5-溴-4-苯基嘧啶 | 3543-46-2

• 物质功能分类: 医药中间体 - 嘧啶类化合物
• 分子结构分类: 有机化合物 - 有机杂环化合物 - 二嗪类
• 中文名称: 5-溴-4-苯基嘧啶
• 英文名称: 5-bromo-4-phenylpyrimidine
• 英文别名: 5-bromo-4-phenyl-pyrimidine；5-Brom-4-phenyl-pyrimidin；5-Brom-4-phenylpyrimidin
• CAS: 3543-46-2
• 化学式: C₁₀H₇BrN₂
• 分子量: 235.083
• InChiKey: SDPYFZLDWYNXJF-UHFFFAOYSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  2.6
• 重原子数：
  13
• 可旋转键数：
  1
• 环数：
  2.0
• sp3杂化的碳原子比例：
  0.0
• 拓扑面积：
  25.8
• 氢给体数：
  0
• 氢受体数：
  2

安全信息

• 海关编码：
  2933599090
• 危险性防范说明：
  P261,P305+P351+P338
• 危险性描述：
  H315,H319,H335

SDS

Material Safety Data Sheet

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Section 1. Identification of the substance
Product Name: 5-Bromo-4-phenylpyrimidine
Synonyms:

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Section 2. Hazards identification
Harmful by inhalation, in contact with skin, and if swallowed.

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Section 3. Composition/information on ingredients.
Ingredient name: 5-Bromo-4-phenylpyrimidine
CAS number: 3543-46-2

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Section 4. First aid measures
Skin contact: Immediately wash skin with copious amounts of water for at least 15 minutes while removing
contaminated clothing and shoes. If irritation persists, seek medical attention.
Eye contact: Immediately wash skin with copious amounts of water for at least 15 minutes. Assure adequate
flushing of the eyes by separating the eyelids with fingers. If irritation persists, seek medical
attention.
Inhalation: Remove to fresh air. In severe cases or if symptoms persist, seek medical attention.
Ingestion: Wash out mouth with copious amounts of water for at least 15 minutes. Seek medical attention.

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Section 5. Fire fighting measures
In the event of a fire involving this material, alone or in combination with other materials, use dry
powder or carbon dioxide extinguishers. Protective clothing and self-contained breathing apparatus
should be worn.

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Section 6. Accidental release measures
Personal precautions: Wear suitable personal protective equipment which performs satisfactorily and meets local/state/national
standards.
Respiratory precaution: Wear approved mask/respirator
Hand precaution: Wear suitable gloves/gauntlets
Skin protection: Wear suitable protective clothing
Eye protection: Wear suitable eye protection
Methods for cleaning up: Mix with sand or similar inert absorbent material, sweep up and keep in a tightly closed container
for disposal. See section 12.
Environmental precautions: Do not allow material to enter drains or water courses.

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Section 7. Handling and storage
Handling: This product should be handled only by, or under the close supervision of, those properly qualified
in the handling and use of potentially hazardous chemicals, who should take into account the fire,
health and chemical hazard data given on this sheet.
Store in closed vessels, refrigerated.
Storage:

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Section 8. Exposure Controls / Personal protection
Engineering Controls: Use only in a chemical fume hood.
Personal protective equipment: Wear laboratory clothing, chemical-resistant gloves and safety goggles.
General hydiene measures: Wash thoroughly after handling. Wash contaminated clothing before reuse.

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Section 9. Physical and chemical properties
Appearance: Not specified
Boiling point: No data
No data
Melting point:
Flash point: No data
Density: No data
Molecular formula: C10H7BrN2
Molecular weight: 235.1

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Section 10. Stability and reactivity
Conditions to avoid: Heat, flames and sparks.
Materials to avoid: Oxidizing agents.
Possible hazardous combustion products: Carbon monoxide, nitrogen oxides, hydrogen bromide.

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Section 11. Toxicological information
No data.

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Section 12. Ecological information
No data.

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Section 13. Disposal consideration
Arrange disposal as special waste, by licensed disposal company, in consultation with local waste
disposal authority, in accordance with national and regional regulations.

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Section 14. Transportation information
Non-harzardous for air and ground transportation.

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Section 15. Regulatory information
No chemicals in this material are subject to the reporting requirements of SARA Title III, Section
302, or have known CAS numbers that exceed the threshold reporting levels established by SARA
Title III, Section 313.

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SECTION 16 - ADDITIONAL INFORMATION
N/A

反应信息

• 作为反应物：
  描述：

  5-溴-4-苯基嘧啶 在 sodium methylate 、 三乙胺 作用下， 以 甲醇 、 氯苯 为溶剂， 反应 8.17h， 生成 4-Piperidinomethyl-5-hydroxy-6-phenylpyrimidine
  参考文献：
  名称：

  4-苯基-5-羟基嘧啶及其1-氧化物的亲电反应研究

  摘要：

  DOI：

  10.1007/bf00506891
• 作为产物：
  描述：

  4-苯基嘧啶 在 2,4,6-三甲基吡啶 、 三氟甲磺酸酐 、 二苄胺 、 N-溴代丁二酰亚胺(NBS) 、 ammonium acetate 作用下， 以 二氯甲烷 、 乙醇 为溶剂， 以44 %的产率得到5-溴-4-苯基嘧啶
  参考文献：
  名称：

  通过锌亚胺中间体卤化吡啶的3位

  摘要：

  吡啶卤化反应对于获得药物和农用化学品开发所需的大量衍生物至关重要。然而，尽管经过一个多世纪的合成努力，选择性官能化多种吡啶前体 3 位碳氢键的卤化过程在很大程度上仍然难以捉摸。我们报道了吡啶基开环、卤化和闭环的反应序列，其中无环锌亚胺中间体在温和条件下经历高度区域选择性卤化反应。实验和计算机理研究表明，卤素亲电子试剂的性质可以改变选择性决定步骤。使用这种方法，我们生产了多种 3-卤代吡啶，并演示了复杂药物和农用化学品的后期卤化。

  DOI：

  10.1126/science.add8980

文献信息

• Syntheses of Benzofuranoquinolines and Analogues via Photoinduced Acceptorless Dehydrogenative Annulation of <i>o</i>-Phenylfuranylpyridines
  作者：Jinming Fan、Wei Zhang、Wangxi Gao、Tao Wang、Wei-Liang Duan、Yong Liang、Zunting Zhang

  DOI：10.1021/acs.orglett.9b03556

  日期：2019.11.15

  strategy for the syntheses of benzofuranoquinolines and its analogues via the irradiation of o-phenylfuranyl/thienylpyridines/pyrimidines in DCM with UV light at rt under an argon atmosphere is described. The mechanism of this reaction through the process of 6π-electrocyclization, [1,5]-hydrogen shift, and 1,3-eneamine tautomerism leading to H2 evolution was elucidated. Notably, the syntheses of cis-8b-methyl-8b

  描述了通过在氩气气氛下在室温下用UV光在DCM中用邻苯呋喃基/噻吩基吡啶/嘧啶进行辐照来合成苯并呋喃喹啉及其类似物的策略。阐明了该反应通过6π-电环化，[1,5]-氢转移和1,3-烯胺互变异构导致H2析出的机理。值得注意的是，通过光诱导的2-（3-甲基苯并呋喃-2-基）-3-苯基吡啶的光致重排合成了顺式-8b-甲基-8b，13a-二氢苯并[f]苯并呋喃[3,2-h]喹诺酮这种反应的机制凸显了开发方法的重要性。
• Metal free C–H functionalization of diazines and related heteroarenes with organoboron species and its application in the synthesis of a CDK inhibitor, meriolin 1
  作者：Thanusha Thatikonda、Umed Singh、Srinivas Ambala、Ram A. Vishwakarma、Parvinder Pal Singh

  DOI：10.1039/c6ob00526h

  日期：——

  Here, we report a metal-free cross-coupling reaction of diazines and related heteroarenes with organoboron species.

  在这里，我们报告二嗪和相关杂芳烃与有机硼物种的无金属交叉偶联反应。
• Skeletal Editing of Pyrimidines to Pyrazoles by Formal Carbon Deletion
  作者：G. Logan Bartholomew、Filippo Carpaneto、Richmond Sarpong

  DOI：10.1021/jacs.2c10746

  日期：2022.12.7

  method for the conversion of pyrimidines into pyrazoles by a formal carbon deletion has been achieved guided by computational analysis. The pyrimidine heterocycle is the most common diazine in FDA-approved drugs, and pyrazoles are the most common diazole. An efficient method to convert pyrimidines into pyrazoles would therefore be valuable by leveraging the chemistries unique to pyrimidines to access diversified

  在计算分析的指导下，已经实现了一种通过正式碳缺失将嘧啶转化为吡唑的方法。嘧啶杂环是FDA批准的药物中最常见的二嗪，吡唑是最常见的二唑。因此，通过利用嘧啶独特的化学性质来获得多样化的吡唑，将嘧啶转化为吡唑的有效方法将是有价值的。已知一种将嘧啶转化为吡唑的方法，但其产率低且需要苛刻的条件。这里报道的转化在较温和的条件下进行，耐受多种官能团，并且能够在所得吡唑上同时区域选择性地引入N-取代。这种正式的一碳缺失方法成功的关键是嘧啶核心的室温三氟甲基化，然后是肼介导的骨骼重塑。
• Correction to “Skeletal Editing of Pyrimidines to Pyrazoles by Formal Carbon Deletion”
  作者：G. Logan Bartholomew、Filippo Carpaneto、Richmond Sarpong

  DOI：10.1021/jacs.2c13180

  日期：2023.1.18

  requests via the RightsLink permission system: http://pubs.acs.org/page/copyright/permissions.html. This article has not yet been cited by other publications. The Supporting Information is available free of charge at https://pubs.acs.org/doi/10.1021/jacs.2c13180. Experimental procedures, characterization data, spectra for all new compounds, crystallographic data and Cartesian coordinates of DFT-optimized

  支持信息。在已发布的版本中，化合物3a 、8b、17、20、23和S54的部分列表和光谱信息由于无意中发布了早期版本的支持信息而丢失。此处提供了包含所有这些信息的新版本的支持信息。支持信息可在 https://pubs.acs.org/doi/10.1021/jacs.2c13180 免费获得。所有新化合物的实验程序、表征数据、光谱、晶体学数据和 DFT 优化结构的笛卡尔坐标，以及计算细节（已更正）(PDF) 大多数电子支持信息文件无需订阅 ACS 网络版即可获得。此类文件可以按文章下载以供研究使用（如果相关文章有链接的公共使用许可，则该许可可能允许其他用途）。可以通过 RightsLink 许可系统请求从 ACS 获得用于其他用途的许可：http://pubs.acs.org/page/copyright/permissions.html。这篇文章尚未被其他出版物引用。支持信息可在 https://pubs
• ¹⁴N to ¹⁵N Isotopic Exchange of Nitrogen Heteroaromatics through Skeletal Editing
  作者：G. Logan Bartholomew、Samantha L. Kraus、Lucas J. Karas、Filippo Carpaneto、Raffeal Bennett、Matthew S. Sigman、Charles S. Yeung、Richmond Sarpong

  DOI：10.1021/jacs.3c11515

  日期：2024.2.7

  selective modification of nitrogen heteroaromatics enables the development of new chemical tools and accelerates drug discovery. While methods that focus on expanding or contracting the skeletal structures of heteroaromatics are emerging, methods for the direct exchange of single core atoms remain limited. Here, we present a method for 14N → 15N isotopic exchange for several aromatic nitrogen heterocycles

  氮杂芳烃的选择性改性使新化学工具的开发成为可能，并加速了药物发现。虽然专注于扩展或收缩杂芳烃骨架结构的方法正在出现，但直接交换单核原子的方法仍然有限。在这里，我们提出了一种对几种芳香族氮杂环进行 14N → 15N 同位素交换的方法。这种氮同位素嬗变是通过氮原子的三飞化激活杂芳烃底物而发生的，然后是由 15个 N-天冬氨酸介导的开环/闭环序列，以实现氮原子的同位素交换。这种转化成功的关键是形成可分离的 15N-琥珀酰中间体，该中间体经过消除以得到同位素标记的杂环。这些转化发生在温和的条件下，化学和同位素产量高。