3-溴-1-茚酮 | 40774-41-2

• 分子结构分类: 有机化合物 - 苯类化合物 - 茚满类
• 中文名称: 3-溴-1-茚酮
• 中文别名: 3-溴-1-茚满酮
• 英文名称: 3-Bromoindan-1-one
• 英文别名: 3-bromo-1-indanone；3-bromo-2,3-dihydro-1H-inden-1-one；3-bromo-2,3-dihydroinden-1-one
• CAS: 40774-41-2
• 化学式: C₉H₇BrO
• 分子量: 211.058
• InChiKey: BSAIUCUXHVGXNK-UHFFFAOYSA-N

物化性质

• 熔点：
  54.5-55 °C(Solv: carbon tetrachloride (56-23-5))
• 沸点：
  271.3±39.0 °C(Predicted)
• 密度：
  1.631±0.06 g/cm3(Predicted)

计算性质

• 辛醇/水分配系数(LogP)：
  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：
  0.22
• 拓扑面积：
  17.1
• 氢给体数：
  0
• 氢受体数：
  1

安全信息

• 海关编码：
  2914700090
• 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：
  2-8°C

SDS

Material Safety Data Sheet

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Section 1. Identification of the substance
Product Name: 3-Bromo-1-indanone
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-Bromo-1-indanone
CAS number: 40774-41-2

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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: C9H7BrO
Molecular weight: 211.1

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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, 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：

  3-溴-1-茚酮 在 水 、 锌 作用下， 以 乙腈 为溶剂， 反应 6.0h， 以62%的产率得到1-茚酮
  参考文献：
  名称：

  使用D2O作为氘源对未活化的烷基卤进行脱卤氘化。

  摘要：

  已经开发出使用D 2 O或H 2 O作为氘或氢供体的锌与烷基卤化物的一般脱卤。该方法在温和的反应条件下为底物范围较宽的氘标记衍生物提供了一种高效经济的方法。机理研究表明，自由基过程涉及有机锌中间体的形成。有机锌中间体的容易水解为该转化提供了驱动力。

  DOI：

  10.1021/acs.joc.9b02026
• 作为产物：
  描述：

  1-茚酮 在 N-溴代丁二酰亚胺(NBS) 、 偶氮二异丁腈 作用下， 以 氯仿 为溶剂， 反应 3.0h， 以11 g的产率得到3-溴-1-茚酮
  参考文献：
  名称：

  Synthesis and Characterization of Impurities in Rasagiline: A Novel MAO-B Inhibitor in Parkinson’s Disease Therapy

  摘要：

  雷沙吉兰 (1) 被 FDA 批准作为治疗帕金森病的辅助疗法和单一疗法。在雷沙吉兰的工艺开发过程中，与最终 API 一起观察到的工艺相关杂质很少。这些杂质被鉴定为茚满醇(2)、茚满胺(3)、烯丙基(4)、酮(7)、其他异构体(6)和氯烯丙基(5,5a)杂质。目前的工作描述了所有这些杂质的合成，并通过 1H NMR 和质谱分析进行表征。

  DOI：

  10.14233/ajchem.2017.20505

文献信息

• 一种卤化物氢解的方法
  申请人：中国科学院上海有机化学研究所

  公开号：CN112142544A

  公开（公告）日：2020-12-29

  本发明公开了一种卤化物氢解的方法。本发明公开了一种如式I所示的化合物的制备方法，其包括以下步骤：在极性非质子型溶剂中，将锌、H2O与如式II所示的化合物进行如下所示的反应即可；其中，X为卤素；Y为‑CHR1R2或R3；所述的H2O中的氢以其天然丰度或非天然丰度的形式存在。该制备方法可以以简单温和的反应体系，简捷高效地实现卤化物氢解，而且还具有良好的官能团兼容性和底物普适性。
• Environmentally benign electrophilic and radical bromination ‘on water’: H2O2–HBr system versus N-bromosuccinimide
  作者：Ajda Podgoršek、Stojan Stavber、Marko Zupan、Jernej Iskra

  DOI：10.1016/j.tet.2009.03.034

  日期：2009.5

  brominating systems reveals the H2O2–HBr system to be more reactive than NBS for benzyl bromination and for the bromination of ketones, while for electrophilic aromatic substitution of methoxy-substituted tetralone it was higher for NBS. Also, higher yields of brominated aromatics were observed when using H2O2–HBr ‘on water’. Bromination of styrene reveals that not just the structure of the brominating reagent

  AH 2 O 2 -HBr系统和N-溴琥珀酰亚胺在水性介质中被用作亲电和自由基溴化的“绿色”方法。使用两种体系，在环境温度下且不添加金属或酸催化剂的情况下，几种活化和活化程度较低的芳族分子，苯基取代的酮和苯乙烯都可以在水中“有效”溴化，而各种未活化的甲苯则在存在可见光作为自由基活化剂。两种溴化系统的反应性和选择性的比较表明，H 2 O 2-HBr系统在苄基溴化和酮的溴化方面比NBS具有更高的反应性，而对于甲氧基取代的四氢萘酮的亲电芳香取代，NBS则更高。另外，使用H 2 O 2时，溴化芳烃的收率更高。–HBr“上水”。苯乙烯的溴化揭示了不仅溴化试剂的结构，而且反应条件：水量，有机溶剂，搅拌速率和界面结构也对定义溴化的结果（二溴化与溴羟基化）起着关键作用。此外，温和的反应条件，简单的分离程序，廉价的试剂以及对环境的较低影响，使得水性溴化方法可以替代其他已报道的溴化方法。
• A Scalable Procedure for Light-Induced Benzylic Brominations in Continuous Flow
  作者：David Cantillo、Oscar de Frutos、Juan A. Rincon、Carlos Mateos、C. Oliver Kappe

  DOI：10.1021/jo402409k

  日期：2014.1.3

  A continuous-flow protocol for the bromination of benzylic compounds with N-bromosuccinimide (NBS) is presented. The radical reactions were activated with a readily available household compact fluorescent lamp (CFL) using a simple flow reactor design based on transparent fluorinated ethylene polymer (FEP) tubing. All of the reactions were carried out using acetonitrile as the solvent, thus avoiding

  提出了使用N-溴代琥珀酰亚胺（NBS）溴化苄基化合物的连续流程方案。使用基于透明氟化乙烯聚合物（FEP）管的简单流式反应器设计，使用易于获得的家用紧凑型荧光灯（CFL）激活自由基反应。所有反应均使用乙腈作为溶剂进行，从而避免使用有害的氯化溶剂，例如CCl 4。对于每种底物，仅需要1.05当量的NBS即可将苄基原料完全转化为相应的溴化物。通过溴化一组包含不同官能团的19种底物，证明了该方法的一般特征。在所有情况下均获得了良好的分离效果。通过使反应器运行更长的时间（吞吐量为30 mmol h –1），可以很容易地将新的流量规程缩放到几克数量，这在分批光化学反应器中不容易实现。溴化方案也可以在更大流量的反应器中使用功率更大的灯以相同的效率执行。以苯丙酮溴化为模型，所需溴化物的产率为180 mmol h –1。
• KINASE INHIBITORS
  申请人：CHIESI FARMACEUTICI S.p.A.

  公开号：US20140364411A1

  公开（公告）日：2014-12-11

  Compounds of formula (I) described herein are p38 MAPK inhibitors and are useful as anti-inflammatory agents in the treatment of, inter alia, diseases of the respiratory tract.

  本文描述的化合物的化学式（I）是p38 MAPK抑制剂，可用作抗炎药物，用于治疗呼吸道疾病等疾病。
• Solvent free, light induced 1,2-bromine shift reaction of α-bromo ketones
  作者：Sejin An、Da Yoon Moon、Bong Ser Park

  DOI：10.1016/j.tet.2018.10.015

  日期：2018.11

  good product selectivity, which can be coined as 1,2-Br shift reaction. The product selectivity increases when the reaction is done in neat or solid state, where only the 1,2-Br shift product is formed in some cases. The reaction is suggested to proceed by CBr bond homolysis to give a radical pair, followed by disproportionation and conjugate addition of HBr to the α,β-unsaturated ketone intermediate

  α-溴苯乙酮在乙腈中的光解作用导致形成了具有良好产物选择性的β-溴苯乙酮，这可以被称为1,2-Br转移反应。当反应以纯净或固态进行时，产物选择性增加，在某些情况下，仅形成1,2-Br转移产物。建议反应由C进行Br键均质化，得到一个自由基对，然后歧化和将HBr共轭添加到α，β-不饱和酮中间体上。当不饱和中间体通过额外的共轭作用稳定时，反应在不饱和酮成为主要产物的阶段停止。由于该反应不使用挥发性有机溶剂和任何其他添加剂（例如酸，碱或金属催化剂等），因此该研究中描述的合成方法很好地适合于生态友好型有机合成。此外，该方法还适用于完美原子经济，不会产生任何副产品。合成方法应比其他替代方法有更多优势，以获得β-溴代羰基化合物。