1999
DOI: 10.1021/cm981050u
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Superconducting Metallocene Intercalation Compounds of β-ZrNCl

Abstract: The metal nitride halides, MNX (M ) Ti, Zr; X ) Cl, Br, I), were first reported by Juza and Heners in 1964 along with a high temperature -polymorph for ZrNCl and ZrNBr. 1 Subsequently, Ohashi et al. have shown that an alternative chemical vapor transport synthesis of -ZrNCl and -ZrNBr yields more highly crystalline samples of these compounds. 2, 3 We have recently reported that these host lattices are in fact isostructural with rhombohedral SmSI. 4,5 In this structure each Zr atom is seven-coordinate and is b… Show more

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Cited by 42 publications
(31 citation statements)
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“…By-products in synthesis at low temperatures are assigned to constitute of (NH 4 ) 2 [ZrCl 6 ] [21] and the a-phase of ZrNCl [19]. This gas-solid reaction technique could be expanded to b-ZrNBr [5,29,30] and especially to b-HfNCl [7,31], while the a-phase is the product for the other group IV metal nitride halides [32]. In most reports it is noted that the metal dihydride was reacted with NH 4 X at 650 C (M ¼ Zr, Hf; X ¼ Cl, Br) to avoid a decomposition of the product into ZrNH 0.6 [33] or ZrN [5,19].…”
Section: Synthesis Via Gas-solid Reaction and Annealingmentioning
confidence: 99%
“…By-products in synthesis at low temperatures are assigned to constitute of (NH 4 ) 2 [ZrCl 6 ] [21] and the a-phase of ZrNCl [19]. This gas-solid reaction technique could be expanded to b-ZrNBr [5,29,30] and especially to b-HfNCl [7,31], while the a-phase is the product for the other group IV metal nitride halides [32]. In most reports it is noted that the metal dihydride was reacted with NH 4 X at 650 C (M ¼ Zr, Hf; X ¼ Cl, Br) to avoid a decomposition of the product into ZrNH 0.6 [33] or ZrN [5,19].…”
Section: Synthesis Via Gas-solid Reaction and Annealingmentioning
confidence: 99%
“…A true structural description proved difficult due to the layered nature of the samples giving rise to preferred orientation, which complicates analysis by X-ray diffraction. Neutron diffraction, performed by Shamoto et al, supported by several X-ray diffraction studies provided the currently accepted crystal structure of b-ZrNCl [42][43][44][45][46]. The space group was identified as R " 3m (a = 3.5974(2) Å , c = 27.5480(20) Å , c = 120°).…”
Section: Compounds Showing Two-dimensional Structural Featuresmentioning
confidence: 99%
“…Superconductivity in ZrNX or HfNX is induced by intercalation of alkaline metals or Lewis bases as cobaltocene or pyridine into the van der Waals gap. [1][2][3]5,7 For sodium intercalated hafnium nitride chloride a superconducting phase has been reported with critical temperatures of 20, 23 or 24 K 8-11 and in lithium intercalated HfNCl, critical temperatures of 18, 20, 24 and 26 K have been observed in different samples showing in some cases co-intercalated organic molecules. 2,12,13 In both systems as well as in doped zirconium nitride chloride that shows lower critical temperatures (close to 12 K), the influence on the critical temperature of factors such as the nature of the transition metal, the co-intercalated molecules and the doping level have still not been completely understood.…”
mentioning
confidence: 99%