3-氯喹啉 | 612-59-9

• 物质功能分类: 医药中间体 - 杂环化合物 - 喹啉类化合物
• 分子结构分类: 有机化合物 - 有机杂环化合物 - 喹啉及其衍生物
• 中文名称: 3-氯喹啉
• 英文名称: 3-chloroquinoline
• 英文别名: 3-Chlor-chinolin
• CAS: 612-59-9
• 化学式: C₉H₆ClN
• mdl: MFCD00234489
• 分子量: 163.606
• InChiKey: FLORQCMDMHHIHN-UHFFFAOYSA-N

物化性质

• 沸点：
  95 °C(Press: 2 Torr)
• 密度：
  1.270±0.06 g/cm3(Predicted)

计算性质

• 辛醇/水分配系数(LogP)：
  3.2
• 重原子数：
  11
• 可旋转键数：
  0
• 环数：
  2.0
• sp3杂化的碳原子比例：
  0.0
• 拓扑面积：
  12.9
• 氢给体数：
  0
• 氢受体数：
  1

安全信息

• 海关编码：
  2933499090
• 危险性防范说明：
  P261,P280,P305+P351+P338
• 危险性描述：
  H302,H315,H319,H332,H335
• 储存条件：
  室温

SDS

Material Safety Data Sheet

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Section 1. Identification of the substance
Product Name: 3-Chloroquinoline
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: 3-Chloroquinoline
CAS number: 612-59-9

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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.
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: C9H6ClN
Molecular weight: 163.6

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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 chloride.

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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：

  3-氯喹啉 在 三乙醇胺 、 水 作用下， 以 乙醇 为溶剂， 反应 24.0h， 以98%的产率得到喹啉
  参考文献：
  名称：

  可见光光催化水分解策略，用于芳基氯化物的可持续加氢/氘化

  摘要：

  摘要 氯化碳（C-Cl）键的加氢/氘化具有很高的意义，但在合成化学中仍然是一个巨大的挑战，特别是使用安全且廉价的氢供体。在本文中，提出了一种可见光光催化水分解加氢技术（WSHT）来原位生成用于控制芳基氯化物氢化的活性H物种（即H ad），而不是使用易燃的H 2。当使用重水分解系统时，我们可以在温和的条件下选择性地将氘安装在芳基氯化物的C-Cl位置，以可持续合成高价值的氘代化学品。亚微米级的Pd纳米片（Pd NSs）装饰的结晶聚合碳氮化物（CPCN）被开发为双功能光催化剂，而Pd NSs不仅充当CPCN的助催化剂，以生成和稳定H（D）物种，而且还起着重要的作用。 C-Cl键的顺序活化和加氢/氘化中的作用。本文重点介绍了可控制低成本芳基氯化物加氢/氘代的光催化WSHT，为高附加值化学物质的光合作用提供了一种有前途的方法，而不是产生了氢。

  DOI：

  10.1007/s11426-019-9672-8
• 作为产物：
  描述：

  3-氨基喹啉 在 盐酸 、 sodium nitrite 作用下， 生成 3-氯喹啉
  参考文献：
  名称：

  160. 3：4-二氢-4-甲基-3-氧代-4：7-菲咯啉的硝化产物

  摘要：

  DOI：

  10.1039/jr9580000825

文献信息

• Synthesis of <i>N</i>-(Hetero)aryl Carbamates via CuI/MNAO Catalyzed Cross-Coupling of (Hetero)aryl Halides with Potassium Cyanate in Alcohols
  作者：S. Vijay Kumar、Dawei Ma

  DOI：10.1021/acs.joc.7b03175

  日期：2018.3.2

  to N-(hetero)aryl carbamates was developed through CuI/MNAO [2-((2-methylnaphthalen-1-yl)amino)-2-oxoacetic acid] catalyzed cross-coupling of (hetero)aryl chlorides with potassium cyanate in alcohols at 120–130 °C. This method utilizes broadly available substrates to afford various N-(hetero)aryl carbamates in good to excellent yields. Moreover, (hetero)aryl bromides and (hetero)aryl iodides were also

  通过CuI / MNAO [2-（（（2-甲基萘-1-基）氨基）-2-氧乙酸]]催化（杂）芳基氯化物与钾的交叉偶联，开发了一种N-（杂）芳基氨基甲酸酯的有效途径醇中的氰酸盐在120–130°C下。该方法利用广泛可用的底物以良好至优异的产率提供各种N-（杂）芳基氨基甲酸酯。此外，（杂）芳基溴化物和（杂）芳基碘化物也以低催化剂负载量和相对较低的温度反应以提供N-（杂）芳基氨基甲酸酯。
• Sodium Butylated Hydroxytoluene (NaBHT) as a New and Efficient Hydride Source for Pd‐Catalysed Reduction Reactions
  作者：Sepideh Sharif、Michael J. Rodriguez、Yu Lu、Michael E. Kopach、David Mitchell、Howard N. Hunter、Michael G. Organ

  DOI：10.1002/chem.201902876

  日期：2019.10.11

  for the efficient arylation of various base-sensitive amines and (hetero)aryl halides has been found to have an unanticipated role as a hydride donor to reduce (hetero)aryl halides and allylic acetates. Mechanistic studies have uncovered that NaBHT, but not BHT, can deliver multiple hydrides through oxidation of the benzylic methyl group in NaBHT to the aldehyde. Further, performing the reduction with

  NaBHT（丁基羟基甲苯钠），一种受阻且可溶的碱，用于各种碱敏性胺和（杂）芳基卤化物的有效芳基化，已发现其作为氢化物供体的作用是出乎意料的，以减少（杂）芳基卤化物和乙酸烯丙酯。机理研究发现，NaBHT而非BHT可以通过将NaBHT中的苄基甲基氧化为醛来递送多种氢化物。此外，用NaBHT-d20进行还原已经表明，氧化还原活性苄基位置不是来自NaBHT的唯一氢化物供体位点，其中三分之一的氢化物可能来自叔丁基。在温和的条件下，还原效果很好，而且令人难以置信的是，在此过程中仅消耗了20％的NaBHT。其余的80％可以很容易地以纯净的形式回收再利用。这，
• Iodine catalyzed reduction of quinolines under mild reaction conditions
  作者：Chun-Hua Yang、Xixi Chen、Huimin Li、Wenbo Wei、Zhantao Yang、Junbiao Chang

  DOI：10.1039/c8cc04262d

  日期：——

  synthetically versatile tetrahydroquinoline molecules with I2 and HBpin is described. In the presence of iodine (20 mol%) as a catalyst, reduction of quinolines and other N-heteroarenes proceeded readily with hydroboranes as the reducing reagents. The broad functional-group tolerance, good yields and mild reaction conditions imply high practical utility.

  描述了用I 2和HBpin将喹啉还原为合成通用的四氢喹啉分子。在碘（20mol％）作为催化剂的存在下，以氢硼烷作为还原剂容易地进行喹啉和其他N-杂芳烃的还原。宽泛的官能团耐受性，良好的收率和温和的反应条件意味着较高的实用性。
• 催化氮杂环化合物的硼氢化和硅氢化反应的方法
  申请人：苏州大学

  公开号：CN111187287B

  公开（公告）日：2022-06-14

  本发明涉及一种催化氮杂环化合物的硼氢化和硅氢化反应的方法。本发明公开了一种式(1)或式(2)所示的金属锌配合物，并公开了式(1)或式(2)所示的金属锌配合物在催化氮杂环化合物的硼氢化或硅氢化反应中的应用。本发明提供了一种催化氮杂环化合物选择性生成1,2‑加成硼氢化或硅氢化产物的方法，操作简单，反应条件温和，且底物适用性广。
• CuI/Oxalamide Catalyzed Couplings of (Hetero)aryl Chlorides and Phenols for Diaryl Ether Formation
  作者：Mengyang Fan、Wei Zhou、Yongwen Jiang、Dawei Ma

  DOI：10.1002/anie.201601035

  日期：2016.5.17

  Couplings between (hetero)aryl chlorides and phenols can be effectively promoted by CuI in combination with an N‐aryl‐N′‐alkyl‐substituted oxalamide ligand to proceed smoothly at 120 °C. For this process, N‐aryl‐N′‐alkyl‐substituted oxalamides are more effective ligands than bis(N‐aryl)‐substituted oxalamides. A wide range of electron‐rich and electron‐poor aryl and heteroaryl chlorides gave the corresponding

  CuI与N-芳基-N'-烷基取代的草酰胺配体结合可以有效地促进（杂）芳基氯与苯酚之间的偶联，使其在120°C下顺利进行。在此过程中，N-芳基-N'-烷基取代的草酰胺比双（N-芳基）-取代的草酰胺更有效。各种各样的富电子和贫电子的芳基和杂芳基氯化物都能以良好的收率得到相应的偶联产物。富电子酚和有限范围的贫电子酚实现了令人满意的转化。低至1.5 mol％的催化剂和配体负载量足以满足其中某些反应的放大规模。