3-(4-chlorophenyl)benzo[d]isothiazole 1,1-dioxide | 38938-52-2
中文名称
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中文别名
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英文名称
3-(4-chlorophenyl)benzo[d]isothiazole 1,1-dioxide
英文别名
3-(4-Chlorophenyl)-1,2-benzothiazole 1,1-dioxide
![3-(4-chlorophenyl)benzo[d]isothiazole 1,1-dioxide化学式](data:image/svg+xml;base64,<?xml version="1.0" encoding="UTF-8"?>
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CAS
38938-52-2
化学式
C13H8ClNO2S
mdl
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分子量
277.731
InChiKey
YBIAJXQVLOGYSU-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
物化性质
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熔点:212-213.5 °C(Solv: ethanol (64-17-5); chloroform (67-66-3))
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沸点:460.7±47.0 °C(Predicted)
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密度:1.45±0.1 g/cm3(Predicted)
计算性质
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辛醇/水分配系数(LogP):3.3
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重原子数:18
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可旋转键数:1
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环数:3.0
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sp3杂化的碳原子比例:0.0
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拓扑面积:54.9
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氢给体数:0
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氢受体数:3
上下游信息
反应信息
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作为反应物:描述:3-(4-chlorophenyl)benzo[d]isothiazole 1,1-dioxide 在 三(五氟苯基)硼烷 、 甲基苯基硅烷 作用下, 以 甲苯 为溶剂, 反应 24.0h, 以94%的产率得到3-(4-chlorophenyl)-2,3-dihydrobenzo[d]isothiazole 1,1-dioxide参考文献:名称:B(C6F5)3催化的环状N-磺酰基酮亚胺还原摘要:开发了一种无金属的方法,在温和的条件下,使用市售的甲基苯基硅烷作为还原剂,还原由B(C 6 F 5)3催化的环状N-磺酰基酮亚胺。这种还原方法是有效的,不仅可以提供预期的环状N-磺酰胺类化合物,而且产率很高,而且显示出良好的官能团耐受性。DOI:10.1002/ejoc.201900706
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作为产物:描述:3-(4-chlorophenyl)-2,3-dihydrobenzo[d]isothiazole 1,1-dioxide 在 2,6-二甲基吡啶 、 N-羟基邻苯二甲酰亚胺 、 tetrabutylammonium tetrafluoroborate 作用下, 以 乙腈 为溶剂, 以71 %的产率得到3-(4-chlorophenyl)benzo[d]isothiazole 1,1-dioxide参考文献:名称:光电化学电池中 N-杂环的无受体脱氢摘要:本文描述了在室温下模拟太阳光照射下采用光电化学(PEC)方法进行N-杂环无受体脱氢过程。一系列N-杂环化合物,包括DHPM、二氢喹唑啉-4(1H ) -酮、四氢异喹啉和环状磺酰胺,在PEC中被有效脱氢成相应的产物(产率高达97%),并伴随同时析氢电池包括介孔BiVO 4光电阳极和Pt电极。DOI:10.1021/acscatal.3c03988
文献信息
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Iridium(III)-Catalyzed Selective and Mild C-H Amidation of Cyclic <i>N</i> -Sulfonyl Ketimines with Organic Azides作者:Manikantha Maraswami、Gang Chen、Teck-Peng LohDOI:10.1002/adsc.201700785日期:2018.2.1A general protocol for iridium catalyzed direct C−H amidation of cyclic N-sulfonyl ketimines using sulfonyl, acyl and aryl azides as nitrogen source is reported herein. The reaction takes place at room temperature with acyl and aryl azides, while an elevated temperature needed with sulfonyl azides to furnish aminated sultams in excellent yields with complete chemo and regioselectivity, thus providing本文报道了使用磺酰基,酰基和芳基叠氮化物作为氮源的铱催化环状N-磺酰基酮亚胺直接CH酰胺化的一般方案。该反应在室温下与酰基和芳基叠氮化物一起进行,而磺酰叠氮化物需要升高的温度以优异的收率提供胺化的磺胺类化合物,具有完全的化学和区域选择性,因此为氨基磺胺类化合物的合成提供了稳健且对环境有益的方法。
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Cobalt‐Catalyzed Transfer Hydrogenation of α‐Ketoesters and <i>N</i> ‐Cyclicsulfonylimides Using H <sub>2</sub> O as Hydrogen Source作者:Yang Gao、Xuexin Zhang、Ronibala Devi Laishram、Jingchao Chen、Kangkui Li、Keyang Zhang、Guangzhi Zeng、Baomin FanDOI:10.1002/adsc.201900636日期:2019.9.3A Co‐catalyzed effective transfer hydrogenation of various α‐ketoesters and N‐cyclicsulfonylimides by safe and environmentally benign H2O as hydrogen source is described. The reaction used easily available and easy to handle zinc metal as a reductant. Interestingly, the catalytic system does not require ligand for reduction of N‐cyclicsulfonylimides.描述了一种以安全和环境友好的H 2 O作为氢源对各种α-酮酸酯和N-环磺酰亚胺的共催化有效转移加氢方法。该反应使用容易获得并且易于处理锌金属作为还原剂。有趣的是,催化体系不需要用于还原N-环磺酰亚胺的配体。
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Pd<sup>II</sup> -Catalyzed Spiroannulation of Cyclic <i>N</i> -Sulfonyl Ketimines with Aryl Iodides through C-H Bond Activation作者:K. Nagarjuna Reddy、M. V. Krishna Rao、B. Sridhar、B. V. Subba ReddyDOI:10.1002/ejoc.201700569日期:2017.8.2A new strategy has been developed for the first time for the synthesis of spirofluorenyl benzosultams through the annulation of aryl iodides with cyclic N-sulfonyl ketimines. This method involves a readily available Pd(II) catalyst for the activation of aryl C-H bonds to facilitate the annulation process. In contrast, Pd is relatively cheaper than other transition metal catalysts such as Ir and Rh首次开发了一种通过芳基碘与环状 N-磺酰基酮亚胺环化合成螺芴基苯并舒坦的新策略。该方法涉及一种易于获得的 Pd(II) 催化剂,用于活化芳基 CH 键以促进环化过程。相比之下,Pd 比其他过渡金属催化剂(如用于 CH 活化的 Ir 和 Rh)相对便宜。这种方法导致在一步过程中合成生物相关的螺苯磺胺。
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Rhodium-Catalyzed Direct C-H Vinylation of Arenes To Access Styrenes with Vinyl Acetate as a Vinyl Source作者:Shu-Tao Mei、Kun Jiang、Nan-Jin Wang、Li Shuai、Yi Yuan、Ye WeiDOI:10.1002/ejoc.201500945日期:2015.10RhIII-catalyzed aryl C–H vinylation for the preparation of styrenes by using vinyl acetate, a commercially available and inexpensive compound, as the vinyl source was successfully realized. This method enables various aromatics including N-sulfonyl ketimines, pyridines, azoles, and amides to be vinylated in moderate to good yields.RhIII 催化芳基 C-H 乙烯基化,以醋酸乙烯酯(一种市售且廉价的化合物)作为乙烯基源制备苯乙烯。该方法能够以中等至良好的收率对包括 N-磺酰基酮亚胺、吡啶、唑类和酰胺在内的各种芳烃进行乙烯基化。
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Spirocyclic Sultam and Heterobiaryl Synthesis through Rh-Catalyzed Cross-Dehydrogenative Coupling of <i>N</i>-Sulfonyl Ketimines and Thiophenes or Furans作者:Shu-Tao Mei、Hong-Wen Liang、Bin Teng、Nan-Jin Wang、Li Shuai、Yi Yuan、Ying-Chun Chen、Ye WeiDOI:10.1021/acs.orglett.6b00197日期:2016.3.4A useful approach is developed for the synthesis of various structurally interesting spirocyclic sultams and heterobiaryls using a cross-dehydrogenative coupling strategy that features high atom and step economy. This method employs [Cp*RhCl2]2 as a catalyst and N-sulfonylimine, a weak coordinating group, as an efficient directing group to assist C–H activation. A number of the coupled products were开发了一种有用的方法,该方法使用具有高原子和阶梯经济性的交叉脱氢偶联策略来合成各种结构上令人感兴趣的螺环磺酰胺和杂二芳基。该方法采用[Cp * RhCl 2 ] 2作为催化剂,使用弱配位基团N-磺酰亚胺作为辅助CH活化的有效导向基团。通过进一步的合成转化,许多偶联产物被转化为感兴趣的分子。
同类化合物
(1Z)-1-(3-乙基-5-羟基-2(3H)-苯并噻唑基)-2-丙酮
齐拉西酮砜
阳离子蓝NBLH
阳离子荧光黄4GL
锂2-(4-氨基苯基)-5-甲基-1,3-苯并噻唑-7-磺酸酯
铜酸盐(4-),[2-[2-[[2-[3-[[4-氯-6-[乙基[4-[[2-(硫代氧代)乙基]磺酰]苯基]氨基]-1,3,5-三嗪-2-基]氨基]-2-(羟基-kO)-5-硫代苯基]二氮烯基-kN2]苯基甲基]二氮烯基-kN1]-4-硫代苯酸根(6-)-kO]-,(1:4)氢,(SP-4-3)-
铜羟基氟化物
钾2-(4-氨基苯基)-5-甲基-1,3-苯并噻唑-7-磺酸酯
钠3-(2-{(Z)-[3-(3-磺酸丙基)-1,3-苯并噻唑-2(3H)-亚基]甲基}[1]苯并噻吩并[2,3-d][1,3]噻唑-3-鎓-3-基)-1-丙烷磺酸酯
邻氯苯骈噻唑酮
西贝奈迪
螺[3H-1,3-苯并噻唑-2,1'-环戊烷]
螺[3H-1,3-苯并噻唑-2,1'-环己烷]
葡萄属英A
草酸;N-[1-[4-(2-苯基乙基)哌嗪-1-基]丙-2-基]-2-丙-2-基氧基-1,3-苯并噻唑-6-胺
苯酰胺,N-2-苯并噻唑基-4-(苯基甲氧基)-
苯酚,3-[[2-(三苯代甲基)-2H-四唑-5-基]甲基]-
苯胺,N-(3-苯基-2(3H)-苯并噻唑亚基)-
苯碳杂氧杂脒,N-1,2-苯并异噻唑-3-基-
苯甲基2-甲基哌啶-1,2-二羧酸酯
苯并噻唑正离子,2-[3-(1,3-二氢-1,3,3-三甲基-2H-吲哚-2-亚基)-1-丙烯-1-基]-3-乙基-,碘化(1:1)
苯并噻唑正离子,2-[(2-乙氧基-2-羰基乙基)硫代]-3-甲基-,溴化
苯并噻唑啉
苯并噻唑-d4
苯并噻唑-6-腈
苯并噻唑-5-羧酸
苯并噻唑-5-硼酸频哪醇酯
苯并噻唑-4-醛
苯并噻唑-4-乙酸
苯并噻唑-2-磺酸钠
苯并噻唑-2-磺酸
苯并噻唑-2-磺酰氟
苯并噻唑-2-甲醛
苯并噻唑-2-甲酸
苯并噻唑-2-甲基甲胺
苯并噻唑-2-基磺酰氯
苯并噻唑-2-基叠氮化物
苯并噻唑-2-基-邻甲苯-胺
苯并噻唑-2-基-己基-胺
苯并噻唑-2-基-(4-氯-苯基)-胺
苯并噻唑-2-基-(4-氟-苯基)-胺
苯并噻唑-2-基-(4-乙氧基-苯基)-胺
苯并噻唑-2-基-(2-甲氧基-苯基)-胺
苯并噻唑-2-基-(2,6-二甲基-苯基)-胺
苯并噻唑-2-基(对甲苯基)甲醇
苯并噻唑-2-乙酸甲酯
苯并噻唑-2-乙腈
苯并噻唑-2(3H)-酮N2-[1-(吡啶-4-基)乙亚基]腙
苯并噻唑-2 - 丙基
苯并噻唑,6-(3-乙基-2-三氮烯基)-2-甲基-(8CI)
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