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1.
LnCl 3 (Ln=Nd, Gd) reacts with C 5H 9C 5H 4Na (or K 2C 8H 8) in THF (C 5H 9C 5H 4 = cyclopentylcyclopentadienyl) in the ratio of 1 : to give (C 5H 9C 5H 4)LnCl 2(THF) n (orC 8H 8)LnCl 2(THF) n], which further reacts with K 2C 8H 8 (or C 5H 9C 5H 4Na) in THF to form the litle complexes. If Ln=Nd the complex (C 8H 8)Nd(C 5H 9C 5H 4)(THF) 2 (a) was obtained: when Ln=Gd the 1 : 1 complex [(C 8H 8)Gd(C %H 9)(THF)][(C 8H 8)Gd(C 5H 9H 4)(THF) 2] (b) was obtained in crystalline form. The crystal structure analysis shows that in (C8H8)Ln(C5H9C5H4)(THF)2 (Ln=Nd or Gd), the Cyclopentylcyclopentadieny (η5), cyclooctatetraenyl (η8) and two oxygen atoms from THF are coordinated to Nd3+ (or Gd3+) with coordination number 10. The centroid of the cyclopentadienyl ring (Cp′) in C5H9C5H4 group, cyclooctatetraenyl centroid (COTL) and two oxygens (THF) form a twisted tetrahedron around Nd3+ (or Gd3+). In (C8H8)Gd(C5H9C5H4)(THF), the cyclopentyl-cyclopentadienyl (η5), cyclooctatetraenyl (η8) and one oxygen atom are coordinated to Gd3+ with the coordination number of 9 and Cp′, COT and oxygen atom form a triangular plane around Gd3+, which is almost in the plane (dev. -0.0144 Å). 相似文献
2.
Distibines of the type R 2SbSbR′ 2 with R = CH 3, R′ = C 2H 5 (1), R = CH 3, R′= n-C 3H 7 (2), R = CH 3, R′= C 6H 5 (3), R = C 2H 5, R′= C 6H 5 (4), R = n-C 3H 7, R′ = C 6H 5 (5), and R = CH 3, R′ = 2,4,6-(CH 3) 2C 6H 2 (6) are formed in equilibria by exchange reactions of the respective distibines of the type R 4Sb 2 and R′ 4Sb 2. 相似文献
3.
The ruthenium(II) complex Ru(CO) 2(NH 2(NH 2CH 2C 6H 5) 2(Si(C 6H 5)(CH 3) 2)I has been prepared by the reaction of Ru(CO) 4(Si(C 6H 5)(CH 3) 2)I with benzylamine. Two-dimensional homonuclear 1H NMR experiments examine the scalar coupling of the enantiotopic amino and methylene protons of the benzylamine ligand. X-ray analysis of Ru(CO) 2(NH 2CH 2C 6H 5) 2(Si(C 6H 5)(CH 3) 2)I·1/3C 5H 12 (triclinic; P
; a = 14.266(4), b = 15.748(5), c = 20.082(6) Å; = 94.38(3), β = 96.30(2), γ = 101.52(2)°) indicates three crystallographically unique complexes form a clathrate with a pentane guest. 相似文献
4.
The directed oligomerization of propene and 1-hexene was carried out with a series of Cp′(C 5H 5)ZrCl 2 and Cp 2′ZrCl 2 pre-catalysts (Cp′=C 5HMe 4, C 4Me 4P, C 5Me 5, C 5H 4tBu, C 5H 3-1,3- tBu 2, C 5H 2-1,2,4- tBu 3) together with (C 5H 5) 2ZrCl 2. Oligomers in the molar mass range 300–1500 g/mol for propene and 200–3000 g/mol for 1-hexene were synthesized at 50 °C. The majority of oligomer molecules contain a double-bond end group. Oligomer characterization was carried out by gel permeation chromatography (GPC), 1H and 13C NMR. Vinylidene double bonds (from β-hydrogen elimination) are solely found for the tert-butyl-substituted zirconocenes and for most of the unsymmetrical methyl-substituted Cp′(C 5H 5)ZrCl 2 systems (except Cp′=phospholyl). With (C 4Me 4P)(C 5H 5)ZrCl 2 and with the symmetrical methyl-containing Cp 2′ZrCl 2 pre-catalysts, also vinyl end groups (from β-methyl elimination) are observed in the case of oligopropenes. The vinylidene/vinyl ratio depends on the ligand and the vinyl content increases from C 5HMe 4 (65/35) over C 4Me 4P (61/39) to C 5Me 5 (9/91). The phospholyl zirconocenes and (C 5HMe 4) 2ZrCl 2 also exhibit chain-transfer to aluminum thereby giving saturated oligomers. 相似文献
5.
From the reaction of MeReO 3 with the neutral arylamine C 6H 5CH 2NMe 2 and the aryldiamine C 6H 4(CH 2NMe 2) 2−1,3, have been isolated in good yields the 1/1 adduct complex [MeReO 3 · C 6H 5CH 2NMe 2], 1, and the 2/1 adduct complex [(MeReO 3) 2 · C 6H 4(CH 2NMe 2) 2− 1,3], 2, respectively. The X-ray molecular structure of 2 shows that both rhenium centres have a trigonal bipyramidal geometry and in the axial positions of each rhenium centre are one of the NMe 2 units of the aryldiamine ligand and a methyl group. The mono(ortho)-chelated arylaminorhenium trioxide complex [ReO 3(C 6H 4CH 2NMe 2−2], 3, can be synthesized by a transmetallation reaction of ClReO 3 with [ZnC 6H 4CH 2NMe 2−2 2] in a 2:1 molar ratio. In a similar way the bis(ortho)-chelated arylaminorhenium trioxide complex [ReO 3C 6H 3(CH 2NMe 2) 2−2,6], 4, can be synthesized by addition of a mixture of [Li 2C 6H 3(CH 2NMe 2) 2−2,6 2] and ZnCl 2 to ClReO 3. Complexes 3 and 4 have been isolated as white solids in 66% and 81% yields respectively. The rhenium centre in complex 4 has a bicapped tetrahedral geometry in which the monoanionic C 6H 3(CH 2NMe 2) 2−2,6 − ligand is pseudo-facially bonded with a characteristic N1-Re-N2 angle of 107.7(3)°, a Re-C ipso bond length of 2.112(11) Å and Re-N1 and Re-N2 bond lengths of 2.518(9) Å and 2.480(8) Å respectively. 相似文献
6.
139La-NMR chemical shifts were measured for several anionic complexes of formulae Li(C 4H 8O 2) 3/2 [La(ν 3-C 3H 5) 4], [Li(C 4H 8O 2) 2][Cp′ nLa(ν 3-C 3]H 5) 4−n] (Cp′ = Cp(ν 5-C 5H 5); n = 1, 2 and Cp′ = Cp * (ν 5-C 5Me5); N = 1) and Li[R nLa(ν 3-C 3H 4) 4− n] (R = N(SiMe 3) 2; n = 1, 2 and R = CCsIMe 3; n = 4), as well as for neutral compounds for formulae La(ν 3-C 3H 5) 3L n (L = (C 4H 8O 2) 1.5, (HMPT) 2, TMED), Cp′ nLa(ν 3-C 3H 5) 3−n (Cp′= Cp(ν 5-Cp 5H 5), Cp *(ν 5-C 5Me 5); n = 1, 2) and La(ν 3-C 3H 2) 2X(THF) 2 X = Cl, Br, I). Typical ranges of the 139La-NMR chemical shifts were found for the different types of complex independent of number and kind of organyl groups directly bonded to lanthanum. Zusammenfassung139La-NMR-Spektroskopie wurde an einer Reihe anionischer Allyllanthanat(III)-Komplexe der Zusammensetzung
]- [La)ν3-C3H5)4, [Li(C4H8)2][Cp′nLa(ν3-C3H5)4−n(Cp′ = Cp(ν5-C5H5); n = 1, 2 und Cp′ = Cp * (ν5-C5Me5); N = 1) und Li[RnLa(ν3-C3H5)4−n (R = B(SiMe3)2; n = 1, 2 und R = CCSiMe3; n = 4 sowie neutraler Allyllanthan(III)-Komplexe der Zusammensetzung La(ν3-C3H5)3Ln (Ln = (C4H8O2)1.5, (HMPT)2, TMED), Cp′n, La(ν3-C3H5)3−n (Cp′ = Cp(ν5-C5H5), Cp * (ν5- Cp5Me5); n = 1, 2) und La(ν3-Cp3H5)2X(THF)2 (X = Cl, Br, I) durchgefürt. In Abhängikeit von der Anzahl und der Art der am Lanthan gebundenen Gruppen wurden für die verschieden Komplextypen charakteristische Resonanzbereiche ermittelt. 相似文献
7.
(C 5H 5) 2Lu(μ-Cl 2)Na(dme) 2 reacts with LiSi(CH 3) 3 in dimethoxyethane with formation of [Li(dme) 3][(C 5H 5) 2Lu(Si(CH 3) 3) 2]. The crystal structure study shows the compound to consist of discrete ions [Li(dme) 3] + and [(C 5H 5) 2Lu(Si(CH 3) 3) 2] −. The compound crystallizes in the space group P2/ n with a 14.497(5) b 9.041(2), c 14.672(6) Å, β 103.85(3)° and V 1867(2) Å 3. The crystal and molecular structure was refined to R = 0.0473 for 2491 observed reflections with Fo 3σ( Fo). 相似文献
8.
Reduction of (C 5H 5) 2TiCl 2 with Zn in presence of benzyl cyanide gives the (μ-alkyl-ideneamido)titanocene complex [(C 5H 5) 2TiCl] 2[μ-{N=C(CH 2C 6H 5)---C(CH 2C 6H 5)=N}] with C---C bond formation between two benzyl cyanide molecules. X-ray structure investigation indicates a symmetrical structure. The C=N distances are smaller than usual, the Ti---N distances are very short, and the Ti---N---C angle differs only a little from 180°, which infers a heteroallene structure of the complex. 相似文献
9.
Two organogold derivatives of diphenylmethane and diphenylethane, Ph 3PAu( o-C 6H 4)CH 2(C 6H 4- o)AuPPh 3 (1) and Ph 3PAu( o-C 6H 4)(CH 2) 2(C 6H 4- o)AuPPh 3 (2), have been synthesized by the reaction of ClAuPPh 3 with Li( o-C 6H 4)CH 2(C 6H 4- o)Li and Li( o-C 6H 4)(CH 2) 2(C 6H 4- o)Li respectively. The interaction of 1 with dppe results in the replacement of the two PPh 3 groups to give a macrocyclic compound (3) that includes an Au Au bond. Compounds 1 and 2 react with one or two equivalents of [Ph 3PAu]BF 4 to form new types of cationic complex [CH 2(C 6H 4- o) 2(AuPPh 3) 3]BF 4 (4), [CH 2(C 6H 4- o) 2(AuPPh 3) 4](BF 4) 2 (5), and [(CH 2) 2(C 6H 4- o) 2(AuPPh 3) 4](BF 4) 2 (6). Complexes 1–6 have been characterized by X-ray diffraction studies, FAB MS, and IR as well as by 1H and 31P NMR spectroscopy. A complicated system of Au H-C agostic interactions, involving the bridging alkyl groups (—CH 2— and CH 2-CH 2—) of diphenylmethane and diphenylethane ligands, has been found to occur in complexes 1–3 and 6. 相似文献
10.
The behaviour of tetraarylstannanes, R 4Sn (R = C 6H 5CH 2, C 6H 5, o-, m-, p-CH 3C 6H 4), towards SO 2 under various conditions has now been studied in detail. Compared to aliphatic tetraorganostannanes, the variability of the reaction products is much less, so that in nearly all cases only disulfinates, R 2Sn(O 2SR) 2, are formed. The aromatic tin(IV) mono-, di- and tri-sulfinates are also obtained by metathetical reaction between the corresponding organotin halides and sodium sulfinates. A unique feature of triaryltin chlorides, R 3SnCl (R = C 6H 5, o-, m-, p-CH 3C 6H 4), is their disproportionation in liquid SO 2 leading to disulfinates, R 2Sn(O 2SR) 2, and dichlorides, R 2SnCl 2. ( p-CH 3C 6H 4) 2SnCl 2, under more efficient conditions, also accepts SO 2 forming ( p-CH 3C 6H 4SO 2) 2SnCl 2. The structural investigations of the newly prepared compounds are carried out on the basis of their IR and 1H NMR spectra. 相似文献
11.
The synthesis of the potential bridging ligand (C 6H 5) 2PCH 2CH 2Si(CH 3) 2C 5H 4 (3) is described. The ferrocene (6 derived from 3 has been found to form macrocyclic complexes with metal fragments NiCl 2, NiBr 2, and Co 2(CO) 6. Although monomeric, bimetallic products might have been expected based upon the reduced steric demands of ligand 3 relative to an analogous ligand, (C 6H 5) 2PCH 2Si(CH) 3) 2C 5H 4 (1), it appears that the increased flexibility in 3 is the overriding factor leading to a preference for inter- rather than intramolecular coordination of the second phosphine function in 6. 相似文献
12.
The new chloro(cyclopentadienyl)silanes Cp′SiH yCl 3−y (Cp′=Me 4EtC 5, y=1: 1; Cp′=Me 4C 5H, y=1: 2; y=0: 3; Cp′=Me 3C 5H 2, y=1: 4 and pentachloro(cyclopentadienyl)disilanes Cp′Si 2Cl 5 (Cp′=Me 5C 5 5, Me 4EtC 5 6, Me 4C 5H 7, Me 3C 5H 2 8, Me 3SiC 5H 4 9) are synthesized in good yields via metathesis reactions. Treatment of 1–9 with LiAlH 4 leads under Cl–H exchange to the hydridosilyl compounds Cp′SiH 3 (Cp′=Me 4EtC 5 10, Me 4C 5H 11, Me 3C 5H 2 12) and to the hydridodisilanyl compounds Cp′Si 2H 5 (Cp′=Me 5C 5 13, Me 4EtC 5 14, Me 4C 5H 15, Me 3C 5H 2 16, Me 3SiC 5H 4 17). Complexes 1–17 are characterized by 1H, 13C, and 29Si-NMR spectroscopy, IR spectroscopy, mass spectrometry and CH-analysis. The structures of 6, 7 and 9 are determined by single-crystal X-ray diffraction analysis. Pyrolysis studies of the cyclopentadienylsilanes 10–12 and disilanes 13–17 show their suitability as precursors in the MOCVD process. 相似文献
13.
Treatment of the complex Mo(Nmes)(O)Cl 2(dme) (mes=2,4,6-trimethylphenyl; dme=1,2-dimethoxyethane) with KTp Me2, NaCp and bipy gives the corresponding derivatives (Tp Me2)Mo(Nmes)(O)Cl (1), CpMo(Nmes)(O)Cl (2) and Mo(Nmes)(O)Cl 2(bipy) (3). Other oxo---imido compounds of composition Mo(Nmes)(O)(S 2CNR 2) 2 (R 2=C 4H 4 4, C 5H 10 5, iPr 2 6) can be obtained by reacting Mo(Nmes)(O)Cl 2(dme) with the appropriate dithiocarbamate salt. The NMR properties of 4–6 are consistent with the presence of two rapidly equilibrating dithiocarbamate ligands. The reaction of Mo(Nmes)(O)Cl 2(dme) with different Grignard reagents, Mg(R)X, produces the trialkyl imido complexes Mo(Nmes)R 3Cl (R=Me 7, CH 2C(Me) 2Ph 8, CH 2SiMe 3 9). 相似文献
14.
Reaction of YbI 2 with two equivalents of cyclopentylindenyl lithium (C 5H 9C 9H 6Li) affords ytterbium(II) substituted indenyl complex (C 5H 9C 9H 6) 2Yb(THF) 2 (1) which shows high activity to ring-opening polymerization (ROP) of lactones. The reaction between YbI 2 and cyclopentylcyclopentadienyl sodium (C 5H 9C 5H 4Na) gives complex [(C 5H 9C 5H 4) 2Yb(THF)] 2O 2 (2) in the presence of a trace amount of O 2, the molecular structure of which comprises two (C 5H 9C 5H 4) 2Yb(THF) bridged by an asymmetric O 2 unit. The O 2 unit and ytterbium atoms define a plane that contains a Ci symmetry center. 相似文献
15.
In repeating and extending the syntheses of organo-arsenic polytungstates,we found that the "Degradation Method",taking sodium metatungstate as the starting material,was much more profita-ble.The known compound (CN3H6)5[(C6H5As)2W6O25H]2H2O(1) was read-ily reproduced with a high yield.A new compound (CN3H6)6[(p-OH,m-NO2C6H3As)2W6O25](2) was likewise synthesized.This "Degradation Method" using the reaction of sodium metatungstate with organo-anti-monate led to the isolation of four compounds with definite composition although amorphous in appearance.The preparations of organo-arsenic polymolybdates and organo-antimony polymolybdates were also studied and six new organo-arsenic polymolybdates were isolated: (CN3H6)5[(C6H5As)2MoO25H]H2O(3),(CN3H6)4[(n-C3H7As)2Mo5O21]2H O (4),(CNH)4[(n-C3H7As)2Mo6O24](5),Cs2[(CH3)2AsMo4O15H](6),相似文献
16.
Reactions of [(η 6-arene)RuCl 2] 2 (1) (η 6-arene= p-cymene (1a), 1,3,5-Me 3C 6H 3 (1b), 1,2,3-Me 3C 6H 3 (1c) 1,2,3,4-Me 4C 6H 2(1d), 1,2,3,5-Me 4C 6H 2 (1e) and C 6Me 6 (1f)) or [Cp*MCl 2] 2 (M=Rh (2), Ir (3); Cp*=C 5Me 5) with 4-isocyanoazobenzene (RNC) and 4,4′-diisocyanoazobenzene (CN–R–NC) gave mononuclear and dinuclear complexes, [(η 6-arene)Ru(CNC 6H 4N=NC 6H 5)Cl 2] (4a–f), [Cp*M(CNC 6H 4N=NC 6H 5)Cl 2] (5: M=Rh; 6: M=Ir) , [{(η 6-arene)RuCl 2} 2{μ-CNC 6H 4N=NC 6H 4NC}] (8a–f) and [(Cp*MCl 2) 2(μ-CNC 6H 4N=NC 6H 4NC)}] (9: M=Rh; 10: M=Ir) , respectively. It was confirmed by X-ray analyses of 4a and 5 that these complexes have trans-forms for the ---N=N--- moieties. Reaction of [Cp*Rh(dppf)(MeCN)](PF 6) 2 (dppf=1,1′-bis (diphenylphosphino)ferrocene) with 4-isocyanoazobenzene gave [Cp*Rh(dppf)(CNC 6H 4N=NC 6H 5)](PF 6) 2 (7), confirmed by X-ray analysis. Complex 8b reacted with Ag(CF 3SO 3), giving a rectangular tetranuclear complex 11b, [{(η 6-1,3,5-Me 3C 6H 3)Ru(μ-Cl} 4(μ-CNC 6H 4N=NC 6H 4NC) 2](CF 3SO 3) 4 bridged by four Cl atoms and two μ-diisocyanoazobenzene ligands. Photochemical reactions of the ruthenium complexes (4 and 8) led to the decomposition of the complexes, whereas those of 5, 7, 9 and 10 underwent a trans-to- cis isomerization. In the electrochemical reactions the reductive waves about −1.50 V for 4 and −1.44 V for 8 are due to the reduction of azo group, [---N=N---]→[---N=N---] 2−. The irreversible oxidative waves at ca. 0.87 V for the 4 and at ca. 0.85 V for 8 came from the oxidation of Ru(II)→Ru(III). 相似文献
17.
The reaction of nickelocene with phenyllithium, ortho-, meta- and para-methylphenylmagnesium bromide, and 2-((dimethylamino)methyl) phenyllithium are studied. It was found that unstable compounds {CpNiC 6H 4R} (R = H, o-, m-, p-CH 3) are formed in those reactions. For R = CH 2N(CH 3) 2, a stable compound, CpNiC 6H 4CH 2N(CH 3) 2, is formed due to intramolecular coordination. In other cases, mainly coupling reactions occur and biphenyl, bitolyl and higher coupling products are formed. Compound (CpNiC 6H 4R) is also formed as a product of thermal decomposition of Cp{η 2− C 2H 4)NiC 6H 4R. It reacts further to form the same products as above. The mechanism of the coupling reactions is proposed and discussed. 相似文献
18.
合成双(2,4-二甲基戊二烯基)氯化钆{[2,4-(CH 3) 2C 5H 5] 2GD cl} 2,并测定了晶体结构.晶体为单斜晶系,P2 1/n空间群.晶胞参数a=0.89141(18)nm,b=1.4486(3)nm,c=1.15925(15)nm,β=92.996(18)°,V=1.4949(4)nm 3,Z=3. 相似文献
19.
Reaction of ansa-cyclopentadienyl pyrrolyl ligand (C 5H 5)CH 2(2-C 4H 3NH) (2) with Ti(NMe 2) 4 affords bis(dimethylamido)titanium complex [(η 5-C 5H 4)CH 2(2-C 4H 3N)]Ti(NMe 2) 2 (3) via amine elimination. A cyclopentadiene ligand with two pendant pyrrolyl arms, a mixture of 1,3- and 1,4-{CH 2(2-C 4H 3NH)} 2C 5H 4 (4), undergoes an analogous reaction with Ti(NMe 2) 4 to give [1,3-{CH 2(2-C 4H 3N)} 2(η 5-C 5H 3)]Ti(NMe 2) (5). Molecular structures of 3 and 5 have been determined by single crystal X-ray diffraction studies. 相似文献
20.
Compounds [n-C nH 2n+1N(CH 3) 3] 2CoCl 4(n=16, C 16C 3Co; n=18, C 18C 3Co) containing lipid-like bilayers embedded in a crystalline matrix exist in solid-solid phase transition. The low-temperature bilayer structures of the two compounds were organized by neutralizing CoCl 42- with alkylammonium ions. Alkyl chains lay parallel to each other and slightly tilted with respect to the normal of the inorganic layers. The adjacent alkyl chains interacted with each other by van der Waals interaction. When the temperature increased, the two compounds underwent a reversible solid-solid phase transformation within 310―330 K. In such a case, the chains showed a large motional freedom, and a disordered phase appeared. The structures can alternatively be viewed as a double layer of alkylammonium ions between CoCl 42- sheets and be considered as crystalline models of lipid bilayers. The experimental subsolidus binary phase diagram of [n-C 16H 33N(CH 3) 3] 2CoCl 4-[n-C 18H 37N(CH 3) 3] 2CoCl 4 was constructed over the entire composition range by differential scanning calorimetry and X-ray diffraction technique. Experimental phase diagram indicates one stable intermediate phase [n-C 16H 33N(CH 3) 3][n-C 18H 37N(CH 3) 3]CoCl 4 at w C16C3Co= 39.89% and two invariant three- phase equilibria, which shows two eutectoid temperatures: T e1 at (316±1) K for w C16C3Co= 27.35% and T e2 at (313±1) K for w C16C3Co=59.76%. These three noticeable solid-solution ranges are α-phase at the left, β-phase at the right, and γ-phase in the middle of the phase diagram. 相似文献
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