth Met 123:373.

    Article  CAS  Google Scholar 

  19. For reviews on this subject, see: a) Balzani V, Juris A, Venturi M, Campagna S, Serroni S (1996) Chem Rev 96:759. b) Harriman A, Sauvage J-P (1996) Chem Soc Rev 41. c) Paul F, Lapinte C (1998) Coord Chem Rev 178/180:431. d) Ziessel R, Hissler M, El-ghayoury A, Harriman A (1998) Coord Chem Rev 178/180:1251. e)McCleverty JA, Ward MD (1998) Acc Chem Res 31:842. f) Schwab PFH, Levin MD, Michl J (1999) Chem Rev 99:1863.

    Article  CAS  Google Scholar 

  20. a) Auburn PR, Lever ABP (1990) Inorg Chem 29:2551. b) Joulié LF, Schatz E, Ward MD, Weber F, Yellowlees LJ (1994) J Chem Soc Dalton Trans 799. c) Keyes TE, Forster RJ, Jayaweera PM, Coates CG, McGarvey JJ, Vos JG (1998) Inorg Chem 37:5925.

    Article  CAS  Google Scholar 

  21. Moriuchi T, Takagai Y, Hirao T, to be submitted.

    Google Scholar 

  22. Moriuchi T, Shen X, Saito K, Bandoh S, Hirao T (2003) Bull Chem Soc Jpn 76:595.

    Article  CAS  Google Scholar 

  23. Hirao T, Iida K (2001) Chem Commun 431.

    Google Scholar 

  24. a) Goulle V, Harriman A, Lehn J-M (1993) J Chem Soc Chem Commun 1034. b) Yonemoto EH, Riley RL, Kim YI, Atherton SJ, Schmehl RH, Mallouk TE (1992) J Am Chem Soc 114:8081.

    Google Scholar 

  25. For reviews on this subject, see: a) De Cola L, Belser P (1998) Coord Chem Rev 17:301. b) Belser P, Bernhard S, Blum C, Beyeler A, De Cola L, Balzani V (1999) Coord Chem Rev 190–192:155. c) Brigelletti F, Flamigni L (2000) Chem Soc Rev 29:1.

    Article  Google Scholar 

  26. a) Auburn PR, Lever ABP (1990) Inorg Chem 29:2551. b) Hartl F, Snoeck TL, Stufkens DJ, Lever ABP (1995) Inorg Chem 34:3887. c) Keyes TE, Forster RJ, Jayaweera PM, Coates CG, McGarvey JJ, Vos JG (1998) Inorg Chem 37:5925. d) Staffilani M, Belser P, De Cola L, Hartl F (2002) Eur J Inorg Chem 335.

    Article  CAS  Google Scholar 

  27. Shen X, Moriuchi T, Hirao T (2003) Tetrahedron Lett 44:7711.

    Article  CAS  Google Scholar 

  28. Moriuchi T, Shiori J, Hirao T, to be submitted.

    Google Scholar 

  29. Hirao T, Saito K (2002) Synlett 415.

    Google Scholar 

  30. Hirao T, Naka S, Saito K, unpublished results.

    Google Scholar 

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Authors and Affiliations

  1. Department of Applied Chemistry, Graduate School of Engineering, Osaka University, Yamada-oka, Suita, Osaka, 565-0871, Japan

    Toshiyuki Moriuchi & Toshikazu Hirao

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  1. Toshiyuki Moriuchi
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  2. Toshikazu Hirao
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Editors and Affiliations

  1. Department of Applied Chemistry, Graduate School of Engineering, Osaka University, Yamada-oka, Suita, Osaka, 565-0871, Japan

    Toshikazu Hirao

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Moriuchi, T., Hirao, T. (2006). Conjugated Complexes with Quinonediimine Derivatives. In: Hirao, T. (eds) Redox Systems Under Nano-Space Control. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-29580-1_1

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