By Alaa S. Abd-El-Aziz, Charles E. Carraher, Charles U. Pittman, Martel Zeldin

This sequence presents an invaluable, applications-oriented discussion board for the subsequent iteration of macromolecules and fabrics. The 5th quantity during this sequence offers important descriptions of the transition metals and their purposes. Transition Metals are lined in 2 volumes, the second one half is roofed in quantity 6.

Chapter 1 creation to Metal?Coordination Polymers (pages 1–38): Charles E. Carraher, Charles U. Pittman and Alaa S. Abd?El?Aziz
Chapter 2 man made ideas for Inert Metal?Skeletal Polymers (pages 39–68): Ronald D. Archer
Chapter three Metallo?Supramolecular Polymers: Synthesis, fabric homes, and power destiny purposes (pages 69–82): Stefan Schmatloch, Harald Hofmeier and Ulrich S. Schubert
Chapter four Coordination/Organometallic Oligomers and Polymers of Palladium and Platinum: concentrate on Metal?Containing spine (pages 83–116): Pierre D. Harvey
Chapter five Metal?Containing Polymers for Optoelectronic purposes (pages 117–140): Wai relations Chan
Chapter 6 Novel Polyphenylazomethine Dendrimer Complexes for Fine?Controlled Metallorganic Hybrid fabrics (pages 141–154): Kimihisa Yamamoto and Masayoshi Higuchi
Chapter 7 Structural variety, actual homes, and functions of Cyanometalate Coordination Polymers (pages 155–208): Julie Lefebvre and Daniel B. Leznoff
Chapter eight steel Conjugates with Redox?Active ??Conjugated Polymers or Molecules (pages 209–226): Toshikazu Hirao
Chapter nine Catalytic job of Macromolecules received from Metal?Containing Monomers (pages 227–257): Piero Mastrorilli and Cosimo Francesco Nobile
Chapter 10 Organometalloligands as parts in Supramolecular Coordination Networks (pages 259–283): Moonhyun Oh, Jeffrey A. Reingold and Dwight A. Sweigart
Chapter eleven steel Complexes of ??Conjugated Polymers and comparable Polymers (pages 285–296): Takakazu Yamamoto and Hiroki Fukumoto
Chapter 12 Polyamides Containing Metals (pages 297–324): Issifu I. Harruna and Odessa N. Petzold
Chapter thirteen Ruthenium?Containing Polymers for solar power Conversion (pages 325–341): Charles E. Carraher and Amanda Taylor Murphy
Chapter 14 Uranium?Containing Polymers (pages 343–385): Charles E. Carraher

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Extra resources for Macromolecules Containing Metal and Metal-Like Elements: Metal-Coordination Polymers, Volume 5

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69. C. U. , Q. Ng, J. Organometal. Chem. 153, 85–97 (1978). 70. C. U. , A. Hirao, J. Org. Chem. 43, 640–646 (1978). 71. C. U. , C. C. Lin, J. Org. Chem. 43, 4928–4932 (1978). 72. C. U. , G. Wilemon, Ann. Y. Acad. Sci. 333, 67–73 (1980). 73. N. E. Leadbeater, M. Marco, Chem. Rev. 102, 3217–3274 (2002). 74. C. A. McNamara, M. J. Dixon, M. Bradley, Chem. Rev. 102, 3275–3300; D. E. Bergbreiter, Chem. Rev. 102, 3345–3384 (2002). 75. P. Mastrorilli, C. F. Nobile, Coord. Chem. Rev. 248, 377 (2004). 76.

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Kitoch, G. Walsworth, J. Depinto, J. Edzwald, Macromolecules 12, 435 (1979). 42. E. Tomic, T. Campbell, V. Foldi, J. Polym. Sci. 62, 379, 387 (1962). 43. C. Carraher, C. Ademu-John, J. Fortman, D. Giron, C. Turner, R. Linville, in Polymeric Materials in Medication, C. Gebelein, C. , Plenum, New York, 1985. 44. C. Carraher, C. Ademu-John, J. Fortman, D. Giron, C. Turner, PMSE 51, 307 (1984). 45. C. Carraher, X. Xu, Polymer Material Science and Engineering (PMSE) 75, 182 (1996). 46. C. U. , G. O.

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