2,3-diphenyl-8,9-dihydro-7H-benzo[de]quinoline | 1198575-55-1
中文名称
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中文别名
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英文名称
2,3-diphenyl-8,9-dihydro-7H-benzo[de]quinoline
英文别名
——
![2,3-diphenyl-8,9-dihydro-7H-benzo[de]quinoline化学式](data:image/svg+xml;base64,<?xml version="1.0" encoding="UTF-8"?>
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CAS
1198575-55-1
化学式
C24H19N
mdl
——
分子量
321.422
InChiKey
KZFNRHGMGKYLQZ-UHFFFAOYSA-N
BEILSTEIN
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EINECS
——
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):6.1
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重原子数:25
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可旋转键数:2
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环数:5.0
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sp3杂化的碳原子比例:0.12
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拓扑面积:12.9
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氢给体数:0
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氢受体数:1
反应信息
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作为产物:描述:1,2,3,4-四氢-1-萘胺 在 tris(acetonitrile)(η5-pentamethylcyclopentadienyl)rhodium(III) hexafluoroantimonate 、 三氯异氰尿酸 、 sodium acetate 作用下, 以 乙醇 、 二氯甲烷 为溶剂, 反应 13.0h, 生成 2,3-diphenyl-8,9-dihydro-7H-benzo[de]quinoline参考文献:名称:Rh(III)催化的N-氯代亚胺的N-Cl键作为内部氧化剂合成异喹啉摘要:报道了Rh(III)催化的N-氯亚胺与炔烃的偶联,用于有效合成异喹啉。这表示在第一次使用的N-Cl键的Ñ -chloroimines作为用于构建异喹啉骨架的内部氧化剂。该合成具有原子和步骤经济性,绿色溶剂(EtOH),温和的反应条件和广泛的底物范围。2020Elsevier Ltd.保留所有权利DOI:10.1016/j.tetlet.2020.151771
文献信息
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Rh-Catalyzed Sequential Oxidative C–H and N–N Bond Activation: Conversion of Azines into Isoquinolines with Air at Room Temperature作者:Wenjia Han、Guoying Zhang、Guangxing Li、Hanmin HuangDOI:10.1021/ol501483k日期:2014.7.3A rhodium-catalyzed sequential oxidative C–H annulation reaction between ketazines and internal alkynes has been developed via C–H and N–N bond activation with air as an external oxidant, which led to an efficient approach toward isoquinolines with high atom efficiency at rt. Utilizing the distinctive reactivity of this catalysis, both N-atoms of the azines could be efficiently incorporated to the通过空气中作为外部氧化剂的C–H和N–N键活化,已经开发出了氯酮嗪和内部炔烃之间的铑催化的连续C–H环氧化反应,这导致了一种高效的方法来制备在室温下具有高原子效率的异喹啉。利用这种催化的独特反应性,可以在非常稳健和温和的反应条件下,将嗪的两个N原子有效地结合到所需的异喹啉中。
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<i>N</i>-Tosylhydrazone directed annulation <i>via</i> C–H/N–N bond activation in Ru(<scp>ii</scp>)/PEG-400 as homogeneous recyclable catalytic system: a green synthesis of isoquinolines作者:Dewal S. Deshmukh、Bhalchandra M. BhanageDOI:10.1039/c8ob01082j日期:——of isoquinolines using Ru(II)/PEG-400 as a homogeneous recyclable catalytic system has been demonstrated. N-Tosylhydrazone, a rarely explored directing group, has been successfully employed for an annulation type of reaction with alkynes via C–H/N–N activation. A short reaction time with a simple extraction procedure, a wide substrate scope with high yields of products, easily prepared substrates, biodegradable已经证明了使用Ru(II)/ PEG-400作为均相可循环催化体系合成异喹啉的绿色可持续方法。N-甲苯磺酰,是一个很少探索的指导基团,已成功地用于通过C–H / N–N活化与炔烃形成环型反应。反应时间短,萃取步骤简单,底物范围广,产品收率高,易于制备的底物,可生物降解的溶剂以及可扩展至克级的可扩展性,可提高拟议方案的效率和可持续性。此外,昂贵的基于钌的均相催化体系可重复使用多达四个连续循环,而不会损失其活性。
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Rhodium(III)-Catalyzed Synthesis of Isoquinolines from Aryl Ketone<i>O</i>-Acyloxime Derivatives and Internal Alkynes作者:Pei Chui Too、Yi-Feng Wang、Shunsuke ChibaDOI:10.1021/ol102504b日期:2010.12.17isoquinolines from aryl ketone O-acyloxime derivatives and internal alkynes has been developed using [Cp*RhCl2]2−NaOAc as the potential catalyst system. The present transformation is carried out by a redox-neutral sequence of C−H vinylation via ortho-rhodation and C−N bond formation of the putative vinyl rhodium intermediate on the oxime nitrogen, where the N−O bond of oxime derivatives could work as an internal利用[Cp * RhCl 2 ] 2 -NaOAc作为潜在的催化剂体系,开发了一种由芳基酮O-酰基肟衍生物和内部炔烃合成异喹啉的方法。目前的转化是通过肟化氮的氧化还原-中性序列,通过肟基氮上的假定铑乙烯基中间体在邻位上的邻位R-rhodation和C-N键形成的,其中肟衍生物的N-O键可以用作内部氧化剂以维持催化循环。
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Cobalt(III)-Catalyzed Dehydrative [4+2] Annulation of Oxime with Alkyne by CH and NOH Activation作者:Malay Sen、Deepti Kalsi、Basker SundararajuDOI:10.1002/chem.201503643日期:2015.10.26Efficient, scalable cobalt‐catalyzed redox‐neutral [4+2] annulation of readily available oximes and alkyne is reported. The developed synthetic methodology is widely applicable and tolerates various functional groups including heterocycles. A stable Cp*CoIII neutral complex is employed as the catalyst for this redox‐neutral [4+2] annulation reaction, which progresses smoothly by way of a reversible据报道,高效,可扩展的钴催化的氧化还原中性[4 + 2]环化易于获得的肟和炔烃。所开发的合成方法学广泛适用,并能耐受包括杂环在内的各种官能团。稳定的Cp * Co III中性络合物用作该氧化还原-中性[4 + 2]环化反应的催化剂,该反应通过可逆的环金属化反应顺利进行,而无需任何外部氧化剂,仅产生水作为副产物。
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Easy Access to 1-Amino and 1-Carbon Substituted Isoquinolines <i>via</i> Cobalt-Catalyzed CH/NO Bond Activation作者:Krishnamoorthy Muralirajan、Ramajayam Kuppusamy、Sekar Prakash、Chien-Hong ChengDOI:10.1002/adsc.201501056日期:2016.3.3A green atom‐economical method for the synthesis of highly functionalized 1‐amino and 1‐carbon substituted isoquinolines from the reaction of N′‐hydroxybenzimidamides and aryl ketoximes, respectively, with alkynes via pentamethylcyclopentadienylcobalt(III)‐catalyzed CH/NO bond activation is described. The external oxidant‐free annulation reaction uses the =NOH moiety in N′‐hydroxybenzimidamides or用于从反应高度官能化的1-氨基和1-碳取代的异喹啉的合成绿色原子的经济的方法N'- hydroxybenzimidamides和芳基酮肟,分别与炔烃经由pentamethylcyclopentadienylcobalt(III)催化Ç H /Ñ 描述了O键活化。外部无氧化剂环化反应在N'-羟基苯甲酰胺或N中使用= NOH部分-芳族酮肟为导向基团和内部氧化剂。该第一行过渡金属催化的环化反应可作为异喹啉合成的有效替代方法,因为水是唯一的副产物,且贵金属例如铑(III),铱(III),钯(II)和钌是贵金属(II)不是必需的。反应的进行通过Ç ħ活化,炔插入,还原消除,和N Ò活化。
同类化合物
(S)-4-(叔丁基)-2-(喹啉-2-基)-4,5-二氢噁唑
(SP-4-1)-二氯双(喹啉)-钯
(E)-2-氰基-3-[5-(2,5-二氯苯基)呋喃-2-基]-N-喹啉-8-基丙-2-烯酰胺
(8α,9S)-(+)-9-氨基-七氢呋喃-6''-醇,值90%
(6,7-二甲氧基-4-(3,4,5-三甲氧基苯基)喹啉)
(1-羟基-5-硝基-8-氧代-8,8-dihydroquinolinium)
黄尿酸 8-甲基醚
麻保沙星EP杂质D
麻保沙星EP杂质B
麻保沙星EP杂质A
麦角腈甲磺酸盐
麦角腈
麦角灵
麦皮星酮
麦特氧特
高铁试剂
高氯酸3-苯基[1,3]噻唑并[3,2-f]5-氮杂菲-4-正离子
马波沙星
马来酸茚达特罗
马来酸维吖啶
马来酸来那替尼
马来酸四甲基铵
香草木宁碱
颜料红R-122
颜料红210
颜料红
顺式-苯并(f)喹啉-7,8-二醇-9,10-环氧化物
顺式-(alphaR)-N-(4-氯苯基)-4-(6-氟-4-喹啉基)-alpha-甲基环己烷乙酰胺
非那沙星
非那沙星
青花椒碱
青色素863
雷西莫特
隐花青
阿莫地喹-d10
阿莫地喹
阿莫吡喹N-氧化物
阿美帕利
阿米诺喹
阿立哌唑溴代杂质
阿立哌唑杂质38
阿立哌唑杂质1750
阿立哌唑杂质13
阿立哌唑杂质
阿尔马尔
阿加曲班杂质43
阿加曲班杂质13
阿克罗宁
铽(3+)十氧化五硼镁
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
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