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35篇引用文献 COA COA
    级别和纯度:
  • ≥98%
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货号 (SKU) 包装规格 是否现货 价格 数量
P106993-250mg
 250mg 现货 Stock Image
P106993-1g
 1g 现货 Stock Image
P106993-5g
 5g 现货 Stock Image
P106993-25g
 25g 现货 Stock Image
P106993-100g
 100g 期货 Stock Image
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Biochemical Assay Reagents (972) 六元碳环化合物 (251) 苝类 (17)
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基本描述

别名 二萘嵌苯
英文别名 EINECS 205-900-9 | UNII-5QD5427UN7 | FT-0631865 | Perylene, analytical standard | alpha-Perylene | AMY13456 | MFCD00004142 | Perylene, sublimed grade, >=99.5% | .alpha.-Perylene | CCRIS 1231 | P1629 | 5QD5427UN7 | CHEBI:29861 | HY-W090294 | P-2100 | Peryl
规格或纯度 ≥98%
英文名称 Perylene
应用 有机合成的中间体 光电材料 光电池材料。
储存温度 充氩
运输条件 常规运输
产品介绍

不溶于水,易溶于氯仿、二硫化碳、丙酮,溶于苯、甲苯,微溶于乙醇、乙醚,极微溶于石油醚。有机合成的中间体 光电材料 光电池材料。

The polycyclic aromatic hydrocarbon perylene is a hydrophobic fluorescent probe. It is highly photostable and displays blue fluorescence. Perylene is used as a dye for spectroscopic studies
Perylene has been used as a standard along with a mixture of polycyclic aromatic hydrocarbons (PAHs) to determine the spatial distribution and sources of PAHs in surface sediments of rivers
纯度 ≥98%

作用机制

作用机制 Action Type target ID Target Name Target Type Target Organism Binding Site Name 参考文献

名称和识别符

EC号 205-900-9
分子类型 小分子
IIUPAC Name perylene
INCHI 1S/C20H12/c1-5-13-6-2-11-17-18-12-4-8-14-7-3-10-16(20(14)18)15(9-1)19(13)17/h1-12H
InChi Key CSHWQDPOILHKBI-UHFFFAOYSA-N
Smiles C1=CC2=C3C(=C1)C4=CC=CC5=C4C(=CC=C5)C3=CC=C2
Isomeric SMILES C1=CC2=C3C(=C1)C4=CC=CC5=C4C(=CC=C5)C3=CC=C2
UN Number 2811
分子量 252.31
Beilstein号 1911335
Reaxy-Rn 1911335
Reaxys-RN link address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=1911335&ln=

化学和物理性质

溶解性 Soluble in chloroform, carbon disulfide and benzene. Slightly soluble in alcohol and ethyl ether. Insoluble in water.
密度 1.286
敏感性 对空气敏感
熔点 277-280°C
分子量 252.300 g/mol
XLogP3 5.800
氢键供体数Hydrogen Bond Donor Count 0
氢键受体数Hydrogen Bond Acceptor Count 0
可旋转键计数Rotatable Bond Count 0
精确质量Exact Mass 252.094 Da
单同位素质量Monoisotopic Mass 252.094 Da
拓扑极表面积Topological Polar Surface Area 0.000 Ų
重原子数Heavy Atom Count 20
形式电荷Formal Charge 0
复杂度Complexity 304.000
同位素原子数Isotope Atom Count 0
定义的原子立体中心计数Defined Atom Stereocenter Count 0
未定义的原子立体中心计数Undefined Atom Stereocenter Count 0
定义的键立体中心计数Defined Bond Stereocenter Count 0
未定义的键立体中心计数Undefined Bond Stereocenter Count 0
所有立体化学键的总数The total count of all stereochemical bonds 0
共价键合单元计数Covalently-Bonded Unit Count 1

安全和危险性(GHS)

信号词 Warning
危险声明

H315: 引起皮肤刺激

H319: 引起严重眼睛刺激

H335: 可能引起呼吸道刺激

H373: 通过长时间或反复暴露对器官造成损害

H336: 可能引起嗜睡或头晕

H350: 可能导致癌症
预防措施声明

P261: 避免吸入灰尘/烟雾/气体/雾/蒸汽/喷雾

P305+P351+P338: 如进入眼睛:用水小心冲洗几分钟。如戴隐形眼镜并可方便地取出,取出隐形眼镜。继续冲洗。

P281: 根据需要使用个人防护设备。
WGK Germany 3
RTECS SE3794000
Merck Index 7184
个人防护装备 Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter

质检证书(CoA,COO,BSE/TSE 和分析图谱)

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找到20个结果

批号(Lot Number) 证书类型 货号
H2117343 分析证书 P106993
F2520043 分析证书 P106993
C2517547 分析证书 P106993
C2517549 分析证书 P106993
C2524557 分析证书 P106993
C2524558 分析证书 P106993
E1702020 分析证书 P106993
D2422103 分析证书 P106993
G2401040 分析证书 P106993
H2526102 分析证书 P106993
K2429008 分析证书 P106993
B2309380 分析证书 P106993
B2309487 分析证书 P106993
B2309916 分析证书 P106993
B2309934 分析证书 P106993
B2309942 分析证书 P106993
B2309945 分析证书 P106993
B2309979 分析证书 P106993
H2317074 分析证书 P106993
C2215276 分析证书 P106993

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此产品的引用文献

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引用文献

1. Yajuan Sun, Chenglei Wang, Hang Jiang, Bingtian Zhao, Cheng Yang, Yunxing Li.  (2024)  Biocompatible oil-in-water-in-oil double emulsion stabilized synergistically by phytosterol/chitosan complex particle and gelatin.  FOOD HYDROCOLLOIDS,  147  (109419).  [10.1016/j.foodhyd.2023.109419]
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3. Chen Wu, Jieming Hu, Hanxian Chen, Chengyi Zhang, Mingli Xu, Lin Zhuang, Xinping Ai, Jiangfeng Qian.  (2023)  Chemical lithiation methodology enabled Prussian blue as a Li-rich cathode material for secondary Li-ion batteries.  Energy Storage Materials,  60  (102803).  [10.1016/j.ensm.2023.102803]
4. Fengjian Chu, Gaosheng Zhao, Wangyu Li, Wei Wei, Weiwei Chen, Zihan Ma, Zhan Gao, Nazifi Sani Shuaibu, Jikui Luo, Bingwen Yu, Hongru Feng, Yuanjiang Pan, Xiaozhi Wang.  (2023)  Catalyst-Free Oxidation Reactions in a Microwave Plasma Torch-Based Ion/Molecular Reactor: An Approach for Predicting the Atmospheric Oxidation of Pollutants.  ANALYTICAL CHEMISTRY,  95  (3): (2004–2010).  [PMID:36562720] [10.1021/acs.analchem.2c04469]
5. Chenglei Wang, Hang Jiang, Yunxing Li.  (2023)  Water-in-oil Pickering emulsions stabilized by phytosterol/chitosan complex particles.  COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS,  657  (130489).  [10.1016/j.colsurfa.2022.130489]
6. Hang Jiang, Xiaofeng Hu, Weijie Jiang, Xin Guan, Yunxing Li, To Ngai.  (2022)  Water-in-Oil Pickering Emulsions Stabilized by Hydrophobized Protein Microspheres.  LANGMUIR,  38  (40): (12273–12280).  [PMID:36172706] [10.1021/acs.langmuir.2c01904]
7. Tuo Di, Yujie Lei, Zhaohui Meng, Yunxia Xia, Xingyu Ma, Heng Jiang, Tiesheng Li, Tiansheng Zhao, Lei Li.  (2022)  Preparation of asphalt-based microporous organic polymers with sulfur bridges.  Polymer Chemistry,  13  (41): (5889-5896).  [10.1039/D2PY00971D]
8. Le Cheng, Tinghao Ma, Binghao Zhang, Libei Huang, Weihua Guo, Feijun Hu, He Zhu, Zhaoyu Wang, Tingting Zheng, Deng-Tao Yang, Chi-Kit Siu, Qi Liu, Yang Ren, Chuan Xia, Ben Zhong Tang, Ruquan Ye.  (2022)  Steering the Topological Defects in Amorphous Laser-Induced Graphene for Direct Nitrate-to-Ammonia Electroreduction.  ACS Catalysis,  12  (19): (11639–11650).  [10.1021/acscatal.2c03219]
9. Qin He, Fangdi Dong, Longjiang Xing, Huahong He, Xiaoping Chen, Huaqian Wang, Shaomin Ji, Yanping Huo.  (2022)  The effects of 1-and 3-positions substitutions on the photophysical properties of perylene and its application in thiol fluorescent probes.  TETRAHEDRON,  104  (132565).  [10.1016/j.tet.2021.132565]
10. Yang Wang, Jianqiang Wang, Yajie Ding, Shouyong Zhou, Fu Liu.  (2021)  In situ generated micro-bubbles enhanced membrane antifouling for separation of oil-in-water emulsion.  JOURNAL OF MEMBRANE SCIENCE,  621  (119005).  [10.1016/j.memsci.2020.119005]
11. Yaxiong Wei, Min Zheng, Lin Chen, Xiaoguo Zhou, Shilin Liu.  (2019)  Near-infrared to violet triplet–triplet annihilation fluorescence upconversion of Os(II) complexes by strong spin-forbidden transition.  DALTON TRANSACTIONS,  48  (31): (11763-11771).  [PMID:31298244] [10.1039/C9DT02276G]
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13. Yaxiong Wei, Min Zheng, Qiaohui Zhou, Xiaoguo Zhou, Shilin Liu.  (2018)  Application of a bodipy–C70 dyad in triplet–triplet annihilation upconversion of perylene as a metal-free photosensitizer.  ORGANIC & BIOMOLECULAR CHEMISTRY,  16  (31): (5598-5608).  [PMID:30027981] [10.1039/C8OB01410H]
14. Ning Li, Di Wu, Na Hu, Guangsen Fan, Xiuting Li, Jing Sun, Xuefeng Chen, Yourui Suo, Guoliang Li, Yongning Wu.  (2018)  Effective Enrichment and Detection of Trace Polycyclic Aromatic Hydrocarbons in Food Samples based on Magnetic Covalent Organic Framework Hybrid Microspheres.  JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY,  66  (13): (3572–3580).  [PMID:29554797] [10.1021/acs.jafc.8b00869]
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19. Shaojie Jia, Dan Li, Essy Kouadio Fodjo, Hu Xu, Wei Deng, Yue Wu, Yuhong Wang.  (2016)  Simultaneous preconcentration and ultrasensitive on-site SERS detection of polycyclic aromatic hydrocarbons in seawater using hexanethiol-modified silver decorated graphene nanomaterials.  Analytical Methods,  (42): (7587-7596).  [10.1039/C6AY02293F]
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22. Cheng Liu, Baojun Li.  (2015)  Multiple dyes containing luminescent solar concentrators with enhanced absorption and efficiency.  Journal of Optics,  17  (2): (25901).  [10.1088/2040-8978/17/2/025901]
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