20:
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Grate, J. W.; Moore, L. K.; Janzen, D. E.; Veltkamp, D. J.; Kaganove, S.; Drew, S. M.; Mann, K. R. (2002). "Steplike
Response Behavior of a New Vapochromic Platinum Complex Observed with Simultaneous Acoustic Wave Sensor and Optical Reflectance Measurements".
664:
Mino, Y; Mochizuki, E; Kai, Y; Kurosawa, H (2001). "Reversible
Interconversion between Dinuclear Sandwich and Half-Sandwich Complexes: Unique Dynamic Behavior of a Pd-Pd Moiety Surrounded by an sp-Carbon Framework".
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Buss, C.E.; Anderson, C.E.; Pomije, M. K.; Lutz, C. M.; Britton, D.; Mann, K. R. (1998). "Structural
Investigations of Vapochromic Behavior. X-ray Single-Crystal and Powder Diffraction Studies of for M = Pt or Pd".
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Hua, Shao-An; Liu, Isiah Po-Chun; Hasanov, Hasan; Huang, Gin-Chen; Ismayilov, Rayyat Huseyn; Chiu, Chien-Lan; Yeh, Chen-Yu; Lee, Gene-Hsiang; Peng, Shie-Ming (2010).
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Murahashi, T; Nagai, Okuno, T; Matsutani, T; Kurosawa, H. (2000). "Synthesis and ligand substitution reactions of a homoleptic acetonitrile dipalladium(I) complex".
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526:"Probing the electronic communication of linear heptanickel and nonanickel string complexes by utilizing two redox-active [Ni2(napy)4]3+ moieties"
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166:(EMACs) are molecules or ions that consist of a finite, often short, linear strings of metal atoms, surrounded by organic
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410:
Huq, Fazlul; Skapski, Andrzej C. (1974). "Refinement of the crystal structure of acetylacetonatodicarbonylrhodium(I)".
338:
Bera, J. K.; Dunbar, K. R. (2002). "Chain
Compounds Based on Transition Metal Backbones: New Life for an Old Topic".
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599:\-(C2H5)C6H4)2(CN)2, a Crystalline Vapoluminescent Compound That Detects Vapor-Phase Aromatic Hydrocarbons".
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90:
23:
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340:
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Not only do these olefin-stabilized metal chains constitute a significant contribution to the field of
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Ginsberg, A. P.; Koepke, J. W.; Sprinkle, C. R. (2007). "Linear-Chain
Iridium Carbonyl Halides".
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303:. The technique is used to obtain single crystals of low-dimensional electrical conductors.
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108:
gives an electrically conductive derivative upon oxidation, e.g., with bromine to give
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431:
732:
Williams, Jack M (1989). "Highly
Conducting and Superconducting Synthetic Metals".
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materials, or materials which change color when exposed to different vapors.
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Linear chains of Pd-Pd bonds protected by a "π-electron sheath" are known.
211:
One group of platinum chains is based on alternating cations and anions of
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10.1002/1521-3773(20021202)41:23<4453::AID-ANIE4453>3.0.CO;2-1
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Materials made of one-dimensional arrays of metal-metal bonded molecules
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203:) showing the "stacking" of the individual planar units through
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F. Albert Cotton, Carlos A. Murillo, Richard A. Walton (eds.),
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93:. Another example is the partially oxidized derivatives of
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Some linear chain compounds are produced or fabricated by
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Tsuji, Yuta; Hoffmann, Roald; Miller, Joel S. (2016).
125:, where x ~0.05. Related chlorides have the formulae
42:
are materials composed of one-dimensional arrays of
284:, both the complex's metal atom structures and the
377:Miller, Joel S. (1982). Miller, Joel S (ed.).
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717:: CS1 maint: multiple names: authors list (
70:. Thus, upon crystallization, molecules of
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26:is an example of a linear chain compound.
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194:Dicarbonyl(acetylacetonato)rhodium(I)
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267:. These may be able to be used as
736:. Vol. 26. pp. 386–394.
512:Multiple Bonds Between Metal Atoms
291:themselves can conduct a current.
14:
101:. The otherwise ordinary complex
482:. Vol. 19. pp. 18–22.
379:Extended Linear Chain Compounds
514:, 3rd edition, Springer (2005)
66:Most examples are composed of
1:
786:Semiconductor material types
81:distances of about 326
85:. Classic examples include
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742:10.1002/9780470132579.ch70
464:10.1016/j.poly.2015.09.050
192:Portion of the lattice of
164:extended metal atom chains
50:. Such materials exhibit
488:10.1002/9780470132500.ch5
387:10.1007/978-1-4613-3249-7
282:organometallic chemistry
68:square planar complexes
447:"Revisiting Ir(CO)3Cl"
301:electrocrystallization
208:
205:Rh···Rh
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79:Rh···Rh
40:linear chain compounds
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781:Molecular electronics
412:J. Cryst. Mol. Struct
341:Angew. Chem. Int. Ed.
191:
176:
22:
776:Conductive polymers
734:Inorganic Syntheses
533:Dalton Transactions
480:Inorganic Syntheses
381:. Springer-Verlag.
91:Magnus's green salt
24:Magnus's green salt
424:10.1007/BF01220097
209:
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44:metal-metal bonded
28:
751:978-0-470-13257-9
699:(17): 1689–1690.
680:10.1021/ja010027y
674:(28): 6927–6928.
668:J. Am. Chem. Soc.
651:10.1021/ja981218c
645:(31): 7783–7790.
639:J. Am. Chem. Soc.
614:10.1021/ja011986v
602:J. Am. Chem. Soc.
582:10.1021/cm0104506
396:978-1-4613-3251-0
347:(23): 4453–4457.
36:materials science
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198:Rh(acac)(CO)
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72:Rh(acac)(CO)
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56:conductivity
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29:
457:: 141–149.
295:Methodology
269:vapochromic
261:[Pt(CN)
77:stack with
54:electrical
52:anisotropic
765:Categories
451:Polyhedron
319:References
32:chemistry
622:11829612
553:20372713
432:96977904
361:12458505
307:See also
153:·½H
103:IrBr(CO)
62:Examples
289:ligands
168:ligands
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286:olefin
272:sensor
259:) and
145:Ir(CO)
529:(PDF)
428:S2CID
219:(R =
184:EMAC.
746:ISBN
719:link
618:PMID
549:PMID
492:ISBN
391:ISBN
357:PMID
223:Pr,
139:and
134:(CO)
127:IrCl
117:(CO)
110:IrBr
89:and
48:ions
34:and
738:doi
701:doi
676:doi
672:123
647:doi
643:120
610:doi
606:124
578:doi
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484:doi
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455:103
420:doi
383:doi
349:doi
242:-(C
177:An
143:0.6
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250:)C
237:,
234:23
230:12
228:-C
179:Ni
170:.
159:.
149:Cl
129:1+
119:3−
112:1+
83:pm
58:.
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240:p
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226:c
221:i
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