(S)-(-)-4-(二苯基甲基)-2-噁唑啉 | 312624-01-4
中文名称
(S)-(-)-4-(二苯基甲基)-2-噁唑啉
中文别名
(S)-(-)-4-(联苯基甲基)-2-唑烷酮
英文名称
(S)-(-)-4-diphenylmethyl-2-oxazolidinone
英文别名
(S)-4-Benzhydryloxazolidin-2-one;(4S)-4-benzhydryl-1,3-oxazolidin-2-one
CAS
312624-01-4
化学式
C16H15NO2
mdl
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分子量
253.301
InChiKey
QEOCTJMBYZNEJH-CQSZACIVSA-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:144-147 °C(lit.)
计算性质
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辛醇/水分配系数(LogP):3.2
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重原子数:19
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可旋转键数:3
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环数:3.0
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sp3杂化的碳原子比例:0.19
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拓扑面积:38.3
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氢给体数:1
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氢受体数:2
安全信息
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危险品标志:Xi
上下游信息
反应信息
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作为反应物:描述:(S)-(-)-4-(二苯基甲基)-2-噁唑啉 在 O-对硝基苯甲酰基羟胺 、 potassium hydride 、 对甲苯磺酸 作用下, 以 1,4-二氧六环 、 甲苯 为溶剂, 生成 (S)-3-(propylidene)amino-4-diphenylmethyl-2-oxazolidinone参考文献:名称:自由基加成合成不对称胺的方法:手性N-酰基hydr的设计,实施和比较摘要:具有无环立体控制的C N键分子间自由基加成作为手性胺的温和,非碱性碳-碳键构建方法提供了极好的潜力。在此,公开了作为不对称胺合成方法的向手性N-酰基hydr的第一自由基加成的完整细节。新型N-酰基hydr被设计为具有路易斯酸活化,构象迁移率限制和前体的商业可获得性的手性C N基团受体。用O-(间甲磺酰基)羟胺或O-(对硝基苯甲酰基)羟胺胺化4-烷基-2-恶唑烷酮,得到N该缩合与醛,得到-aminooxazolidinones Ñ -acylhydrazones 3 - 8。开发了三种合成方法,在路易斯酸促进的C N键分子间自由基加成中实施这些N-酰基hydr 。首先,在ZnCl 2存在下,在氢化锡自由基链条件下,将各种仲和叔烷基碘加到丙醛和苯甲醛(3和7)中,得到N-酰基肼加合物,其非对映体比率为93:7至99:1。一系列N的自由基加成在恶唑烷酮上具有不同取代基的β-酰基hydr表明,与芳DOI:10.1021/jo050756m
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作为产物:描述:4-(diphenylmethyl)-2-oxazolidinone 在 N1,N3,N5-tris((1R,2R)-2-amino-1,2-diphenylethyl)benzene-1,3,5-tricarboxamide supported on silica 作用下, 以 正己烷 、 异丙醇 、 三氟乙酸 为溶剂, 生成 (R)-(+)-4-(二苯基甲基)-2-恶唑烷酮 、 (S)-(-)-4-(二苯基甲基)-2-噁唑啉参考文献:名称:N-3,5-二硝基苯甲酰基和C3对称非对映手性固定相的合成及应用摘要:三种非对映体手性化合物,即(R,R)-(+)-2-氨基-1,2-二苯乙醇、(1S,2R)-(+)-2-氨基-1,2-二苯乙醇和(1R) ,2R)-(+)-1,2-二苯基乙二胺作为起始原料制备三种N -3,5-二硝基苯甲酰基衍生物手性固定相 (CSPs) (CSP 1, 2, and 3) 和三种 C 3对称 CSPs (CSP 4、5 和 6)。将六种新制备的 CSP 应用于 HPLC 对 44 个手性样品的手性分离。大多数样品在 CSP 6 上分离,在六个新制备的 CSP 中平均分离因子最高。DOI:10.1002/chir.23415
文献信息
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Synthesis of new C3 symmetric amino acid- and aminoalcohol-containing chiral stationary phases and application to HPLC enantioseparations作者:Jeongjae Yu、Daniel W. Armstrong、Jae Jeong RyooDOI:10.1002/chir.22766日期:2018.1We recently reported a new C3‐symmetric (R)‐phenylglycinol N‐1,3,5‐benzenetricarboxylic acid‐derived chiral high‐performance liquid chromatography (HPLC) stationary phase (CSP 1) that demonstrated better results as compared to a previously described N‐3,5‐dintrobenzoyl (DNB) (R)‐phenylglycinol‐derived CSP. Over a decade ago, (S)‐leucinol, (R)‐phenylglycine, and (S)‐leucine derivatives were used as
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Access to Enantiopure 2,5-Diaryltetrahydrofurans - Application to the Synthesis of (-)-Virgatusin and (+)-Urinaligran作者:Sophie Martinet、Alain Méou、Pierre BrunDOI:10.1002/ejoc.200900099日期:2009.5afforded 2,3-dihydrofurans 3. After catalytic hydrogenation of the C=C bond, followed by reductive removal of the chiral auxiliary, the resulting enantiopure tetrahydrofurans 5 were transformed in two steps into naturally occurring (–)-virgatusin and (+)-urinaligran and two other, nonnatural, tetrasubstituted THF lignans. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2009)
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Comparison of Electrophilic Amination Reagents for N-Amination of 2-Oxazolidinones and Application to Synthesis of Chiral Hydrazones作者:Yuehai Shen、Gregory K. FriestadDOI:10.1021/jo0259663日期:2002.8.1Comparison of several hydroxylamine-based electrophilic ammonia equivalents in the N-amination of 2-oxazolidinones revealed that O-(p-nitrobenzoyl)hydroxylamine (NbzONH(2)) and sodium hydride in dioxane is a superior reagent combination for this purpose. Practical preparations of a variety of chiral N-acylhydrazones by this method gave yields ranging from 45 to 95%. Methods for exchange or removal
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Enantioselective separation method申请人:Chekal P. Brian公开号:US20060020022A1公开(公告)日:2006-01-26This invention relates to a method for separating enantiomers of a substituted 2-trifluoromethyl-2H-chromene-3-carboxylic acid or ester, a substituted 2-trifluoromethyl-1,2-dihydro-quinoline-3-carboxylic acid or ester, a substituted 2-trifluoromethyl-2H-thiochromene-3-carboxylic acid or ester, a substituted 3-trifluoromethyl-3,4-dihydro-naphthalene-2-carboxylic acid or ester, or a pharmaceutically acceptable salt of the acids or esters, using enantioselective fractional crystallization, enantioselective high performance liquid chromatography, enantioselective steady state recycling chromatography, or enantioselective multicolumn chromatography.
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Nitrile Ylides: Diastereoselective Cycloadditions using Chiral Oxzolidinones Without Lewis Acid作者:Mukund P. Sibi、Takahiro Soeta、Craig P. JasperseDOI:10.1021/ol9018584日期:2009.12.3Lewis acid complexation is generally required for chiral-auxiliary-controlled stereoselectivity, and chiral Lewis acid catalysis is frequently optimal for introducing asymmetry. In this work, we show that nitrile ylide cycloadditions to electron-poor acceptors attached to chiral auxiliaries proceed in high yield and stereoselectivity In the absence of Lewis acids. In contrast, chiral Lewis acids are inferior in these cycloadditions.
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