N-methyl-N-{[4-(trifluoromethyl)phenyl]methyl}formamide
中文名称
——
中文别名
——
英文名称
N-methyl-N-{[4-(trifluoromethyl)phenyl]methyl}formamide
英文别名
N-methyl-N-[[4-(trifluoromethyl)phenyl]methyl]methanamide;N-(4-(trifluoromethyl)benzyl)-N-methylformamide;N-methyl-N-[[4-(trifluoromethyl)phenyl]methyl]formamide
![N-methyl-N-{[4-(trifluoromethyl)phenyl]methyl}formamide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 0.859375 3.03125 L 0.859375 -12.109375 L 9.4375 -12.109375 L 9.4375 3.03125 Z M 1.8125 2.078125 L 8.484375 2.078125 L 8.484375 -11.140625 L 1.8125 -11.140625 Z M 1.8125 2.078125 "/>
</g>
<g id="glyph-0-1">
<path d="M 1.6875 -12.515625 L 8.875 -12.515625 L 8.875 -11.09375 L 3.375 -11.09375 L 3.375 -7.40625 L 8.34375 -7.40625 L 8.34375 -5.984375 L 3.375 -5.984375 L 3.375 0 L 1.6875 0 Z M 1.6875 -12.515625 "/>
</g>
<g id="glyph-0-2">
<path d="M 1.6875 -12.515625 L 3.96875 -12.515625 L 9.515625 -2.046875 L 9.515625 -12.515625 L 11.15625 -12.515625 L 11.15625 0 L 8.875 0 L 3.328125 -10.46875 L 3.328125 0 L 1.6875 0 Z M 1.6875 -12.515625 "/>
</g>
<g id="glyph-0-3">
<path d="M 11.0625 -11.546875 L 11.0625 -9.765625 C 10.488281 -10.296875 9.878906 -10.691406 9.234375 -10.953125 C 8.585938 -11.222656 7.898438 -11.359375 7.171875 -11.359375 C 5.742188 -11.359375 4.648438 -10.921875 3.890625 -10.046875 C 3.128906 -9.171875 2.75 -7.90625 2.75 -6.25 C 2.75 -4.59375 3.128906 -3.328125 3.890625 -2.453125 C 4.648438 -1.585938 5.742188 -1.15625 7.171875 -1.15625 C 7.898438 -1.15625 8.585938 -1.285156 9.234375 -1.546875 C 9.878906 -1.804688 10.488281 -2.203125 11.0625 -2.734375 L 11.0625 -0.96875 C 10.46875 -0.5625 9.835938 -0.253906 9.171875 -0.046875 C 8.515625 0.148438 7.816406 0.25 7.078125 0.25 C 5.179688 0.25 3.6875 -0.328125 2.59375 -1.484375 C 1.507812 -2.648438 0.96875 -4.238281 0.96875 -6.25 C 0.96875 -8.257812 1.507812 -9.84375 2.59375 -11 C 3.6875 -12.164062 5.179688 -12.75 7.078125 -12.75 C 7.828125 -12.75 8.53125 -12.648438 9.1875 -12.453125 C 9.851562 -12.253906 10.476562 -11.953125 11.0625 -11.546875 Z M 11.0625 -11.546875 "/>
</g>
<g id="glyph-0-4">
<path d="M 1.6875 -12.515625 L 3.375 -12.515625 L 3.375 -7.390625 L 9.53125 -7.390625 L 9.53125 -12.515625 L 11.234375 -12.515625 L 11.234375 0 L 9.53125 0 L 9.53125 -5.96875 L 3.375 -5.96875 L 3.375 0 L 1.6875 0 Z M 1.6875 -12.515625 "/>
</g>
<g id="glyph-0-5">
<path d="M 6.765625 -11.375 C 5.535156 -11.375 4.554688 -10.914062 3.828125 -10 C 3.109375 -9.082031 2.75 -7.832031 2.75 -6.25 C 2.75 -4.664062 3.109375 -3.414062 3.828125 -2.5 C 4.554688 -1.582031 5.535156 -1.125 6.765625 -1.125 C 7.992188 -1.125 8.96875 -1.582031 9.6875 -2.5 C 10.40625 -3.414062 10.765625 -4.664062 10.765625 -6.25 C 10.765625 -7.832031 10.40625 -9.082031 9.6875 -10 C 8.96875 -10.914062 7.992188 -11.375 6.765625 -11.375 Z M 6.765625 -12.75 C 8.523438 -12.75 9.925781 -12.160156 10.96875 -10.984375 C 12.019531 -9.804688 12.546875 -8.226562 12.546875 -6.25 C 12.546875 -4.269531 12.019531 -2.691406 10.96875 -1.515625 C 9.925781 -0.335938 8.523438 0.25 6.765625 0.25 C 5.003906 0.25 3.597656 -0.335938 2.546875 -1.515625 C 1.492188 -2.691406 0.96875 -4.269531 0.96875 -6.25 C 0.96875 -8.226562 1.492188 -9.804688 2.546875 -10.984375 C 3.597656 -12.160156 5.003906 -12.75 6.765625 -12.75 Z M 6.765625 -12.75 "/>
</g>
<g id="glyph-1-0">
<path d="M 0.5625 2.015625 L 0.5625 -8.0625 L 6.28125 -8.0625 L 6.28125 2.015625 Z M 1.21875 1.390625 L 5.65625 1.390625 L 5.65625 -7.421875 L 1.21875 -7.421875 Z M 1.21875 1.390625 "/>
</g>
<g id="glyph-1-1">
<path d="M 4.640625 -4.5 C 5.179688 -4.382812 5.601562 -4.144531 5.90625 -3.78125 C 6.207031 -3.414062 6.359375 -2.960938 6.359375 -2.421875 C 6.359375 -1.597656 6.070312 -0.960938 5.5 -0.515625 C 4.9375 -0.0664062 4.132812 0.15625 3.09375 0.15625 C 2.75 0.15625 2.390625 0.117188 2.015625 0.046875 C 1.648438 -0.015625 1.269531 -0.113281 0.875 -0.25 L 0.875 -1.34375 C 1.1875 -1.15625 1.523438 -1.015625 1.890625 -0.921875 C 2.265625 -0.828125 2.65625 -0.78125 3.0625 -0.78125 C 3.769531 -0.78125 4.304688 -0.921875 4.671875 -1.203125 C 5.046875 -1.484375 5.234375 -1.890625 5.234375 -2.421875 C 5.234375 -2.910156 5.0625 -3.296875 4.71875 -3.578125 C 4.375 -3.859375 3.894531 -4 3.28125 -4 L 2.3125 -4 L 2.3125 -4.921875 L 3.328125 -4.921875 C 3.878906 -4.921875 4.300781 -5.03125 4.59375 -5.25 C 4.894531 -5.46875 5.046875 -5.785156 5.046875 -6.203125 C 5.046875 -6.640625 4.890625 -6.972656 4.578125 -7.203125 C 4.273438 -7.429688 3.84375 -7.546875 3.28125 -7.546875 C 2.96875 -7.546875 2.632812 -7.507812 2.28125 -7.4375 C 1.9375 -7.375 1.550781 -7.269531 1.125 -7.125 L 1.125 -8.125 C 1.550781 -8.25 1.953125 -8.335938 2.328125 -8.390625 C 2.703125 -8.453125 3.054688 -8.484375 3.390625 -8.484375 C 4.242188 -8.484375 4.921875 -8.289062 5.421875 -7.90625 C 5.921875 -7.519531 6.171875 -6.992188 6.171875 -6.328125 C 6.171875 -5.867188 6.035156 -5.476562 5.765625 -5.15625 C 5.503906 -4.84375 5.128906 -4.625 4.640625 -4.5 Z M 4.640625 -4.5 "/>
</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 0.867079 5.510611 L 0.894202 4.498609 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.867079 5.510611 L 0.887011 6.254573 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.867079 5.510611 L 1.528398 5.847733 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.867079 5.510611 L 0.231972 5.834445 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.893928 4.50853 L 1.769498 4.003666 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.893928 4.316123 L 1.602758 3.907372 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.902575 4.513536 L 0.0187226 4.003666 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 1.761125 4.018138 L 1.761125 2.996579 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.0270051 4.018138 L 0.0270051 2.996579 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.193655 3.921843 L 0.193655 3.092873 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 1.769498 3.01105 L 0.893928 2.506096 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 1.602758 3.107345 L 0.893928 2.698503 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.0187226 3.01105 L 0.902302 2.501272 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.893928 2.515744 L 0.893928 1.494458 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 0.885646 1.508929 L 1.506281 1.150237 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 2.01606 1.150055 L 2.637605 1.508929 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 1.761125 0.747129 L 1.761125 0.261288 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 2.620858 1.508929 L 3.220833 1.162251 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<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 2.620858 1.316431 L 3.137463 1.0179 " transform="matrix(42.918476, 0, 0, 42.918476, 73.868328, 10.352338)"/>
<g fill="rgb(38.924569%, 61.167181%, 21.547529%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="106.953125" y="296.140625"/>
</g>
<g fill="rgb(38.924569%, 61.167181%, 21.547529%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="144.140625" y="272.660156"/>
</g>
<g fill="rgb(38.924569%, 61.167181%, 21.547529%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="68.589844" y="272.09375"/>
</g>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="143.03125" y="59.652344"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="143.441406" y="16.601562"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-4" x="154.246094" y="16.375"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="166.027344" y="17.363281"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-5" x="217.175781" y="59.644531"/>
</g>
</svg>
)
CAS
——
化学式
C10H10F3NO
mdl
——
分子量
217.191
InChiKey
KDHPMZDECKSZMQ-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
计算性质
-
辛醇/水分配系数(LogP):2.1
-
重原子数:15
-
可旋转键数:2
-
环数:1.0
-
sp3杂化的碳原子比例:0.3
-
拓扑面积:20.3
-
氢给体数:0
-
氢受体数:4
上下游信息
-
上游原料
中文名称 英文名称 CAS号 化学式 分子量 —— N,N-dimethyl-4-(trifluoromethyl)benzylamine 71740-33-5 C10H12F3N 203.207 N-甲基-4-三氟甲基苄胺 N-Methyl-4-(trifluoromethyl)benzylamine 90390-11-7 C9H10F3N 189.18
反应信息
-
作为产物:描述:N,N-dimethyl-4-(trifluoromethyl)benzylamine 在 1‐methyl‐2‐azaadamantane‐N‐oxyl 、 2,2'-联吡啶 、 copper(II) bis(trifluoromethanesulfonate) 、 copper(l) chloride 作用下, 以 乙腈 为溶剂, 反应 24.0h, 以89%的产率得到N-methyl-N-{[4-(trifluoromethyl)phenyl]methyl}formamide参考文献:名称:通过使用铜/中等受阻硝基氧自由基(DMN-AZADO或1-Me-AZADO)将叔胺进行甲基选择性甲基氧化为甲酰胺。摘要:叔胺的甲基选择性α-加氧是合成甲酰胺同时保留胺底物骨架的极具吸引力的方法。因此,开发能够使用分子氧(O 2)作为末端氧化剂来促进在N-甲基位置上的区域选择性α-氧化的有效催化剂是重要的课题。在这项研究中,我们成功地通过使用Cu / nitroxyl自由基催化剂系统开发了一种高度区域选择性和高效的叔胺好氧甲基选择性α-加氧方法。使用中等受阻的硝酰基自由基,例如1,5-二甲基-9-金刚烷金刚烷N-氧基(DMN-AZADO)和1-甲基-2-氮杂金刚烷N-氧基(1-Me-AZADO)对于有效地促进氧合作用,主要是因为这些N-羟基比受阻较少的N-羟基具有更长的寿命。将各种类型的叔N-甲胺选择性地转化为相应的甲酰胺。还根据实验证据以及DFT计算讨论了合理的反应机理。该催化剂体系的高区域选择性源自胺-N-氧基相互作用的空间限制。DOI:10.1002/anie.201909005
文献信息
-
Tetracoordinate borates as catalysts for reductive formylation of amines with carbon dioxide作者:Xiaolin Jiang、Zijun Huang、Mohamed Makha、Chen-Xia Du、Dongmei Zhao、Fang Wang、Yuehui LiDOI:10.1039/d0gc01741h日期:——We report sodium trihydroxyaryl borates as the first robust tetracoordinate organoboron catalysts for reductive functionalization of CO2. These catalysts, easily synthesized from condensing boronic acids with metal hydroxides, activate main group element–hydrogen (E–H) bonds efficiently. In contrast to BX3 type boranes, boronic acids and metal-BAr4 salts, under transition metal-free conditions, sodium我们报告三羟基芳基硼酸钠作为第一个坚固的四配位有机硼催化剂,用于CO 2的还原功能化。这些催化剂很容易从硼酸与金属氢氧化物的缩合反应中合成,可以有效地活化主族元素氢键。与BX 3型硼烷,硼酸和金属-BAr 4盐相比,在无过渡金属的条件下,三羟基芳基硼酸钠对各种胺(包括带有官能团的胺)表现出较高的还原性N-甲酰化反应性(106例)例如酯,烯烃,羟基,氰基,硝基,卤素,MeS–,醚基等。催化具有挑战性的吡啶胺的甲酰化反应的性能过高,为使用传统的甲酰化试剂提供了一种有前途的替代方法。机理研究支持将静电相互作用作为Si / B–H活化的关键,从而使碱金属硼酸盐成为用于CO 2加氢硼化,加氢硅烷化和还原甲酰化/甲基化的通用催化剂。
-
N-formylation of amine using graphene oxide as a sole recyclable metal-free carbocatalyst作者:Juan Ma、Jingyu Zhang、Xiao Zhou、Jiawei Wang、Hang GongDOI:10.1007/s13738-018-1471-3日期:2018.12AbstractGraphene oxide (GO), an inexpensive, environment-friendly, and metal-free carbocatalyst, used for the N-formylation of amines is developed. In this reaction, GO shows good activity, selectivity, and recyclability. This strategy has an array of advantages, such as being metal free, without additive, wide-scope protocol, scalable with a low catalyst loading of 3 wt%, use of readily available摘要氧化石墨烯(GO)是一种廉价,环保,不含金属的碳催化剂,已开发用于胺的N-甲酰化反应。在该反应中,GO显示出良好的活性,选择性和可回收性。该策略具有一系列优势,例如无金属,无添加剂,宽范围协议,可扩展,具有3 wt%的低催化剂负载量,使用易于获得且可回收的碳催化剂以及DMF作为易于获得的甲酰基源。此外,该策略为各种胺的方便的加氢甲酰化提供了途径。 图形概要
-
Catalyst-Free Transamidation of Aromatic Amines with Formamide Derivatives and Tertiary Amides with Aliphatic Amines作者:Jiawen Yin、Jingyu Zhang、Changqun Cai、Guo-Jun Deng、Hang GongDOI:10.1021/acs.orglett.8b03542日期:2019.1.18A simple catalyst- and promoter-free protocol has been developed for the transamidation of weakly nucleophilic aromatic amines with formamide derivatives and low-reactivity tertiary amides with aliphatic amines. This strategy is advantageous because no catalyst or promoters are needed, no additives are required, separation and purification is easy, and the reaction is scalable. Significantly, this已经开发了一种简单的无催化剂和无助催化剂的方案,用于弱亲核芳香胺与甲酰胺衍生物的酰胺交换,以及低反应性叔酰胺与脂族胺的酰胺交换。该策略是有利的,因为不需要催化剂或助催化剂,不需要添加剂,分离和纯化容易,并且反应是可扩展的。重要的是,该策略被进一步应用于以克为单位合成几种药物分子,并获得了优异的收率。
-
Cobalt(II)-Catalyzed <i>N</i> -Acylation of Amines through a Transamidation Reaction作者:Juan Ma、Feng Zhang、Jingyu Zhang、Hang GongDOI:10.1002/ejoc.201800253日期:2018.9.23An efficient, practical, CoII‐catalyzed N‐acylation reaction of various amines using readily available and inexpensive DMF and other amides as carbonyl sources is described.本文介绍了一种高效,实用的,用现成的廉价的DMF和其他酰胺作为羰基来源的各种胺的Co II催化N酰化反应的方法。
-
Recyclable Oxofluorovanadate‐Catalyzed Formylation of Amines by Reductive Functionalization of CO <sub>2</sub> with Hydrosilanes作者:Shanxuan Wu、Zijun Huang、Xiaolin Jiang、Fachao Yan、Yuehui Li、Chen‐Xia DuDOI:10.1002/cssc.202100117日期:2021.4.9Various amines are transformed into the desired N‐formylated products in moderate to excellent yields at room temperature in the presence of phenylsilane. Mechanistic studies based on in situ infrared spectroscopy suggest a reaction pathway initiated through F−Si interactions. The activated phenylsilane allows for CO2 insertion to produce phenylsilyl formate, which undergoes attack by the amine to generate通过使用容易获得且可回收的氧代氟钒酸盐作为催化剂,已经开发出一种有效的方法用于CO 2的还原胺化。在室温下,在苯基硅烷存在下,各种胺以中等至极好的收率转化成所需的N-甲酰化产物。基于原位红外光谱的机理研究表明,通过F-Si相互作用引发的反应途径。活化的苯基硅烷允许CO 2插入以生成甲酸甲硅烷基酯,该甲硅烷基甲胺会受到胺的攻击而生成目标产物。
同类化合物
(βS)-β-氨基-4-(4-羟基苯氧基)-3,5-二碘苯甲丙醇
(S)-(-)-7'-〔4(S)-(苄基)恶唑-2-基]-7-二(3,5-二-叔丁基苯基)膦基-2,2',3,3'-四氢-1,1-螺二氢茚
(S)-盐酸沙丁胺醇
(S)-3-(叔丁基)-4-(2,6-二甲氧基苯基)-2,3-二氢苯并[d][1,3]氧磷杂环戊二烯
(S)-2,2'-双[双(3,5-三氟甲基苯基)膦基]-4,4',6,6'-四甲氧基联苯
(S)-1-[3,5-双(三氟甲基)苯基]-3-[1-(二甲基氨基)-3-甲基丁烷-2-基]硫脲
(R)富马酸托特罗定
(R)-(-)-盐酸尼古地平
(R)-(+)-7-双(3,5-二叔丁基苯基)膦基7''-[((6-甲基吡啶-2-基甲基)氨基]-2,2'',3,3''-四氢-1,1''-螺双茚满
(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
(N-(4-甲氧基苯基)-N-甲基-3-(1-哌啶基)丙-2-烯酰胺)
(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
(5-氧代-3-苯基-2,5-二氢-1,2,3,4-oxatriazol-3-鎓)
(4S,5R)-4-甲基-5-苯基-1,2,3-氧代噻唑烷-2,2-二氧化物-3-羧酸叔丁酯
(4-溴苯基)-[2-氟-4-[6-[甲基(丙-2-烯基)氨基]己氧基]苯基]甲酮
(4-丁氧基苯甲基)三苯基溴化磷
(3aR,8aR)-(-)-4,4,8,8-四(3,5-二甲基苯基)四氢-2,2-二甲基-6-苯基-1,3-二氧戊环[4,5-e]二恶唑磷
(2Z)-3-[[(4-氯苯基)氨基]-2-氰基丙烯酸乙酯
(2S,3S,5S)-5-(叔丁氧基甲酰氨基)-2-(N-5-噻唑基-甲氧羰基)氨基-1,6-二苯基-3-羟基己烷
(2S,2''S,3S,3''S)-3,3''-二叔丁基-4,4''-双(2,6-二甲氧基苯基)-2,2'',3,3''-四氢-2,2''-联苯并[d][1,3]氧杂磷杂戊环
(2S)-(-)-2-{[[[[3,5-双(氟代甲基)苯基]氨基]硫代甲基]氨基}-N-(二苯基甲基)-N,3,3-三甲基丁酰胺
(2S)-2-[[[[[[((1R,2R)-2-氨基环己基]氨基]硫代甲基]氨基]-N-(二苯甲基)-N,3,3-三甲基丁酰胺
(2-硝基苯基)磷酸三酰胺
(2,6-二氯苯基)乙酰氯
(2,3-二甲氧基-5-甲基苯基)硼酸
(1S,2S,3S,5S)-5-叠氮基-3-(苯基甲氧基)-2-[(苯基甲氧基)甲基]环戊醇
(1-(4-氟苯基)环丙基)甲胺盐酸盐
(1-(3-溴苯基)环丁基)甲胺盐酸盐
(1-(2-氯苯基)环丁基)甲胺盐酸盐
(1-(2-氟苯基)环丙基)甲胺盐酸盐
(-)-去甲基西布曲明
龙胆酸钠
龙胆酸叔丁酯
龙胆酸
龙胆紫
龙胆紫
齐达帕胺
齐诺康唑
齐洛呋胺
齐墩果-12-烯[2,3-c][1,2,5]恶二唑-28-酸苯甲酯
齐培丙醇
齐咪苯
齐仑太尔
黑染料
黄酮,5-氨基-6-羟基-(5CI)
黄酮,6-氨基-3-羟基-(6CI)
黄蜡,合成物
黄草灵钾盐
联系我们
关注我们
公众号
