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1.
The new isocyanato carborane anion, [7-O=C=N-7-CB 10H 12] − was prepared by the reaction of 7-H 3N-7-CB 10H 12 with triphosgene in the presence of triethylamine. The structure of this compound was established by 1H, 11B and 13C NMR as well as IR spectroscopy. The reactivigty of this compound with a series of organic amines was investigated. The resulting ureas were obtained in good to excellent yields. This approach is suitable for development of compounds for use in tumor selective Boron Neutron Capture Therapy (BNCT). 相似文献
2.
Electronically excited iodine atoms, I(5 2P 1/2), have been monitored using time resolved atomic resonance fluorescence. Rate data for quenching by C 3H 8 and CD 4 are presented. 相似文献
3.
A new tellurium-containing heterocyclic compound, 2,2,6,6-tetramethyl-1-oxa-4-tellura-2,6-disilacyclohexane (C 6H 16OSi 2Te) (1), has been prepared by treatment of 1,3-bis(chloromethyl)-1,1,3,3-tetramethyldisiloxane with sodium telluride. Mononuclear and dinuclear palladium complexes of this telluride have been prepared by the reaction of 1 with PdCl 2(PhCN) 2 and Na 2PdCl 4, respectively. The following new derivatives of 1 have also been produced: C 6H 16OSi 2TeI 2 (2), C 6H 16OSi 2TeBr 2, C 6H 16OSi 2TeCl 2, C 6H 16OSi 2Te(CH 3)I, and C 6H 16OSi 2Te(CH 2Ph)Br. IR, 1H and 13C NMR and mass spectral data of these new compounds are reported and discussed. 1H NMR studies revealed that in CDCl 3 solution both telluronium salts reductively eliminate alkyl halide. The crystal structure of compound 2 has been determined by X-ray diffraction. The compound crystallizes in the monoclinic space group, P2 1/ c, with four molecules in a unit cell of dimension a 12.960(3), b 8.846(2), c 13.754(4) Å, β 92.44(2)°, R = 0.049, and Rw = 0.067 for 3599 unique reflections with | F0| > 3σ( F0). The compound forms a six-membered ring of a slightly displaced boat type. The geometry about the Te atom is pseudo-octahedral, with two carbon atoms (Te-C = 2.156(7) and 2.137(6) Å) and two iodine atoms of the neighbouring molecules (weak intermolecular bonds, Te · I = 3.769 and 3.806 Å) in the equatorial positions and two iodine atoms (Te-I = 2.909(1) and 2.913(1) Å) in the axial positions. 相似文献
4.
1,2-二(1-苯基环己基环戊二烯基)四甲基二硅烷与Fe(CO) 5在二甲苯中加热回流生成二铁化合物(Me 2SiSiMe 2)[(1-Ph-c-C 6H 10C 5H 3)Fe(CO)] 2(μ-CO) 2(2).通过柱层析分离到化合物2的顺反异构体2c和2t,并分别进行热重排反应,发现顺式底物2c重排生成反式重排产物[Me 2Si(c-C 6H 10PhC 5H 3)Fe(CO) 2] 2(3t),而反式底物2t重排则生成顺式重排产物3c.这表明重排反应是立体专一性的.通过X射线衍射分析测定了化合物2c和3t的晶体结构. 相似文献
5.
Addition of H 2 to CH 2Cl 2 solutions of [(diene)Rh(L) 2][closo-CB 11H 12] (diene=norbornadiene, cyclooctadiene, L=PCy 3, P(OMe) 3, 1/2dppe) results in the formation of the exo-closo complexes [(PR 3) 2Rh(closo-CB 11H 12)]. These have been characterised in solution by 1H- and 11B-NMR spectroscopy, and for L=PCy 3 by a single crystal X-ray diffraction study. This suggests that the metal fragment is bound with the cage through the 7,8- and not the 7,12-{BH} vertices. DFT calculations on a model system where L=PMe 3 show that there is only a negligible energy difference between these two isomers (1 kcal mol −1), suggesting that both represent stable structures. The salient spectroscopic markers that indicate an interaction of [closo-CB 11H 12] − with a metal fragment are discussed and compared across a range of metal complexes. Large upfield shifts in the 11B-NMR spectrum and a small downfield shift of the CH vertex in the 1H-NMR spectrum are shown to the most reliable indicators of borane interaction in solution. 相似文献
6.
The compounds Cp 2VR (R = CH 3, C 2H 5, n-C 3H 7, n-C 4H 9, n-C 5H 11, CH 2C(CH 3) 3 or CH 2Si(CH 3) 3) have been prepared from Cp 2 VCl and RMgX in n-pentane. The air-sensitive compounds are stable at room temperature, but decompose between 65 and 138°C. The thermal stability decreases in the order R = CH 3 CH 2Si(CH 3) 3 > C 2H 5 > CH 2C(CH 3) 3 > n-C 5H 11 > n-C 4H 9 > n-C 3H 7. Compounds with R = i-C 3H 7 or t-C 4H 9 could not be obtained. 相似文献
7.
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
8.
The reactions of RNHSi(Me) 2Cl (1, R= t-Bu; 2, R=2,6-(Me 2CH) 2C 6H 3) with the carborane ligands, nido-1-Na(C 4H 8O)-2,3-(SiMe 3) 2-2,3-C 2B 4H 5 (3) and Li[ closo-1-R′-1,2-C 2B 10H 10] (4), produced two kinds of neutral ligand precursors, nido-5-[Si(Me) 2N(H)R]-2,3-(SiMe 3) 2-2,3-C 2B 4H 5, (5, R= t-Bu) and closo-1-R′-2-[Si(Me) 2N(H)R]-1,2-C 2B 10H 10 (6, R= t-Bu, R′=Ph; 7, R=2,6-(Me 2CH) 2C 6H 3, R′=H), in 85, 92, and 95% yields, respectively. Treatment of closo-2-[Si(Me) 2NH(2,6-(Me 2CH) 2C 6H 3)]-1,2-C 2B 10H 11 (7) with three equivalents of freshly cut sodium metal in the presence of naphthalene produced the corresponding cage-opened sodium salt of the “carbons apart” carborane trianion, [ nido-3-{Si(Me) 2N(2,6-(Me 2CH) 2C 6H 3)}-1,3-C 2B 10H 11] 3− (8) in almost quantitative yield. The reaction of the trianion, 8, with anhydrous MCl 4 (M=Ti and Zr) in 1:1 molar ratio in dry tetrahydrofuran (THF) at −78 °C, resulted in the formation of the corresponding half-sandwich neutral d 0-metallacarborane, closo-1-M[(Cl)(THF) n]-2-[1′-η 1σ-N(2,6-(Me 2CH) 2C 6H 3)(Me) 2Si]-2,4-η 6-C 2B 10H 11 (M=Ti (9), n=0; M=Zr (10), n=1) in 47 and 36% yields, respectively. All compounds were characterized by elemental analysis, 1H-, 11B-, and 13C-NMR spectra and IR spectra. The carborane ligand, 7, was also characterized by single crystal X-ray diffraction. Compound 7 crystallizes in the monoclinic space group P2 1/ c with a=8.2357(19) Å, b=28.686(7) Å, c=9.921(2) Å; β=93.482(4)°; V=2339.5(9) Å 3, and Z=4. The final refinements of 7 converged at R=0.0736; wR=0.1494; GOF=1.372 for observed reflections. 相似文献
9.
运用脉冲激光光解-激光诱导荧光(PLP-LIF)的方法研究了C2(a3Πu)自由基与若干不饱和碳氢化合物(C2H4(k1),C2H2(k2),C3H6(k3)和2-C4H8(k4))气相反应的温度效应.在298-673 K的温度范围内,获得了这些反应的双分子反应速率常数.获得的速率常数可以用Arrhenius公式表达如下:k1(T)=(4.53±0.05)×10-11exp[(196.41±5.20)/T],k2(T)=(3.94±0.04)×10-11exp[(143.04±4.28)/T],k3(T)=(7.96±0.17)×10-11exp[(185.10±8.86)/T],k4(T)=(1.04±0.02)×10-10exp[(180.34±7.67)/T],误差为±2σ.由获得的双分子反应速率常数及其所呈现的负温度效应,在298-673 K温度范围内,C2(a3Πu)自由基和这些不饱和碳氢化合物的反应遵循加成机理. 相似文献
10.
Liquid crystalline 4-XC 6H 4N=NC 6H 4X-4′ [X = C 4H 9 (1a), C 1OH 21 (1b), OC 4H 9 (1c), OC 8H 17(1d)] can be easily prepared in high yields from the corresponding anilines. In order to study the influence of metals on the thermal properties of these materials, we have obtained adducts [AuCl 3(4-C 4H 9OC 6H 4N=NC 6H 4OC 4H 9-4′)] (2) and [Ag(OC1O 3)L 2] [L = 4-XC 6H 4N=NC 6H 4X-4′; X = OC 4H, (3a), OC 8H 17 (3b)]. The silver adducts show themotropic behaviour. Mercuriation of dialkylazobenzenes 1a-b takes place with [Hg(OAc) 2] and LiCl to give [Hg(R)Cl] [R = C 6H 3(N=NC 6H 4X-4′)-2, X-5; X = C 4H 9 (bpap) (4a), C 10H 21 (dpap) (4b)] while dialkoxyazobenzenes 1c–d require [Hg (OOCCF 3) 2] to obtain [Hg(R)Cl] [R = C 6H 3(N---NC 6H 4X-4′)-2, X-5; X = OC 4H 9 (bxpap) (4c), OC 8H 17 (4d)]. 4a-c react with NaI to give [HgR 2] [R= bpap (5a), dpap (5b), bxpap (5c), oxpap (5d)l. Both chloroaryl-, 4a and 4c, and diaryl-mercurials, 5a and 5c, act readily as transmetailating agents towards [Me 4N] [AuCl 4] in the presence of [Me 4N]Cl to give [Au(η 2-R)Cl 2] [R = bpap (6a), bxpap (6b)]. After reaction of [AuCl 3(tht)] (tht = tetrahydrothiophene) with [Me 4N]Cl and 4b (1:2:1), [Me 4N][Au(dpap)Cl 3] (7) can be isolated. C---H activati bxpap (8b)]. None of the complexes 4–8 shows mesomorphic behaviour. 相似文献
11.
测定了过氧化辛酰(1)和过氧化己酰(2)在邻二氯苯中,分别在碘、碘乙烷、2-碘丙烷和3-溴丙烯存在下,90℃时热分解产物的 1HNMR谱,观察到自由基捕获产物(RX,R=n-C 7H 15、n-C 5H 11;X=I,Br)和歧化产物(R -H)的CIDNP多重效应。讨论了过氧化酰热分解生成自由基对及相互作用的机理。 相似文献
12.
Thermolysis of [ arachno-4-SB 8H 12] (1) in boiling cyclohexane gives two isomers 2 and 3 of 18-vertex [S 2B 16H 16], together with known 12-vertex [ closo-1-SB 11H 11] (4) and known 11-vertex [ nido-7-SB 10H 12] (5). Compounds 2 and 3 are characterised by single-crystal X-ray diffraction analyses and single- and double-resonance 11B- and 1H-NMR spectroscopy. The [ n-S 2B 16H 16] isomer 2 takes the form of nido ten-vertex: nido ten-vertex [ anti-B 18H 22] with the 9 and 9′ positions occupied by S vertices, whereas the [ iso-S 2B 16H 16] isomer 3 takes the form of a nido 11-vertex {SB 10} subcluster fused via a common two-boron edge to a nido-type {B 8} subcluster that is additionally linked exo to the {SB 10} subcluster by a bridging S atom that is held endo to the {B 8} unit. Isomer 2 is readily deprotonated and its monoanion 6 is characterised by NMR spectroscopy and by a single-crystal X-ray diffraction analysis of its [tmndH] +[ n-S 2B 16H 15] salt 6b; deprotonation has occurred from an open-face B---H---B bridging site. 相似文献
13.
Three tetranuclear clusters [Ru 4H 4(CO) 11(PPh 3)] (1), [Ru 4H 2(CO) 12(PPh 3)] (2) and [Ru 3IrH(CO) 12(PPh 3)] (3) were formed in the reaction of [Ir(CO)Cl(PPh 3) 2] and Na[Ru 3H(CO) 11] in tetrahydrofuran. Complexes 1–3 were characterized by IR and 1H and 31P NMR, and the structure of the clusters was confirmed by single crystal X-ray analysis. In 2 and 3 one of the carbonyls bridges between two ruthenium atoms; otherwise the compounds contain only terminal carbonyls. 相似文献
14.
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
15.
N-等基-N-(2-氰乙基)-二茂铁磺酰胺[C 5H 5FeC 5H 4SO 2N(C 2H 4CN)CH 2C 6H 5]为黄色柱状晶体,属单斜晶系,空间群P2 1/n,晶胞参数为:α=8.750(1),b=12.876(5),c=16.744(2)Å,β=94.75(1)°,V=1880.0Å 3,Z=4,计算密度D calc=1.442g/cm 3。在CAD-4四园衍射仪上,用MoK α射线收集衍射数据,用Patterson函数法和差值Fourior合成求解晶体结构。经以2226个独立衍射点用全矩阵最小二乘修正,最后使偏离因子R=0.0466.分子中S原子、N原子以不等性sp 3杂化与周围原子健合。 相似文献
16.
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
17.
The siloxyanilines o-Me 3SiOC 6H 4NH 2 (1) and p-RMe 2SiOC 6H 4NH 2 (R=H (2); R=Me (3)), and their N-silylated derivatives p-Me 3SiOC 6H 4NHSiMe 3 (4) and p-Me 3SiOC 6H 4N(SiMe 3) 2 (5) have been prepared from ortho- or para-aminophenol and used in the synthesis of imido complexes. Thus, binuclear [{Ti(η 5-C 5H 5)Cl}{μ-NC 6H 4( p-OSiMe 3)}] 2 (6) and mononuclear [TiCl 2{NC 6H 4( p-OSiMe 3)}(py) 3] (7) imido complexes have been obtained from the reaction of 3 and [Ti(η 5-C 5H 5)Cl 3] or [TiCl 2(N tBu)(py) 3], respectively. In contrast, the reaction of 1 with TiCl 4 and tBupy affords the titanocycle [TiCl 2{OC 6H 4( o-NH)---N,O}( tBupy) 2] (8). Compound 5 has also been used to prepare the niobium imide complex [NbCl 3{NC 6H 4( p-OSiMe 3)}(MeCN) 2] (9), by its reaction with NbCl 5 in CH 3CN. These findings have been applied to the synthesis of polynuclear systems. Thus, chlorocarbosilane Si[CH 2CH 2CH 2Si(Me) 2Cl] 4 (CS–Cl) has been functionalized with the ortho- and para-aminophenoxy groups to give 10 and 11, respectively. The use of 11 has allowed the formation of the tetranuclear compound 12. Attempts to synthesize terminal imido titanium complexes from 10 and TiCl 4 in the presence of tBupy and Et 3N, give complex 8 and carbosilane CS–Cl. 相似文献
18.
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
19.
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
20.
The chiral bis-imine (1 R,2 R)-C 6H 10-[ E---N=CH---C 6H 3---3,4-(OMe) 2] 2 1 (LH) reacts with [Pd(OAc) 2] (1:1 molar ratio; OAc=acetate) giving the orthometallated [Pd(OAc)( C6H 2---4,5-(OMe) 2---2-CH= N-(1 R,2 R)-C 6H 10--- N=CH---C 6H 3-3′,4′-(OMe) 2-κ-C,N,N)] 2 (abbreviated as [Pd(OAc)(L-κ-C,N,N)]), through C---H bond activation on only one of the aryl rings and N, N-coordination of the two iminic N atoms. 2 reacts with an excess of LiCl to give [Pd(Cl)(L-κ-C,N,N)] 3. The reaction of 3 with AgClO 4 and neutral or anionic ligands L′ (1:1:1 molar ratio) affords [Pd(L-κ-C,N,N)(L′)](ClO 4) (L′=PPh 3 4a, NCMe 5, pyridine 6, p-nitroaniline 7) or [Pd(I)(L-κ-C,N,N)] 8. Complex 4a reacts with wet CDCl 3 giving [Pd( C6H 2---4,5-(OMe) 2---2-CH= N-(1 R,2 R)---C 6H 10--- NH 2-κ-C,N,N)(PPh 3)](ClO 4) 4b as a result of the hydrolysis of the C=N bond not involved in the orthometallated ring. The molecular structure of 4b·CH 2Cl 2 has been determined by X-ray diffraction methods. Cleavage of the Pd---N bond trans to the C aryl atom can be accomplished by coordination of strongly chelating ligands, such as acetylacetonate (acac) or bis(diphenylphosphino)ethane (dppe), forming [Pd(acac- O, O′)(L-κ-C,N)] 9 and [Pd(L-κ-C,N)(dppe-P,P′)](ClO 4) 12, while classical N, N′-chelating ligands such as 1,10-phenantroline (phen) or 2,2′-bipyridyl (bipy) behave as monodentate N-donor ligands yielding [Pd(L-κ-C,N,N)(κ 1-N-phen)](ClO 4) 10 and [Pd(L-κ-C,N,N)(κ 1-N-bipy)](ClO 4) 11. Treatment of 1 with PtCl 2(DMSO) 2 (1:1 molar ratio) in refluxing 2-methoxyethanol gives Cl 2Pt[( NH 2) 2C 6H 10---N,N′] 13a and [Pt(Cl)( C6H 2---4,5-(OMe) 2---2-CH= N-(1 R,2 R)---C 6H 10--- NH 2-κ-C,N,N)] 13b, while [Pt(Cl)(L-κ-C,N,N)] 14 can be obtained by reaction of [Pt(μ-Cl)(η 3-2-Me---C 3H 4)] 2 with 1 in refluxing CHCl 3. Complexes 2 and 3 catalyzed the arylation of methyl acrylate giving good yields of the corresponding methyl cinnamates and TON up to 847 000. Complex 3 also catalyzes the hydroarylation of 2-norbornene, but with lower yields and without enantioselectivity. 相似文献
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