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从易于制备的非手性烯丙醇化合物出发,以经典的的Sharpless不对称环氧化为关键反应构建烯丙仲醇手性中心,共经10步线性步骤以28.6%的总收率首次实现了绣线菊碱C、D全合成路线中BCD三环中间体(-)-4的不对称合成,该合成路线中涉及3个新化合物,其结构经1H NMR, 13C NMR和HR-MS(ESI)表征。 相似文献
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手性螺-环丙烷双内酯化合物的合成与结构 总被引:3,自引:0,他引:3
本文进一步研究了5-(l-孟氧基)-3-溴-2(5H)-呋喃酮(1)与氧的亲核试剂,如二苯甲醇、苯甲醇、α-甲基苯甲醇、薄荷醇、冰片醇发生新颖的串联不对称双Michael加成/分子内亲核取代反应,合成了一般方法难以合成的含有多个手性中心的螺[1-溴-4-l-孟氧基-5-氧杂-6-氧代双环[3.1.0]己烷-2,3'-(4'-亲核基-5'-孟氧基丁内酯)](4a-4e)。通过元素分析,IR,UV,^1HNMR,^1^3CNMR,MS,[α]~D^2^0波谱分析数据以及X四圆衍射确定了4a-4e的化学结构和绝对构型。 相似文献
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A method of comparing predicted and experimental chemical shifts was used to confirm or refute postulated structures. 1H NMR spectra returned all true positives with a false positive rate of 4%. When an analogous procedure was adopted for 13C NMR spectra, the false positive rate dropped to 1%, whereas the more practical HSQC data yielded a false positive rate of 2%. If the HSQC results were combined with 1H results, a false positive rate of 1% resulted, 4 times more accurate than 1H alone. 相似文献
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The reaction of generation 2 and generation 4 poly(amidoamine) (PAMAM) dendrimers with K2PtCl2 was studied by several NMR methods. The time dependency of the Pt(II) complexation was followed with 195Pt NMR for both dendrimers and the equilibrium product was further characterized with (1)H NMR, and indirectly detected 13C NMR, in the case of the generation 2 dendrimer. After 2 days, a black precipitate of Pt(0) was observed, half the original 195Pt signal was lost, and approximately 20% of the initial Pt(II) was coordinated to the tertiary and secondary nitrogens of the generation 2 dendrimer. The uptake of Pt(II) by the generation 4 dendrimer was much slower, consistent with the steric crowding of the surface groups on the generation 4 dendrimer compared to the more open generation 2. After 10 days, 80% of the Pt(II) was deep within the generation 4 dendrimer; the remaining 20% was unreacted or bound near the surface nitrogens of a single dendrimer. The location and time course of the platinum ion uptake by the dendrimers provides valuable insight into the formation of Pt(0) nanoparticles made in the presence of dendrimers as stabilizers, visualized by atomic force microscopy. 相似文献
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在有机合成中, 异唑是制备一些稠杂环及某些药物和天然产物[1]的前体. 取代异唑一般是由腈的氧化物[2]经1,3-偶极环加成反应制备的. 近年来, 一些新的合成方法也有报道[3~7]. 本文报道由异唑啉-N-氧化物(硝酮)制备4-取代苯基异唑的一种新的方法. 在无水DMF中加热回流热解, 可以方便地制得异唑衍生物. 反应式如下: 相似文献