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    首页 分子通 methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate

    methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate | 537003-66-0

    分子结构分类

    有机化合物 - 有机杂环化合物 - 喹啉及其衍生物
    中文名称
    ——
    中文别名
    ——
    英文名称
    methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate
    英文别名
    Methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,6,8-tetrahydroquinoline-3-carboxylate
    methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate化学式
    CAS
    537003-66-0
    化学式
    C21H22N2O3
    mdl
    ——
    分子量
    350.417
    InChiKey
    QTGSKXAXAHQFRI-UHFFFAOYSA-N
    BEILSTEIN
    ——
    EINECS
    ——
    • 物化性质
    • 计算性质
    • ADMET
    • 安全信息
    • SDS
    • 制备方法与用途
    • 上下游信息
    • 反应信息
    • 文献信息
    • 表征谱图
    • 同类化合物
    • 相关功能分类
    • 相关结构分类

    计算性质

    • 辛醇/水分配系数(LogP):
      3
    • 重原子数:
      26
    • 可旋转键数:
      3
    • 环数:
      3.0
    • sp3杂化的碳原子比例:
      0.38
    • 拓扑面积:
      79.2
    • 氢给体数:
      1
    • 氢受体数:
      5

    反应信息

    • 作为产物:
      描述:
      5,5-二甲基-1,3-环己二酮乙酰乙酸甲酯4-氰基苯甲醛 在 ammonium acetate 作用下, 以 neat (no solvent) 为溶剂, 反应 0.08h, 以97%的产率得到methyl 4-(4-cyanophenyl)-2,7,7-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate
      参考文献:
      名称:
      聚(乙烯基吡咯烷鎓)高氯酸盐作为新型有效催化剂,可通过汉茨缩合反应促进聚氢喹啉衍生物的合成
      摘要:
      报道了一种在没有溶剂的情况下使用聚(乙烯基吡咯烷鎓)高氯酸盐{[PVPH] ClO 4 }作为新型改性聚合物催化剂来促进汉茨产物合成的绿色方法。标题催化剂易于使用多种技术制备和表征,包括红外光谱,X射线衍射,热重分析,扫描电子显微镜,pH分析和哈米特酸度函数。这种新颖的合成方法的一些优点是:催化剂易于制备,反应时间短,产物的产率高至优异,后处理步骤简单容易以及催化剂的可重复使用性。
      DOI:
      10.1007/s11164-015-2150-y
    点击查看最新优质反应信息

    文献信息

    • Urea as an Ammonia Surrogate in the Hantzsch’s Synthesis of Polyhydroquinolines / 1,4-dihydropyridines under Green Reaction Conditions
      作者:G. Dhananjaya、Akula Raghunadh、P. Mahesh Kumar、S. Pulla Reddy、V. Narayana Murthy、Venkateswara Rao Anna、Manojit Pal
      DOI:10.2174/1570178617999200713144504
      日期:2021.3
      <p>Synthesis of polyhydroquinolines via Hantzsch’s multicomponent reaction (MCR) involves the use of a hygroscopic and moderately toxic ammonium salt as one of the key reactants. In our effort, we have found urea as an effective ammonia surrogate when the MCR was performed in the presence of sulphonic acid-functionalized Wang resin (Wang-OSO<sub>3</sub>H) as a polymeric and recoverable acidic catalyst under green conditions. Urea is relatively less hygroscopic/toxic than the commonly used ammonium salts used in this MCR. The methodology afforded a range of polyhydroquinolines in good yields. Depending on the nature of reaction conditions employed, the MCR afforded Biginelli product or 1,4-DHPs when the use of 1,3-diketone was omitted.</p> </sec></div> <div class="value-text ch"><p>通过汉奇多组分反应(MCR)合成聚氢喹啉,涉及使用一种吸湿性和中等毒性的铵盐作为关键反应物之一。在我们的努力中,我们发现尿素在存在磺酸基功能化王树脂(Wang-OSO<sub>3</sub>H)作为聚合物和可回收的酸性催化剂的条件下,作为有效的氨替代品。尿素比这种MCR中常用的铵盐相对更不易吸湿/有毒。该工艺提供了一系列高产率的聚氢喹啉。根据所用反应条件的性质,当省略使用1,3-二酮时,MCR会生成Biginelli产物或1,4-DHPs。</p></div> </div> </li> <li class="feature-list-item"> <div class="content-title">Poly(vinylpyrrolidinium) perchlorate as a new and efficient catalyst for the promotion of the synthesis of polyhydroquinoline derivatives via Hantzsch condensation</div> <div class="value"> <div class="value-text"> <span>作者:</span>Masoumeh Abedini、Farhad Shirini、Maryam Mousapour </div> <div class="value-text"> <span>DOI:</span>10.1007/s11164-015-2150-y </div> <div class="value-text"> <span>日期:</span>2016.3 </div> <div class="value-text en">poly(vinylpyrrolidinium) <span style='color:#ff0000'>perchlorate</span> [PVPH]ClO4} as a new modified polymeric catalyst in the absence of solvent is reported. The title catalyst is easily prepared and characterized using a variety of techniques including infrared spectra, X-ray diffraction, thermal gravimetric analysis, scanning electron microscopy, pH analysis, and Hammett acidity function. Some of the advantages of this novel <span style='color:#ff0000'>synthetic</span> method are:</div> <div class="value-text ch">报道了一种在没有溶剂的情况下使用聚(乙烯基吡咯烷鎓)高氯酸盐[PVPH] ClO 4 }作为新型改性聚合物催化剂来促进汉茨产物合成的绿色方法。标题催化剂易于使用多种技术制备和表征,包括红外光谱,X射线衍射,热重分析,扫描电子显微镜,pH分析和哈米特酸度函数。这种新颖的合成方法的一些优点是:催化剂易于制备,反应时间短,产物的产率高至优异,后处理步骤简单容易以及催化剂的可重复使用性。</div> </div> </li> <li class="feature-list-item"> <div class="content-title">Magnetically recyclable magnetite–ceria (Nanocat-Fe-Ce) nanocatalyst – applications in multicomponent reactions under benign conditions</div> <div class="value"> <div class="value-text"> <span>作者:</span>Manoj B. Gawande、Vasco D. B. Bonifácio、Rajender S. Varma、Isabel D. Nogueira、Nenad Bundaleski、C. Amjad A. Ghumman、Orlando M. N. D. Teodoro、Paula S. Branco </div> <div class="value-text"> <span>DOI:</span>10.1039/c3gc40375k </div> <div class="value-text"> <span>日期:</span>—— </div> <div class="value-text en">explored for the <span style='color:#ff0000'>synthesis</span> of dihydropyridines under benign conditions; a <span style='color:#ff0000'>greener</span> protocol is described that provides a simple and efficient method for the <span style='color:#ff0000'>synthesis</span> of functionalized 1,4-dihydropyridines <span style='color:#ff0000'>using</span> a <span style='color:#ff0000'>recyclable</span> nanocatalyst. Notably, 5.22 mol% of the <span style='color:#ff0000'>catalyst</span> is sufficient to catalyze the multicomponent reaction in ethanolic medium at room temperature. Importantly, the <span style='color:#ff0000'>catalyst</span> could be easily</div> <div class="value-text ch">通过简单的浸渍方法成功地制备了一种新型的磁铁矿纳米颗粒负载的二氧化铈催化剂(Nanocat-Fe-Ce),并通过XRD,SIMS,FEG-SEM-EDS和TEM对其进行了表征。通过X射线光电子能谱证实了Nanocat-Fe-Ce的确切性质,并注意到CeO 2纳米粒子负载在磁铁矿上,具有二次离子质谱法的证据。探索了在良性条件下纳米催化剂对二氢吡啶合成的催化活性。描述了更绿色的方案,该方案提供了使用可循环利用的纳米催化剂合成功能化的1,4-二氢吡啶的简单有效的方法。值得注意的是,5.22mol%的催化剂足以在室温下在乙醇介质中催化多组分反应。重要的是,通过使用外部磁体可以容易地将催化剂从反应混合物中分离出来并循环几次而不会损失活性。</div> </div> </li> <li class="feature-list-item"> <div class="content-title">Introduction of a novel nanosized N-sulfonated Brönsted acidic catalyst for the promotion of the synthesis of polyhydroquinoline derivatives via Hantzsch condensation under solvent-free conditions</div> <div class="value"> <div class="value-text"> <span>作者:</span>Omid Goli-Jolodar、Farhad Shirini、Mohadeseh Seddighi </div> <div class="value-text"> <span>DOI:</span>10.1039/c6ra04148e </div> <div class="value-text"> <span>日期:</span>—— </div> <div class="value-text en">After the characterization of this reagent, it was <span style='color:#ff0000'>efficiently</span> used for the promotion of the <span style='color:#ff0000'>one-pot</span> <span style='color:#ff0000'>synthesis</span> of hexahydroquinolines via <span style='color:#ff0000'>one-pot</span> <span style='color:#ff0000'>four-component</span> condensation of aryl aldehydes, 1,3-cyclohexadione <span style='color:#ff0000'>derivatives</span>, β-ketoesters and ammonium <span style='color:#ff0000'>acetate</span> under solvent-free conditions. The procedure gave the products in excellent yields in short <span style='color:#ff0000'>reaction</span> times and good to high yields. Also this catalyst</div> <div class="value-text ch">在这项研究中,4,4'-(1-丁烷1,4-丁二)双(1-磺基-1,4-二氮杂双环[2.2.2]辛烷-1,4-二鎓)四氯化物(NS-C 4(DABCO-使用不同类型的方法,包括FT-IR,1 H NMR,13 C NMR,质量,XRD,TGA,SEM和AFM分析,制备并表征了作为新型纳米级N-磺酸的SO 3 H)2)·4Cl)。该试剂的特征后,将其有效地用于促进一锅合成hexahydroquinolines的经由在无溶剂条件下,一锅四组分缩合芳基醛,1,3-环己二酮衍生物,β-酮酸酯和乙酸铵。该程序在短的反应时间内以优异的产率获得了产物,并且从良好的产率到高的产率。同样,该催化剂可以重复使用几次而不会损失其催化活性。</div> </div> </li> <li class="feature-list-item"> <div class="content-title">Sulfonic acid–functionalized Wang resin (Wang-OSO<sub>3</sub>H) as polymeric acidic catalyst for the ecofriendly multicomponent synthesis of polyhydroquinolines via Hantzsch condensation</div> <div class="value"> <div class="value-text"> <span>作者:</span>A. V. Dhanunjaya Rao、Rajendra Surasani、B. P. Vykunteswararao、T. Bhaskarkumar、B. Srikanth、Nivrutti R. Jogdand、Dipak Kalita、Jaydeep Kumar D. Lilakar、Vidavalur Siddaiah、Paul Douglas Sanasi、Akula Raghunadh </div> <div class="value-text"> <span>DOI:</span>10.1080/00397911.2016.1213850 </div> <div class="value-text"> <span>日期:</span>2016.9.16 </div> <div class="value-text en">efficient and green approach has been developed for the <span style='color:#ff0000'>synthesis</span> of polyhydroquinoline <span style='color:#ff0000'>derivatives</span> <span style='color:#ff0000'>via</span> <span style='color:#ff0000'>Hantzsch</span> condensation <span style='color:#ff0000'>reaction</span> directly from corresponding substituted aromatic and aliphatic aldehydes, β-keto <span style='color:#ff0000'>compounds</span>, active methylene <span style='color:#ff0000'>compounds</span>, and ammonium chloride using recyclable polymer-supported sulfonic acid catalyst under <span style='color:#ff0000'>aqueous</span> conditions. Environmental acceptability, operational simplicity</div> <div class="value-text ch">摘要 开发了一种高效、绿色的方法,通过 Hantzsch 缩合反应直接从相应的取代芳香族和脂肪族醛、β-酮化合物、活性亚甲基化合物和氯化铵合成聚氢喹啉衍生物,使用可回收聚合物负载的磺酸催化剂在水溶液下使适应。环境可接受性、操作简单性、低成本、出色的功能组兼容性和高产量是该协议的重要特征。图形概要</div> </div> </li> </ul> <a href="https://chem.molaid.com/material/detail?source=UserSourcePortal&id=3101a0fy0a63b63655M0&inchikey=QTGSKXAXAHQFRI-UHFFFAOYSA-N" target="_blank" rel="nofollow" class="view-more">查看更多</a> </div> <div class="module" id="tongleihuahewu"> <h3 class="module-title"><i class="iconfont icon-tongleihuahewu"></i>同类化合物</h3> <div class="compounds-list"> <a target="_blank" href="https://www.molaid.com/MS_35" class="compound-item" title="(S)-4-(叔丁基)-2-(喹啉-2-基)-4,5-二氢噁唑">(S)-4-(叔丁基)-2-(喹啉-2-基)-4,5-二氢噁唑</a> <a target="_blank" href="https://www.molaid.com/MS_48" class="compound-item" title="(SP-4-1)-二氯双(喹啉)-钯">(SP-4-1)-二氯双(喹啉)-钯</a> <a target="_blank" href="https://www.molaid.com/MS_87" class="compound-item" 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class="compound-item" title="阿莫吡喹N-氧化物">阿莫吡喹N-氧化物</a> <a target="_blank" href="https://www.molaid.com/MS_2811" class="compound-item" title="阿美帕利">阿美帕利</a> <a target="_blank" href="https://www.molaid.com/MS_2868" class="compound-item" title="阿米诺喹">阿米诺喹</a> <a target="_blank" href="https://www.molaid.com/MS_2908" class="compound-item" title="阿立哌唑溴代杂质">阿立哌唑溴代杂质</a> <a target="_blank" href="https://www.molaid.com/MS_2910" class="compound-item" title="阿立哌唑杂质38">阿立哌唑杂质38</a> <a target="_blank" href="https://www.molaid.com/MS_2911" class="compound-item" title="阿立哌唑杂质1750">阿立哌唑杂质1750</a> <a target="_blank" href="https://www.molaid.com/MS_2912" class="compound-item" title="阿立哌唑杂质13">阿立哌唑杂质13</a> <a target="_blank" href="https://www.molaid.com/MS_2913" class="compound-item" title="阿立哌唑杂质">阿立哌唑杂质</a> <a target="_blank" href="https://www.molaid.com/MS_3268" class="compound-item" title="阿尔马尔">阿尔马尔</a> <a target="_blank" href="https://www.molaid.com/MS_3383" class="compound-item" title="阿加曲班杂质43">阿加曲班杂质43</a> <a target="_blank" href="https://www.molaid.com/MS_3385" class="compound-item" title="阿加曲班杂质13">阿加曲班杂质13</a> <a target="_blank" href="https://www.molaid.com/MS_3405" class="compound-item" title="阿克罗宁">阿克罗宁</a> <a target="_blank" href="https://www.molaid.com/MS_4302" class="compound-item" title="铽(3+)十氧化五硼镁">铽(3+)十氧化五硼镁</a> <a target="_blank" href="https://www.molaid.com/MS_4360" class="compound-item" title="银(1+)1-乙基-6-氟-4-氧代-7-(1-哌嗪基)-1,4-二氢-3-喹啉羧酸酯">银(1+)1-乙基-6-氟-4-氧代-7-(1-哌嗪基)-1,4-二氢-3-喹啉羧酸酯</a> </div> </div> <div class="module" id="xiangguanjiegoufenlei"> <h3 class="module-title"><i class="iconfont icon-xiangguanjiegoufenlei"></i>相关结构分类</h3> <div class="compounds-list"> <a href="https://www.molaid.com/fenzi/10" class="compound-item" title="有机杂环化合物">有机杂环化合物</a> <a href="https://www.molaid.com/fenzi/11" class="compound-item" title="苯类化合物">苯类化合物</a> <a href="https://www.molaid.com/fenzi/12" class="compound-item" title="木脂素、新木脂素和相关化合物">木脂素、新木脂素和相关化合物</a> <a href="https://www.molaid.com/fenzi/13" class="compound-item" title="苯丙烷和聚酮">苯丙烷和聚酮</a> <a href="https://www.molaid.com/fenzi/14" class="compound-item" title="脂质和类脂质分子">脂质和类脂质分子</a> <a href="https://www.molaid.com/fenzi/15" class="compound-item" title="有机酸及其衍生物">有机酸及其衍生物</a> <a href="https://www.molaid.com/fenzi/16" class="compound-item" title="有机氧化合物">有机氧化合物</a> <a href="https://www.molaid.com/fenzi/17" class="compound-item" title="生物碱及其衍生物">生物碱及其衍生物</a> <a href="https://www.molaid.com/fenzi/18" class="compound-item" title="有机硫化合物">有机硫化合物</a> <a href="https://www.molaid.com/fenzi/19" class="compound-item" title="核苷、核苷酸和类似物">核苷、核苷酸和类似物</a> <a href="https://www.molaid.com/fenzi/20" class="compound-item" title="碳氢化合物衍生物">碳氢化合物衍生物</a> <a href="https://www.molaid.com/fenzi/21" class="compound-item" title="有机氮化合物">有机氮化合物</a> <a href="https://www.molaid.com/fenzi/22" class="compound-item" title="碳氢化合物">碳氢化合物</a> <a href="https://www.molaid.com/fenzi/23" class="compound-item" title="有机卤素化合物">有机卤素化合物</a> <a href="https://www.molaid.com/fenzi/24" class="compound-item" title="有机聚合物">有机聚合物</a> <a href="https://www.molaid.com/fenzi/25" class="compound-item" title="有机金属化合物">有机金属化合物</a> <a href="https://www.molaid.com/fenzi/26" class="compound-item" title="乙炔化物 ">乙炔化物 </a> <a href="https://www.molaid.com/fenzi/27" class="compound-item" title="有机磷化合物">有机磷化合物</a> <a href="https://www.molaid.com/fenzi/28" class="compound-item" title="叠烯">叠烯</a> <a href="https://www.molaid.com/fenzi/29" class="compound-item" title="有机1,3-偶极化合物">有机1,3-偶极化合物</a> <a href="https://www.molaid.com/fenzi/30" class="compound-item" title="碳化物">碳化物</a> <a href="https://www.molaid.com/fenzi/31" class="compound-item" title="有机盐">有机盐</a> <a href="https://www.molaid.com/fenzi/32" class="compound-item" title="有机阳离子">有机阳离子</a> <a href="https://www.molaid.com/fenzi/33" class="compound-item" title="卡宾">卡宾</a> <a href="https://www.molaid.com/fenzi/34" class="compound-item" title="有机阴离子">有机阴离子</a> </div> </div> </div> <div class="right"> <div class="module"> <link rel="stylesheet" href="https://www.molaid.com/assets/css/common/hot-molecular.css?v=202504271"> <div class="component-card hot-molecular-card" style="--color: #FF4539;"> <div class="title"> <h3 class="title-name">热门分子</h3> </div> <div class="card-content"> <ul class="list"> <li class="item item-special" data-sort="TOP"> <div class="item-img"> <img src="data:image/svg+xml;base64,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" 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