Department of Chemistry, University of North Florida, 1, UNF Drive, Jacksonville, Florida 32224, USA.
Org Biomol Chem. 2011 Apr 7;9(7):2518-29. doi: 10.1039/c0ob00872a. Epub 2011 Feb 21.
Metallic triflates M(OTf)(3) (M = Bi, Sc, Yb), immobilized in imidazolium ionic liquids [BMIM][BF(4)], [BMIM][PF(6)] and [BMIM][OTf] are efficient systems for one-pot reactions of propargylic alcohols 1,3-diphenyl-2-propyn-1-ol Ia, 1-methyl-3-phenyl-2-propyn-1-ol Ib, and 2-pentyn-1-ol Ic, with a wide range of arenes bearing activating substituents, under mild conditions. The [BMIM][PF(6)]/B(C(6)F(5))(3) and [BMIM][PF(6)]/TfOH systems were superior in propargylation with Ib and Ic, while reaction of 3-phenyl-2-propyn-1-ol Id with activated aromatics resulted in the formation of diaryl-propanones instead. Propargylation of anisole with Ib under M(OTf)(3) catalysis is highly para selective, but with TfOH or B(C(6)F(5))(3) as catalyst the ortho isomer was also formed. Steric influence of the propargylic moiety on substrate selectivity is reflected in the lack of ortho propargylation for phenol and ethylbenzene by using propargylic alcohol Ia, and notable formation of the ortho isomer employing alcohol Ib. In the later case para selectivity could be increased by running the reaction at r. t. for 10 h. The Bi(OTf)(3)-catalyzed reaction of 1,3-dimethoxybenzene with Ia led to minor formation of dipropargylated derivative, along with the monopropargyl product. Propargylation of the less reactive arenes (mesitylene, ethylbenzene, toluene), using Sc(OTf)(3) as catalyst, led increasingly to the formation of dipropargylic ethers and propargyl ketones, with no ring propargylation product with toluene. Concomitant formation of dipropargylic ether was also observed in Yb(OTf)(3)-catalyzed propargylation of β-naphthol, whereas propargylation of 2-nitro and 4-nitro-aniline led to N-propargylation. The recycling/reuse of the IL was demonstrated in representative cases with no appreciable decrease in the conversions over 3 cycles. It was also shown that recycled IL could be used to propargylate a different aromatic compound. The efficacy of IL/M(OTf)(3) and IL/TfOH systems for cross-breeding two propargylic alcohols or a propargylic alcohol with a non-propargylic alcohol and/or self-coupling, to form a wide variety of functionalized ethers is also demonstrated.
三氟甲磺酸金属盐 M(OTf)(3)(M = Bi、Sc、Yb)负载于离子液体 [BMIM][BF(4)]、[BMIM][PF(6)] 和 [BMIM][OTf] 中,是在温和条件下,各种带有活化取代基的芳基与丙炔醇 1,3-二苯基-2-丙炔-1-醇 Ia、1-甲基-3-苯基-2-丙炔-1-醇 Ib 和 2-戊炔-1-醇 Ic 一锅法反应的有效体系。[BMIM][PF(6)]/B(C(6)F(5))(3) 和 [BMIM][PF(6)]/TfOH 体系在丙炔醇 Ib 和 Ic 的丙炔基化反应中更优越,而 3-苯基-2-丙炔-1-醇 Id 与活化芳烃的反应则生成二芳基-丙-2-酮。在 M(OTf)(3)催化下,Ib 与苯甲醚的丙炔基化反应具有高度的对位选择性,但当使用 TfOH 或 B(C(6)F(5))(3) 作为催化剂时,也形成邻位异构体。丙炔基部分的空间位阻对底物选择性的影响反映在使用丙炔醇 Ia 时,苯酚和乙苯没有邻位丙炔基化,而使用醇 Ib 时则明显形成邻位异构体。在后一种情况下,通过在室温下反应 10 小时可以提高对位选择性。Bi(OTf)(3)催化 1,3-二甲氧基苯与 Ia 的反应导致少量二丙炔基化产物的形成,以及单丙炔基产物。使用 Sc(OTf)(3)作为催化剂时,对间二甲苯、乙苯、甲苯等反应性较低的芳基的丙炔基化反应导致二丙炔基醚和丙炔基酮的形成增加,而与甲苯反应则没有环丙炔基化产物。在 Yb(OTf)(3)催化的 β-萘酚丙炔基化反应中也观察到二丙炔基醚的伴随形成,而 2-硝基和 4-硝基苯胺的丙炔基化导致 N-丙炔基化。在代表性情况下,证明了 IL 的循环/再利用,在 3 个循环中转化率没有明显下降。还表明,回收的 IL 可用于丙炔基化不同的芳香化合物。IL/M(OTf)(3)和 IL/TfOH 体系用于杂交两种丙炔醇或丙炔醇与非丙炔醇和/或自身偶联,以形成各种官能化醚的功效也得到了证明。
