cholinium benzoate | 71093-48-6
中文名称
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中文别名
——
英文名称
cholinium benzoate
英文别名
choline benzoate;[Ch][Be];2-hydroxyethyl(trimethyl)azanium;benzoate
CAS
71093-48-6
化学式
C5H14NO*C7H5O2
mdl
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分子量
225.288
InChiKey
KQKBQJPEUWKVTG-UHFFFAOYSA-M
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):-0.27
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重原子数:16
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可旋转键数:2
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环数:1.0
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sp3杂化的碳原子比例:0.42
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拓扑面积:60.4
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氢给体数:1
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氢受体数:3
反应信息
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作为反应物:描述:参考文献:名称:异烟肼在胆碱基离子液体中的结晶:理化性质和抗结核活性摘要:异烟肼是一种常用于治疗结核病的药物。其广泛使用的一个主要障碍是,如果储存不当,它会发生水解,导致形成肼,一种有毒的致癌化合物。因此,显然需要进一步研究,以提高异烟肼的稳定性,同时仍保持其治疗效率和溶解度。为此,使用五种胆碱离子液体(IL)来合成异烟肼的改进形式:(2-羟乙基)-三甲基氢氧化铵[ChOH]、(2-羟乙基)-三甲基硫酸氢铵[ChBis]、(2-羟乙基) -三甲基乙酸铵[ChAc]、(2-羟乙基)-三甲基柠檬酸铵[ChCit]和(2-羟乙基)-三甲基苯甲酸铵[ChBenz]。 INH:[ChOH]和INH:[ChCit]形式以粉末形式获得,溶解度低,最低抑制浓度分别为100 μg/mL和12.5 μg/mL。 INH:[ChBenz]、INH:[ChBis] 和 INH:[ChAc] 形式的最小抑制浓度值低于 6.2 µg/mL。在使用 [ChBis] 的过程中,生成了 2-(4-吡啶鎓羰基)-硫酸肼,其在DOI:10.1016/j.molliq.2023.123671
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作为产物:描述:参考文献:名称:Design of environmentally friendly ionic liquid aqueous two-phase systems for the efficient and high activity extraction of proteins摘要:离子液体(ILs)作为常规挥发性有机溶剂的环保替代品,在工业过程中有着广泛的应用。然而,许多离子液体对生物体具有毒性且难以生物降解。在本工作中,设计和合成了一系列环境友好的胆碱类离子液体。研究发现,这些离子液体与热敏、无毒且可生物降解的聚丙二醇400(PPG400)可以形成水相双离子液体体系(ATPSs)。为了理解这些ATPSs的相形成过程及其在蛋白质提取/分离中的可能应用,在25 °C下测量了这些ATPSs的双结曲线和系线,并系统地研究了离子液体阴离子结构、蛋白质性质以及上相和下相浓度差异对一些典型蛋白质分配行为的影响。结果表明,牛血清白蛋白(BSA)、胰蛋白酶、木瓜蛋白酶和溶菌酶可以有效地富集到ATPSs的离子液体富集相中,在优化条件下单步提取效率可高达86.4-99.9%。此外,使用N-苯甲酰-L-精氨酸乙酯作为底物,测定了水和水合离子液体溶液中天然胰蛋白酶的酶活性,经过13个月的储存后活性增加到约127%。此外,PPG400通过简单加热即可回收并在下一次提取过程中重复使用。这避免了在应用聚乙二醇(PEG)+盐和离子液体+盐ATPSs时产生的高盐水量不可持续的问题。DOI:10.1039/c2gc35890e
文献信息
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An integrated high-throughput strategy enables the discovery of multifunctional ionic liquids for sustainable chemical processes作者:Anlian Zhu、Lingjun Li、Chi Zhang、Yutan Shen、Mingjie Tang、Lili Bai、Chunyan Du、Suojiang Zhang、Jianji WangDOI:10.1039/c8gc03119c日期:——high-throughput preparation of ionic liquids and in situ screening of their reaction-promoting performance in 96-well plates. The integrated approach then enables a facile identification of optimal ionic liquids from a 400-ionic liquid candidate pool to act as the solvent, the catalyst and the separating assistant, simultaneously, for carbonyl-azide cycloaddition reactions. Merits of the ionic liquids-based processes
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Biodegradable Naphthenic Acid Ionic Liquids: Synthesis, Characterization, and Quantitative Structure-Biodegradation Relationship作者:Yinghao Yu、Xingmei Lu、Qing Zhou、Kun Dong、Hongwei Yao、Suojiang ZhangDOI:10.1002/chem.200800620日期:2008.12.8restricts large-scale industrial applications of ionic liquids. Herein, ten biodegradable ionic liquids were prepared by a single, one-pot neutralization of choline and surrogate naphthenic acids. The structures of these naphthenic acid ionic liquids (NAILs) were characterized and confirmed by (1)H and (13)C NMR spectroscopy, IR spectroscopy, and elemental analysis, and their physical properties, such as densities已经证实,常用的离子液体不容易生物降解。当最终处置或意外释放时,它们会在环境中积聚,这严重限制了离子液体的大规模工业应用。在此,通过一次,一锅地中和胆碱和替代的环烷酸,制备了十种可生物降解的离子液体。这些环烷酸离子液体(NAIL)的结构已通过(1)H和(13)C NMR光谱,IR光谱和元素分析以及其物理性质(例如密度,粘度,电导率,熔点)进行了表征和确认测定(T(m)),玻璃化转变温度(T(g))和分解开始温度(T(d))。更重要的是,研究表明,这些NAIL在有氧条件下的水生环境中将被快速,完全地生物降解,这使其成为在工业过程中使用的有吸引力的候选物。为了探索参与NAIL生物降解反应的潜在机理并寻求其在环境条件下的生物降解性的预测,选择了四个分子描述子:正辛醇/水分配系数的对数(log P),范德华体积(V( vdW)),最高占据分子轨道的能量(E(HOMO))和最低未占据分子轨道的能量(
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Repurposing cycloaddition of β-carbonyl phosphonate and azide to synthesize triazolyl phosphonates <i>via</i> ionic-liquid-based data-driven screening作者:Anlian Zhu、Dongshuang Fan、Yanbo You、Honglei Wang、Yang Zhao、Jianji Wang、Lingjun LiDOI:10.1039/d2gc02461f日期:——liquids for discovering new reactivity, developing potent synthetic reactions, and even simplifying bioactivity evaluations. Using ILDDS, we repurposed the cycloaddition of β-carbonyl phosphonate and azide to synthesize triazolyl phosphonates that usually produced phosphonate-leaving products under the traditional conditions. And then, the repurposed cycloaddition reaction allows the access of triazolyl膦酸是一类广泛存在于天然产物和人工合成的功能分子中的重要结构单元。Nature 使用 β-羰基膦酸作为通用结构单元来获取结构多样的膦酸衍生物,这为化学家提供了一种仿生方法,但是,它受到化学反应过程中 C-P 键断裂的不利趋势的限制。为了应对这一挑战,我们在此开发了一种基于离子液体的数据驱动筛选 (ILDDS),该方法可以综合利用离子液体的多功能效应来发现新的反应性、开发有效的合成反应,甚至简化生物活性评估。使用 ILDDS,我们重新利用 β-羰基膦酸酯和叠氮化物的环加成来合成三唑基膦酸酯,在传统条件下通常会产生膦酸酯离去产物。然后,重新利用的环加成反应允许在温和条件下使用带有各种取代基的三唑基膦酸酯。此外,一个集成的工作流程结合了模块化和组合合成、简单的纯化和原位生物活性评估可以从头设计并以高通量方式实施,最终导致快速获得膦酸盐化合物以抑制立枯丝核菌的生长。
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Cleaning agent for semiconductor device and method for manufacturing semiconductor device申请人:MITSUBISHI GAS CHEMICAL COMPANY, INC.公开号:EP0662705A2公开(公告)日:1995-07-12There are disclosed a method of manufacturing a semiconductor device by forming a mask with a photoresist on a conductive layer formed on a semiconductor substrate and then forming a wiring structure by dryetching which method comprises a cleaning step of peeling a protecting deposition film formed on side walls of the conductive layer and the photoresist by using a cleaning agent for a semiconductor device comprising an aqueous solution containing a specific quaternary ammonium salt and a fluoro-compound; and a cleaning agent for a semiconductor device which comprises a specific quaternary ammonium salt and a fluoro-compound, and optionally an organic solvent selected from the group consisting of amides, lactones, nitriles, alcohols and esters. The use of the above cleaning agent in the method of manufacturing a semiconductor device can peel out the protecting deposition film with extreme certainty, whereby the surface of the conductive layer is decontaminated to high cleanness and corrosion problem is eliminated.
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Cleaning liquid for producing semiconductor device and process for producing semiconductor device using same申请人:MITSUBISHI GAS CHEMICAL COMPANY, INC.公开号:EP0827188A2公开(公告)日:1998-03-04There is disclosed a cleaning liquid for producing a semiconductor device which comprises (A) fluorine-containing compound; (B) water-soluble or water-miscible organic solvent; and (C) inorganic acid and/or organic acid, optionally, further comprises (D) quaternary ammonium salt or (D') a specific organic carboxylic acid ammonium salt and/or an organic carboxylic acid amine salt; as well as a process for producing a semiconductor device by forming a resist pattern on a substrate equipped on the surface with an insulating film layer or a metallic electroconductive layer, forming a via hole or electric wiring by dry etching, removing the resist pattern by ashing treatment with oxygen plasma; and effecting an cleaning treatment with the above cleaning liquid. The above cleaning liquid and production process can readily remove the deposit polymer formed in the case of dry etching without impairing metallic film and insulating film.
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(R)富马酸托特罗定
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(R)-(+)-7-双(3,5-二叔丁基苯基)膦基7''-[(3-甲基吡啶-2-基甲基)氨基]-2,2'',3,3''-四氢-1,1''-螺双茚满
(R)-(+)-4,7-双(3,5-二-叔丁基苯基)膦基-7“-[(吡啶-2-基甲基)氨基]-2,2”,3,3'-四氢1,1'-螺二茚满
(R)-3-(叔丁基)-4-(2,6-二苯氧基苯基)-2,3-二氢苯并[d][1,3]氧杂磷杂环戊烯
(R)-2-[((二苯基膦基)甲基]吡咯烷
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(5-溴-2-羟基苯基)-4-氯苯甲酮
(5-溴-2-氯苯基)(4-羟基苯基)甲酮
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(2-硝基苯基)磷酸三酰胺
(2,6-二氯苯基)乙酰氯
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龙蒿油
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