5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐 | 7300-56-3
中文名称
5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐
中文别名
——
英文名称
2,3-dihydro-5,7-dimethyl-1,4-diazepinium perchlorate
英文别名
5,7-dimethyl-2,3-dihydro-1H-1,4-diazepin-4-ium;perchlorate
![5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐化学式](data:image/svg+xml;base64,<?xml version="1.0" encoding="UTF-8"?>
<svg xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" width="300" height="300" viewBox="0 0 300 300">
<defs>
<g>
<g id="glyph-0-0">
<path d="M 0.9375 3.34375 L 0.9375 -13.34375 L 10.40625 -13.34375 L 10.40625 3.34375 Z M 2 2.296875 L 9.34375 2.296875 L 9.34375 -12.28125 L 2 -12.28125 Z M 2 2.296875 "/>
</g>
<g id="glyph-0-1">
<path d="M 1.859375 -13.796875 L 4.375 -13.796875 L 10.484375 -2.25 L 10.484375 -13.796875 L 12.296875 -13.796875 L 12.296875 0 L 9.78125 0 L 3.671875 -11.546875 L 3.671875 0 L 1.859375 0 Z M 1.859375 -13.796875 "/>
</g>
<g id="glyph-0-2">
<path d="M 1.859375 -13.796875 L 3.71875 -13.796875 L 3.71875 -8.140625 L 10.5 -8.140625 L 10.5 -13.796875 L 12.375 -13.796875 L 12.375 0 L 10.5 0 L 10.5 -6.5625 L 3.71875 -6.5625 L 3.71875 0 L 1.859375 0 Z M 1.859375 -13.796875 "/>
</g>
<g id="glyph-0-3">
<path d="M 12.1875 -12.734375 L 12.1875 -10.765625 C 11.5625 -11.347656 10.890625 -11.785156 10.171875 -12.078125 C 9.460938 -12.367188 8.707031 -12.515625 7.90625 -12.515625 C 6.332031 -12.515625 5.125 -12.03125 4.28125 -11.0625 C 3.445312 -10.101562 3.03125 -8.710938 3.03125 -6.890625 C 3.03125 -5.066406 3.445312 -3.671875 4.28125 -2.703125 C 5.125 -1.742188 6.332031 -1.265625 7.90625 -1.265625 C 8.707031 -1.265625 9.460938 -1.410156 10.171875 -1.703125 C 10.890625 -1.992188 11.5625 -2.429688 12.1875 -3.015625 L 12.1875 -1.0625 C 11.53125 -0.613281 10.835938 -0.28125 10.109375 -0.0625 C 9.378906 0.15625 8.609375 0.265625 7.796875 0.265625 C 5.710938 0.265625 4.066406 -0.367188 2.859375 -1.640625 C 1.660156 -2.921875 1.0625 -4.671875 1.0625 -6.890625 C 1.0625 -9.097656 1.660156 -10.84375 2.859375 -12.125 C 4.066406 -13.40625 5.710938 -14.046875 7.796875 -14.046875 C 8.617188 -14.046875 9.394531 -13.9375 10.125 -13.71875 C 10.851562 -13.5 11.539062 -13.171875 12.1875 -12.734375 Z M 12.1875 -12.734375 "/>
</g>
<g id="glyph-0-4">
<path d="M 1.78125 -14.375 L 3.484375 -14.375 L 3.484375 0 L 1.78125 0 Z M 1.78125 -14.375 "/>
</g>
<g id="glyph-0-5">
<path d="M 7.453125 -12.53125 C 6.097656 -12.53125 5.019531 -12.023438 4.21875 -11.015625 C 3.425781 -10.003906 3.03125 -8.628906 3.03125 -6.890625 C 3.03125 -5.148438 3.425781 -3.773438 4.21875 -2.765625 C 5.019531 -1.753906 6.097656 -1.25 7.453125 -1.25 C 8.804688 -1.25 9.878906 -1.753906 10.671875 -2.765625 C 11.460938 -3.773438 11.859375 -5.148438 11.859375 -6.890625 C 11.859375 -8.628906 11.460938 -10.003906 10.671875 -11.015625 C 9.878906 -12.023438 8.804688 -12.53125 7.453125 -12.53125 Z M 7.453125 -14.046875 C 9.390625 -14.046875 10.9375 -13.394531 12.09375 -12.09375 C 13.25 -10.800781 13.828125 -9.066406 13.828125 -6.890625 C 13.828125 -4.710938 13.25 -2.972656 12.09375 -1.671875 C 10.9375 -0.378906 9.390625 0.265625 7.453125 0.265625 C 5.515625 0.265625 3.960938 -0.378906 2.796875 -1.671875 C 1.640625 -2.960938 1.0625 -4.703125 1.0625 -6.890625 C 1.0625 -9.066406 1.640625 -10.800781 2.796875 -12.09375 C 3.960938 -13.394531 5.515625 -14.046875 7.453125 -14.046875 Z M 7.453125 -14.046875 "/>
</g>
<g id="glyph-1-0">
<path d="M 0.625 2.234375 L 0.625 -8.890625 L 6.9375 -8.890625 L 6.9375 2.234375 Z M 1.34375 1.53125 L 6.234375 1.53125 L 6.234375 -8.1875 L 1.34375 -8.1875 Z M 1.34375 1.53125 "/>
</g>
<g id="glyph-1-1">
<path d="M 5.109375 -4.953125 C 5.710938 -4.828125 6.179688 -4.5625 6.515625 -4.15625 C 6.847656 -3.757812 7.015625 -3.265625 7.015625 -2.671875 C 7.015625 -1.765625 6.703125 -1.0625 6.078125 -0.5625 C 5.453125 -0.0703125 4.566406 0.171875 3.421875 0.171875 C 3.035156 0.171875 2.632812 0.132812 2.21875 0.0625 C 1.8125 -0.0078125 1.390625 -0.125 0.953125 -0.28125 L 0.953125 -1.484375 C 1.304688 -1.273438 1.6875 -1.117188 2.09375 -1.015625 C 2.5 -0.921875 2.925781 -0.875 3.375 -0.875 C 4.15625 -0.875 4.75 -1.023438 5.15625 -1.328125 C 5.570312 -1.640625 5.78125 -2.085938 5.78125 -2.671875 C 5.78125 -3.210938 5.585938 -3.632812 5.203125 -3.9375 C 4.828125 -4.25 4.300781 -4.40625 3.625 -4.40625 L 2.546875 -4.40625 L 2.546875 -5.421875 L 3.671875 -5.421875 C 4.285156 -5.421875 4.753906 -5.539062 5.078125 -5.78125 C 5.398438 -6.03125 5.5625 -6.382812 5.5625 -6.84375 C 5.5625 -7.3125 5.394531 -7.671875 5.0625 -7.921875 C 4.726562 -8.179688 4.25 -8.3125 3.625 -8.3125 C 3.28125 -8.3125 2.910156 -8.273438 2.515625 -8.203125 C 2.128906 -8.128906 1.703125 -8.015625 1.234375 -7.859375 L 1.234375 -8.96875 C 1.710938 -9.09375 2.15625 -9.1875 2.5625 -9.25 C 2.976562 -9.320312 3.367188 -9.359375 3.734375 -9.359375 C 4.671875 -9.359375 5.414062 -9.144531 5.96875 -8.71875 C 6.519531 -8.289062 6.796875 -7.707031 6.796875 -6.96875 C 6.796875 -6.46875 6.648438 -6.039062 6.359375 -5.6875 C 6.066406 -5.332031 5.648438 -5.085938 5.109375 -4.953125 Z M 5.109375 -4.953125 "/>
</g>
</g>
</defs>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.404963 1.943147 L 0.872301 0.978085 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.590081 1.94323 L 0.987567 1.12258 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.404963 1.928615 L 0.878824 2.909613 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.860494 0.98081 L 1.670326 0.793875 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.878576 0.988571 L 0.452522 0.271793 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.872301 2.896154 L 1.65918 3.07797 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.987649 2.751742 L 1.696666 2.91564 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.885099 2.888227 L 0.260055 3.275309 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.149472 0.928709 L 2.750489 1.409671 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.149637 2.946108 L 2.750489 2.466054 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.744214 1.396626 L 2.744214 2.4791 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.792741 1.819542 L 4.792741 1.252874 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.453466 2.120422 L 4.067706 2.262523 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.511099 2.276807 L 4.125256 2.418907 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.807934 2.248734 L 4.904952 2.384229 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.943429 2.151715 L 5.040529 2.287211 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 5.046722 2.307192 L 5.195263 2.382825 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 5.122355 2.158651 L 5.270896 2.234284 " transform="matrix(47.309143, 0, 0, 47.309143, 29.337661, 68.340905)"/>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="112.691406" y="110.160156"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="112.652344" y="94.789062"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="36.480469" y="75.226562"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="15.960937" y="74.976562"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="28.949219" y="76.066406"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="112.691406" y="223.613281"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="22.714844" y="237.796875"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="2.191406" y="237.546875"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="15.183594" y="238.636719"/>
</g>
<g fill="rgb(9.977717%, 78.158784%, 9.977717%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="247.199219" y="174"/>
<use xlink:href="#glyph-0-4" x="260.412516" y="174"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-5" x="248.632812" y="122.140625"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="262.179688" y="121.890625"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-5" x="202.316406" y="190.886719"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-5" x="260.839844" y="190.886719"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-5" x="282.117188" y="190.886719"/>
</g>
</svg>
)
CAS
7300-56-3
化学式
C7H12N2*ClHO4
mdl
——
分子量
224.644
InChiKey
LSBOWQYDCRFWCG-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
-
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
物化性质
-
熔点:140 °C
计算性质
-
辛醇/水分配系数(LogP):-3.17
-
重原子数:14
-
可旋转键数:0
-
环数:1.0
-
sp3杂化的碳原子比例:0.57
-
拓扑面积:95.8
-
氢给体数:2
-
氢受体数:6
SDS
反应信息
-
作为反应物:描述:5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐 在 N-氯代丁二酰亚胺 作用下, 以 氯仿 为溶剂, 反应 1.5h, 生成 6-chloro-2,3-dihydro-5,7-dimethyl-1,4-diazepinium perchlorate参考文献:名称:Butler, Anthony R.; Lloyd, Douglas; McNab, Hamish, Liebigs Annalen der Chemie, 1989, p. 133 - 136摘要:DOI:
-
作为产物:参考文献:名称:高氯酸二氮杂ium:中性催化剂,用于碳水化合物和其他物质的轻度无溶剂乙酰化†摘要:高氯二氮杂嗪,一种具有优异稳定性的基本中性的有机盐,已被发现非常适用于游离的以及部分保护的糖,酚,硫酚,硫醇和其他醇以及胺的乙酰化。高氯酸二氮杂pin鎓催化的乙酰化反应温和,无有机和无溶剂,并且不影响底物上存在的对酸敏感的保护基团,例如TBDMS / TBDPS / Tr醚和异亚丙基/亚苄基乙缩醛。在部分受保护的碳水化合物衍生物/多羟基化合物中进行区域选择性羟基保护是可行的,并被证明是常规合成此类化合物的一种省时的简便方法。容易制备催化剂,温和的反应条件和对环境有益的方案是该反应的显着特征。苯酚和苯硫酚的乙酰化反应所获得的结果可以通过DFT计算获得的局部亲核指数来合理化。DOI:10.1039/c6ra28882k
-
作为试剂:描述:乙酸酐 、 4-甲苯硫酚 在 5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐 作用下, 以 neat (no solvent) 为溶剂, 反应 0.25h, 以96%的产率得到S-(4-甲基苯基)硫代乙酸酯参考文献:名称:高氯酸二氮杂ium:中性催化剂,用于碳水化合物和其他物质的轻度无溶剂乙酰化†摘要:高氯二氮杂嗪,一种具有优异稳定性的基本中性的有机盐,已被发现非常适用于游离的以及部分保护的糖,酚,硫酚,硫醇和其他醇以及胺的乙酰化。高氯酸二氮杂pin鎓催化的乙酰化反应温和,无有机和无溶剂,并且不影响底物上存在的对酸敏感的保护基团,例如TBDMS / TBDPS / Tr醚和异亚丙基/亚苄基乙缩醛。在部分受保护的碳水化合物衍生物/多羟基化合物中进行区域选择性羟基保护是可行的,并被证明是常规合成此类化合物的一种省时的简便方法。容易制备催化剂,温和的反应条件和对环境有益的方案是该反应的显着特征。苯酚和苯硫酚的乙酰化反应所获得的结果可以通过DFT计算获得的局部亲核指数来合理化。DOI:10.1039/c6ra28882k
文献信息
-
Vinamidinium-Salze als Nucleophile Vinamidinium Salts as Nucleophiles作者:H. Möhrle、U. von der Lieck-WaldheimDOI:10.1515/znb-1996-0319日期:1996.3.1
Abstract 2,3-Dihydro-1,4-diazepinium salts could not be aminomethylated with conventional methods, but the hydrochlorides produced with methyleniminium salts the C-Mannich-compounds. The reactivity of the substrate was mainly controlled by electronic effects of the substituents. Aminomethylation of 1,5-diazapentadienium salts occurred only if the conformations caused no steric hindrance of the β-C-atom. Methyl substituted 2,3-dihydro-1,4-diazepinium salts reacted with 1,3,5 triazine to pyrimidine anellated derivatives.
-
Diazepines. Part XII. 6-Nitro- and 6-amino-2,3-dihydro-1H-1,4-diazepinium salts作者:Anita M. Gorringe、Douglas Lloyd、D. R. MarshallDOI:10.1039/j39700000617日期:——2,3-Dihydro-1H-1,4-diazepinium salts (I) are nitrated at the 6-position by nitric acid–sulphuric acid mixtures or by nitric acid alone, at room or lower temperature. The 6-nitro-derivatives can be reduced to 6-aminodihydrodiazepines. The latter condense readily with aromatic aldehydes to form stable anils, and may be converted into diazonium salts. A 6-chlorodihydrodiazepinium salt was obtained from
-
Cyclization of fluoroalkyl-containing 1,3-dicarbonyl compounds with ethylenediamine hydroperchlorate to 1,4-diazepines作者:Z. �. Skryabina、Ya. V. Burgart、V. I. SaloutinDOI:10.1007/bf00958575日期:1991.42,3-Dihydro-1H-1,4-diazepines and 1,2,3,4-tetrahydro-1,4-diazepin-5-ones were obtained by direct condensation of fluorine-containing 1,3-diketones and 1,3-keto ethers, respectively, with ethylenediamine monohydroperchlorate. The structure of the compounds was confirmed by H-1 NMR, mass spectrometry and molecular weight determination.
-
Template reactions of fluorine-containing 1,3-diketones with ethylenediamine作者:Ya. V. Burgart、Z. �. Skryabina、V. I. SaloutinDOI:10.1007/bf00960416日期:1991.9Depending on the nature of the dicarbonyl fragment, the reaction of fluorinated copper(II) bis(1,3-diketonates) with ethylenediamine and its monoprotonated salts under mild conditions gives N,N'-ethylenebis(aminovinyl ketones) and/or 1,4-diazepines. In excess ethylenediamine, copper(II) and nickel(II) N,N'-ethylenebis(aminovinyl ketonates) undergo cyclization to 1,4-diazepines.
-
24. Diazepines. Part II. Some bromination experiments on dihydrodiazepines作者:Douglas Lloyd、Donald R. MarshallDOI:10.1039/jr9580000118日期:——
同类化合物
雷唑巴占
唑美巴占
六氢-2-(硝基亚氨基)-1H-1,3-二氮杂卓
[1,3]恶唑并[3,2-a][1,3]二氮杂卓
7-苯基-3,4-二氢-1H-1,4-二氮杂革-5(2H)-酮
7,8-二氢-1-苯基-6H-吡啶并(3,2,1-jk)(1,4)苯并二氮杂卓-4(3H)-酮
5H-吡咯并[1,2-a][1,4]二氮杂卓
5-甲基-7-苯基-6,7-二氢-1H-1,4-二氮杂-2,3-二甲腈
5-三氟甲基-2,3-二氢-1H-1,4-二氮杂卓
5,7-二苯基-2,3,6,7-四氢-1H-1,4-二氮杂卓
5,7-二甲基-2,3-二氢-1H-[1,4]二氮杂卓高氯酸盐
5,7-二甲基-2,3,5,6-四氢-1H-环戊二烯并[b]吡嗪
4,5,6,7-四氢-1H-1,3-二氮杂卓-2-胺
3,5,7-三苯基-4H-1,2-二氮杂卓
2H-[1,3,5]恶二嗪o[3,2-a][1,3]二氮杂卓
2-甲基硫代-4,5,6,7-四氢-1H-[1,3]二氮杂卓
2-甲基-4,5,6,7-四氢-1H-1,3-二氮杂卓
2,3-二氢-5-甲基-7-三氟甲基-1H-1,4-二氮杂卓
2,3-二氢-5,7-双(三氟甲基)-1H-1,4-二氮杂卓
1-(5-甲氧基-1,4-二氮杂-1-基)乙酮
1,4,5,7,8,9,10,10A-八氢吡啶并[1,2-a][1,4]二氮杂卓
(9ci)-2,3-二氢-N,N-二甲基-1H-1,4-二氮杂卓-6-甲胺
(9ci)-1H-1,2-二氮杂卓-1-羧酸甲酯
(9ci)-1H,3h-噁唑并[3,4-d][1,4]二氮杂卓
(9ci)-1H,3h-噁唑并[3,4-a][1,4]二氮杂卓
8-Phenyl-2,3,6,7-tetrahydro-4H-1,4-diazocin-5-on
1,3-diphenyl-1,2-dihydro-pyridazino[3,4-b]quinoxaline
3-(4-Bromphenyl)-5,6,7,8-tetrahydro-thiazolo<3,2-a>-<1,3>diazepin
2,3-Dihydro-5-methyl-1,4-diazepin
3-Methyl-6,7,8,9-tetrahydro-5H-[1,2,4]triazolo[4,3-a][1,3]diazepine
2,4,10,12,18,20-hexamethyl-1,5,9,13,17,21-hexaaza-cyclotetracosa-1,3,9,11,17,19-hexaene
2-(2-benzylidene-3-((4-methylbenzylidene)hydrazineylidene)-2,3,6,7,8,9-hexahydro-5H-thiazolo[2,3-b]quinazolin-5-yl)phenol
3,11-diphenyl-1,5,9,13-tetraaza-cyclohexadeca-1,3,9,11-tetraene
7,10-dichloro-4-[4-(1,1-difluoroethyl)phenyl]-5,6-dihydro-4H-pyrrolo[1,2-a][1,4]-benzodiazepine hydrochloride
7-bromo-5,6-dihydro-2,3-dimethylpyrido<2,3-b>pyrazine
7-(3-Chloro-4-fluoro-phenyl)-5-trifluoromethyl-2,3-dihydro-1H-[1,4]diazepine
6,14-diphenyl-1,4,8,12-tetraaza-cyclopentadeca-4,6,12,14-tetraene
6,13-diphenyl-1,4,8,11-tetraaza-cyclotetradeca-4,6,11,13-tetraene
7-(3-Chloro-4-fluoro-phenyl)-5-phenyl-2,3-dihydro-1H-[1,4]diazepine
7-(4-Fluoro-phenyl)-5-methyl-2,3-dihydro-1H-[1,4]diazepine
3-(7-methyl-5-oxo-4,5-dihydro-2H-pyrazolo[1,5-a]pyrimidin-1-yl)-but-2-enenitrile
7-(2-Fluoro-5-methyl-phenyl)-5-methyl-2,3-dihydro-1H-[1,4]diazepine
trans-diazido(2,3,9,10-tetramethyl-1,4,8,11-tetra-azacyclotetradeca-1,3,8,10-tetraene)cobalt(III) perchlorate
2,2-dimethyl-2,6,7,8-tetrahydro-3H-pyrrolo[1,2-a]pyrimidin-4-one
ethyl 4-acetamidodiazepine-1-carboxylate
5,7-dimethyl-4,5,6,7-tetrahydro-1H-[1,4]diazepine-2,3-dicarbonitrile
1,4,8,11-Tetraazacyclotetradeca-4,6,11,13-tetraene,5,7,12,14-tetramethyl-
5,6,6,7a-tetramethyl-3-phenyl-5,6,7,7a-tetrahydro-pyrazolo[1,5-d][1,2,4]oxadiazole
联系我们
关注我们
公众号
