基本描述

别名	2-乙酰吡啶 \| 甲基-2-吡啶基酮 \| 2-乙酰基吡啶
英文别名	UNII-629O10UI3L \| 2-Acetylpyridine, analytical standard \| Q4596853 \| 1-pyridin-2-ylethanone \| 1-Pyridin-2-yl-ethanone \| A0111 \| NCGC00091706-01 \| 1-(2-Pyridinyl)ethanone, 9CI \| 1-(pyridin-2-yl)ethanone \| A802529 \| HMS2268O15 \| 1-(2-Pyridinyl)ethanone \| 1-
规格或纯度	≥98%
英文名称	2-Acetylpyridine
储存温度	充氩
运输条件	常规运输
产品介绍	水中溶解度:200 g/L (20°C)，和乙醇混溶。 2-乙酰基吡啶可用于合成： • 近红外荧光探针，用于监测活细胞pH变化。 • 生物活性配体，用于制备各种金属配合物，包括Co(II)、Ni(II)、Cu(II)和Zn(II)。 • 一种水溶性时间门控发光探针，用于单线态氧检测。 • 2-乙酰基吡啶缩氨基硫脲，一种有效的铁螯合剂和抗增殖剂。 2-Acetylpyridine can be used in the synthesis of: • A near-infrared fluorescent probe for monitoring pH changes in living cells. • Biologically active ligands for preparing various metal complexes including Co(II), Ni(II), Cu(II) and Zn(II). • A water-soluble, time-gated luminescence probe for singlet oxygen detection. • 2-Acetylpyridine thiosemicarbazones are potent iron chelators and antiproliferative agents.

关联靶点（人）

NR3C1 Tclin Glucocorticoid receptor (14987 活性数据)

点击查看靶蛋白信息： NR3C1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

MMP3 Tchem Matrix metalloproteinase 3 (3433 活性数据)

点击查看靶蛋白信息： MMP3

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

ALDH1A1 Tchem Aldehyde dehydrogenase 1A1 (77053 活性数据)

点击查看靶蛋白信息： ALDH1A1

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

BAZ2B Tchem Bromodomain adjacent to zinc finger domain protein 2B (56204 活性数据)

点击查看靶蛋白信息： BAZ2B

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

关联靶点（其它种属）

ampC Beta-lactamase AmpC (62480 活性数据)

点击查看靶蛋白信息： ampC

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Plasmodium falciparum (966862 活性数据)

点击查看此靶标相关信息

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

Gabrp GABA-A receptor; anion channel (5731 活性数据)

点击查看靶蛋白信息： Gabrp

活性类型	Relation	Activity value	Units	Action Type	期刊	PubMed Id	doi	Assay Aladdin ID

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

PubChem SID	488181965
EC号	214-355-6
分子类型	小分子
IUPAC Name	1-pyridin-2-ylethanone
INCHI	InChI=1S/C7H7NO/c1-6(9)7-4-2-3-5-8-7/h2-5H,1H3
InChi Key	AJKVQEKCUACUMD-UHFFFAOYSA-N
Canonical SMILES	CC(=O)C1=CC=CC=N1
Isomeric SMILES	CC(=O)C1=CC=CC=N1
WGK Germany	3
PubChem CID	14286
分子量	121.14
Beilstein号	107759

化学和物理性质

溶解性	Soluble in water (18.2 g/100g @ 25C). Soluble in and acetate. Slightly soluble in carbon tetrachloride.
密度	1.08
敏感性	对光线敏感 ;对空气敏感
折光率	1.52-1.522
闪点(℉)	76°C
闪点(℃)	76°C
沸点	188-189°C
熔点	8-10°C
分子量	121.140 g/mol
XLogP3	0.900
氢键供体数Hydrogen Bond Donor Count	0
氢键受体数Hydrogen Bond Acceptor Count	2
可旋转键计数Rotatable Bond Count	1
精确质量Exact Mass	121.053 Da
单同位素质量Monoisotopic Mass	121.053 Da
拓扑极表面积Topological Polar Surface Area	30.000 Å²
重原子数Heavy Atom Count	9
形式电荷Formal Charge	0
复杂度Complexity	111.000
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）

象形图	GHS07
信号词	Warning
危险声明	H315: 引起皮肤刺激 H227: 可燃液体
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。 P280: 戴防护手套/穿防护服/戴防护眼罩/戴防护面具。 P302+P352: 如皮肤沾染：用水充分清洗。 P321: 特殊处理（请参阅此标签上的...）。 P405: 密闭存放 P501: 将内容物/容器处理到。。。 P264: 处理后要彻底洗手。 P271: 仅在室外或通风良好的地方使用。 P304+P340: 如误吸入：将人转移到空气新鲜处，保持呼吸舒适体位。 P403+P233: 存放在通风良好的地方。保持容器密闭。 P362+P364: 脱掉沾污的衣服，清洗后方可重新使用。 P264+P265: 处理后彻底洗手[和…]。不要触摸眼睛。 P337+P317: 如果眼睛刺激持续：寻求医疗帮助。 P332+P317: 如果出现皮肤刺激：请寻求医疗帮助。 P319: 如果你感到不适，请寻求医疗帮助。
WGK Germany	3
个人防护装备	Eyeshields,full-face respirator (US),Gloves,multi-purpose combination respirator cartridge (US),type ABEK (EN14387) respirator filter

SDS英文版

质量标准

Density (20°C)	1.082-1.085
Purity(GC)	98-100（%）
Refractive index n20/D	1.52-1.525
Appearance（A106232)	Colorless to Yellow Liquid
Proton NMR spectrum	Conforms to Structure

质量标准

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批号(Lot Number)	证书类型	日期	货号
H2109054	分析证书	25-05-12	A106232
H2109056	分析证书	25-05-12	A106232
H2109060	分析证书	25-05-12	A106232
D2403676	分析证书	24-03-20	A106232
D2403675	分析证书	24-03-20	A106232
D2403677	分析证书	24-03-20	A106232
D2403678	分析证书	24-03-20	A106232
D2403680	分析证书	24-03-20	A106232
E2211222	分析证书	22-03-27	A106232
E2211230	分析证书	22-03-27	A106232
E2211238	分析证书	22-03-27	A106232
E2211243	分析证书	22-03-27	A106232
E2211275	分析证书	22-03-27	A106232
K2203178	分析证书	22-03-27	A106232
B2324119	分析证书	22-03-27	A106232
G2307496	分析证书	22-03-27	A106232
J2431127	分析证书	22-03-27	A106232
B2310380	分析证书	21-06-10	A106232
B2324092	分析证书	21-06-10	A106232

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此产品的引用文献

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1. Xiaofang Fu, Zhuohui Zhang, Zhenhu Cao, Alexandr Alexandrovich Rogachev, Maxim Anatolievich Yarmolenko, Tao Chen, Hongtao Cao, Hongliang Zhang. (2023) Mechanistic Insights into Anion-Induced Electrochromism of Ru(II)-Based Metallo-Supramolecular Polymer. Polymers, 15 (24): (4735). [PMID:38139986] [10.3390/polym15244735]
2. An Zhidong, Yang Piaoping, Duan Delong, Li Jiang, Wan Tong, Kong Yue, Caratzoulas Stavros, Xiang Shuting, Liu Jiaxing, Huang Lei, Frenkel Anatoly I., Jiang Yuan-Ye, Long Ran, Li Zhenxing, Vlachos Dionisios G.. (2023) Highly active, ultra-low loading single-atom iron catalysts for catalytic transfer hydrogenation. Nature Communications, 14 (1): (1-12). [PMID:37863924] [10.1038/s41467-023-42337-9]
3. Tang Mingqiang, Chen Weijie, Liu Zewei, Pang Jun, Li Chaoping, Liu Sijie, Tan Rong. (2023) Zinc(terpyridine)-Incorporated Metal–Organic Frameworks Enabled Photocatalytic Oxidative Coupling of Amines Under Visible Light in Atmospheric Air. CATALYSIS LETTERS, (1-13). [10.1007/s10562-023-04386-z]
4. Xiaofeng Cui, Xueting Wang, Lijun Zhao, Jixin Wang, Tingting Kong, Yujie Xiong. (2024) Bridging molecular photosensitizer and catalyst on carbon nanotubes toward enhanced selectivity and durability for CO2 photoreduction. Journal of Environmental Sciences, 140 (157). [PMID:38331497] [10.1016/j.jes.2023.06.022]
5. Shiyou Liu, Congyuan Wei, Han Wang, Weilong Yang, Jian Zhang, Zhuanpei Wang, Weili Zhao, Pooi See Lee, Guofa Cai. (2023) Processable nanoarchitectonics of two-dimensional metallo-supramolecular polymer for electrochromic energy storage devices with high coloration efficiency and stability. Nano Energy, 110 (108337). [10.1016/j.nanoen.2023.108337]
6. Qing Jin, Youlin Xiang, Lu Gan. (2023) Real-Time Degradation of Indoor Formaldehyde Released from Actual Particle Board by Heterostructured g-C3N4/TiO2 Photocatalysts under Visible Light. Catalysts, 13 (2): (238). [10.3390/catal13020238]
7. Maowa Zhang, Haiqing Hao, Chenxi Shi, Chongchong Chen, Guoli Zhou, Jingtao Wang, Yijun Cao, Xiangke Han. (2023) Bis-terpyridine imprinted nanocage in the confined two-dimensional lamellar membrane for selective adsorption of Nd(III). SEPARATION AND PURIFICATION TECHNOLOGY, 310 (123095). [10.1016/j.seppur.2023.123095]
8. Lina Guo, Xiaochao Chen, Ruijun Xie, Limin Han, Ning Zhu. (2023) 4-Phenyl-2-(2′-pyridyl) quinoline acts as a highly sensitive fluorescent probe for Fe2+ and Fe3+ ions and exhibits reversible photoelectric stimulation response. JOURNAL OF MOLECULAR STRUCTURE, 1275 (134615). [10.1016/j.molstruc.2022.134615]
9. Shuo Xiang, Arshad Khan, Zeyan Zhou, Bingling He, Xin Wang, Binju Wang, Qunhong Weng. (2022) Photocatalytic hydrogen evolution from water based on Zn–terpyridine 2D coordination nanosheets. Journal of Materials Chemistry A, 10 (45): (24345-24352). [10.1039/D2TA05114A]
10. Haiwen Li, Junhu Xin, Yuhang Xue, Cunde Wang. (2022) DBU-Mediated Domino Annulation Reaction of 2-Amino-4H-chromen-4-ones and Aromatic Aldehydes for Synthesis of Polysubstituted 3-Hydroxy-5H-chromeno[2,3-b]pyridinones. JOURNAL OF ORGANIC CHEMISTRY, 87 (17): (11857–11864). [PMID:35960790] [10.1021/acs.joc.2c01152]
11. Caixing Pan, Heping Cui, Khizar Hayat, Xiaoming Zhang, Chi-Tang Ho. (2022) Exogenous glutamic acid effectively involved in N-(1-deoxy-D-galulos-1-yl)-glutamic acid degradation for simultaneous improvement of both milk-like and baking flavor. Food Bioscience, 47 (101697). [10.1016/j.fbio.2022.101697]
12. Guo Lina, Yuanyuan Gao, Limin Han. (2021) Detecting Cu2+ and H2O in methanol based on aggregation-induced emission fluorescent enhancement. JOURNAL OF COORDINATION CHEMISTRY, [10.1080/00958972.2021.1897114]
13. Zhang Na, Wu Yansong, Li Yuying, Chen Liduo, Zhang Mingshui, Wang Jun. (2022) Star iminopyridyl iron, cobalt and nickel complexes: synthesis, molecular structures, and evaluation as ethylene oligomerization catalysts. POLYMER BULLETIN, 79 (6): (4219-4231). [10.1007/s00289-021-03697-8]
14. Zhong Shaofeng. (2020) Preparation of chitosan/poly(methacrylic acid) supported palladium nanofibers as an efficient and stable catalyst for Heck reaction. JOURNAL OF CHEMICAL SCIENCES, 132 (1): (1-9). [10.1007/s12039-020-01805-1]
15. Zhan Zhou, Haixia Wu, Feifei Li, Lufang Ma, Xiaoguang Qiao. (2020) Hypochlorite responsive ratiometric fluorescent switch and logic gates based on lanthanide functionalized polymer nanosphere. DYES AND PIGMENTS, 174 (108033). [10.1016/j.dyepig.2019.108033]
16. Yi-Gang Wu, Dong-Bo Wang, Juan-Juan Hu, Xue-Qing Song, Cheng-Zhi Xie, Zhong-Ying Ma, Jing-Yuan Xu. (2019) An iron(III) complex selectively mediated cancer cell death: crystal structure, DNA targeting and in vitro antitumor activities. Inorganic Chemistry Frontiers, 6 (4): (1040-1049). [10.1039/C9QI00030E]
17. Xuewen Zhuang, Wenguang Wang, Jingcheng Hao. (2018) Synthesis of organic-inorganic hybrid compounds and their self-assembled behavior in different solvents. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 519 (81). [PMID:29482099] [10.1016/j.jcis.2018.02.044]
18. Zhichao Liu, Shengnan Wang, Wanying Li, Yang Tian. (2018) Bioimaging and Biosensing of Ferrous Ion in Neurons and HepG2 Cells upon Oxidative Stress. ANALYTICAL CHEMISTRY, 90 (4): (2816–2825). [PMID:29376642] [10.1021/acs.analchem.7b04934]
19. Xiuquan Jia, Jiping Ma, Min Wang, Xiaofang Li, Jin Gao, Jie Xu. (2016) Alkali α-MnO2/NaxMnO2 collaboratively catalyzed ammoxidation–Pinner tandem reaction of aldehydes. Catalysis Science & Technology, 6 (20): (7429-7436). [10.1039/C6CY00874G]
20. Rao Tongde, Liang Lijiao, Zhang Liying. (2013) Ratiometric Fluorescence Recognition for Pyrophosphate on the Basis of Terpyridine Derivative. ANALYTICAL SCIENCES, 29 (12): (1165-1169). [PMID:24334982] [10.2116/analsci.29.1165]
21. Li Jiao Liang,Xi Juan Zhao,Cheng Zhi Huang. (2011-12-21) Zn(II) complex of terpyridine for the highly selective fluorescent recognition of pyrophosphate.. The Analyst, 137 ((4)): (953-958). [PMID:22183691]

参考文献

1. Joëlle Akl,Isabelle Sasaki,Pascal G Lacroix,Isabelle Malfant,Sonia Mallet-Ladeira,Patricia Vicendo,Norberto Farfán,Rosa Santillan. (2014-07-12) Comparative photo-release of nitric oxide from isomers of substituted terpyridinenitrosylruthenium(II) complexes: experimental and computational investigations.. Dalton transactions (Cambridge, England : 2003), 43 ((33)): (12721-12733). [PMID:25011547]
2. Subhashree P Dash,Alok K Panda,Sagarika Pasayat,Sudarshana Majumder,Ashis Biswas,Werner Kaminsky,Subhadip Mukhopadhyay,Sujit K Bhutia,Rupam Dinda. (2015-01-13) Evaluation of the cell cytotoxicity and DNA/BSA binding and cleavage activity of some dioxidovanadium(V) complexes containing aroylhydrazones.. Journal of inorganic biochemistry, 144 (1-12). [PMID:25575303]
3. Cléia Justino Nunes,Beatriz Essenfelder Borges,Lia Sumie Nakao,Eugénie Peyroux,Renaud Hardré,Bruno Faure,Marius Réglier,Michel Giorgi,Marcela Bach Prieto,Carla Columbano Oliveira,Ana M Da Costa Ferreira. (2015-05-30) Reactivity of dinuclear copper(II) complexes towards melanoma cells: Correlation with its stability, tyrosinase mimicking and nuclease activity.. Journal of inorganic biochemistry, 149 (49-58). [PMID:26021698]
4. Selvam Amudhan Senthan,Vedamanickam Alexander. (2015-07-30) Synthesis, luminescence, and electrochemical studies of a new series of octanuclear ruthenium(II) complexes of tolylterpyridine appended calixresorcarenes.. Dalton transactions (Cambridge, England : 2003), 44 ((33)): (14813-14822). [PMID:26222317]
5. Masazumi Tamura,Ryota Kishi,Yoshinao Nakagawa,Keiichi Tomishige. (2015-10-06) Self-assembled hybrid metal oxide base catalysts prepared by simply mixing with organic modifiers.. Nature communications, 6 (8580-8580). [PMID:26436638]
6. Xiaofang Fu, Zhuohui Zhang, Zhenhu Cao, Alexandr Alexandrovich Rogachev, Maxim Anatolievich Yarmolenko, Tao Chen, Hongtao Cao, Hongliang Zhang. (2023) Mechanistic Insights into Anion-Induced Electrochromism of Ru(II)-Based Metallo-Supramolecular Polymer. Polymers, 15 (24): (4735). [PMID:38139986] [10.3390/polym15244735]
7. An Zhidong, Yang Piaoping, Duan Delong, Li Jiang, Wan Tong, Kong Yue, Caratzoulas Stavros, Xiang Shuting, Liu Jiaxing, Huang Lei, Frenkel Anatoly I., Jiang Yuan-Ye, Long Ran, Li Zhenxing, Vlachos Dionisios G.. (2023) Highly active, ultra-low loading single-atom iron catalysts for catalytic transfer hydrogenation. Nature Communications, 14 (1): (1-12). [PMID:37863924] [10.1038/s41467-023-42337-9]
8. Tang Mingqiang, Chen Weijie, Liu Zewei, Pang Jun, Li Chaoping, Liu Sijie, Tan Rong. (2023) Zinc(terpyridine)-Incorporated Metal–Organic Frameworks Enabled Photocatalytic Oxidative Coupling of Amines Under Visible Light in Atmospheric Air. CATALYSIS LETTERS, (1-13). [10.1007/s10562-023-04386-z]
9. Xiaofeng Cui, Xueting Wang, Lijun Zhao, Jixin Wang, Tingting Kong, Yujie Xiong. (2024) Bridging molecular photosensitizer and catalyst on carbon nanotubes toward enhanced selectivity and durability for CO2 photoreduction. Journal of Environmental Sciences, 140 (157). [PMID:38331497] [10.1016/j.jes.2023.06.022]
10. Shiyou Liu, Congyuan Wei, Han Wang, Weilong Yang, Jian Zhang, Zhuanpei Wang, Weili Zhao, Pooi See Lee, Guofa Cai. (2023) Processable nanoarchitectonics of two-dimensional metallo-supramolecular polymer for electrochromic energy storage devices with high coloration efficiency and stability. Nano Energy, 110 (108337). [10.1016/j.nanoen.2023.108337]
11. Qing Jin, Youlin Xiang, Lu Gan. (2023) Real-Time Degradation of Indoor Formaldehyde Released from Actual Particle Board by Heterostructured g-C3N4/TiO2 Photocatalysts under Visible Light. Catalysts, 13 (2): (238). [10.3390/catal13020238]
12. Maowa Zhang, Haiqing Hao, Chenxi Shi, Chongchong Chen, Guoli Zhou, Jingtao Wang, Yijun Cao, Xiangke Han. (2023) Bis-terpyridine imprinted nanocage in the confined two-dimensional lamellar membrane for selective adsorption of Nd(III). SEPARATION AND PURIFICATION TECHNOLOGY, 310 (123095). [10.1016/j.seppur.2023.123095]
13. Lina Guo, Xiaochao Chen, Ruijun Xie, Limin Han, Ning Zhu. (2023) 4-Phenyl-2-(2′-pyridyl) quinoline acts as a highly sensitive fluorescent probe for Fe2+ and Fe3+ ions and exhibits reversible photoelectric stimulation response. JOURNAL OF MOLECULAR STRUCTURE, 1275 (134615). [10.1016/j.molstruc.2022.134615]
14. Shuo Xiang, Arshad Khan, Zeyan Zhou, Bingling He, Xin Wang, Binju Wang, Qunhong Weng. (2022) Photocatalytic hydrogen evolution from water based on Zn–terpyridine 2D coordination nanosheets. Journal of Materials Chemistry A, 10 (45): (24345-24352). [10.1039/D2TA05114A]
15. Haiwen Li, Junhu Xin, Yuhang Xue, Cunde Wang. (2022) DBU-Mediated Domino Annulation Reaction of 2-Amino-4H-chromen-4-ones and Aromatic Aldehydes for Synthesis of Polysubstituted 3-Hydroxy-5H-chromeno[2,3-b]pyridinones. JOURNAL OF ORGANIC CHEMISTRY, 87 (17): (11857–11864). [PMID:35960790] [10.1021/acs.joc.2c01152]
16. Caixing Pan, Heping Cui, Khizar Hayat, Xiaoming Zhang, Chi-Tang Ho. (2022) Exogenous glutamic acid effectively involved in N-(1-deoxy-D-galulos-1-yl)-glutamic acid degradation for simultaneous improvement of both milk-like and baking flavor. Food Bioscience, 47 (101697). [10.1016/j.fbio.2022.101697]
17. Guo Lina, Yuanyuan Gao, Limin Han. (2021) Detecting Cu2+ and H2O in methanol based on aggregation-induced emission fluorescent enhancement. JOURNAL OF COORDINATION CHEMISTRY, [10.1080/00958972.2021.1897114]
18. Zhang Na, Wu Yansong, Li Yuying, Chen Liduo, Zhang Mingshui, Wang Jun. (2022) Star iminopyridyl iron, cobalt and nickel complexes: synthesis, molecular structures, and evaluation as ethylene oligomerization catalysts. POLYMER BULLETIN, 79 (6): (4219-4231). [10.1007/s00289-021-03697-8]
19. Zhong Shaofeng. (2020) Preparation of chitosan/poly(methacrylic acid) supported palladium nanofibers as an efficient and stable catalyst for Heck reaction. JOURNAL OF CHEMICAL SCIENCES, 132 (1): (1-9). [10.1007/s12039-020-01805-1]
20. Zhan Zhou, Haixia Wu, Feifei Li, Lufang Ma, Xiaoguang Qiao. (2020) Hypochlorite responsive ratiometric fluorescent switch and logic gates based on lanthanide functionalized polymer nanosphere. DYES AND PIGMENTS, 174 (108033). [10.1016/j.dyepig.2019.108033]
21. Yi-Gang Wu, Dong-Bo Wang, Juan-Juan Hu, Xue-Qing Song, Cheng-Zhi Xie, Zhong-Ying Ma, Jing-Yuan Xu. (2019) An iron(III) complex selectively mediated cancer cell death: crystal structure, DNA targeting and in vitro antitumor activities. Inorganic Chemistry Frontiers, 6 (4): (1040-1049). [10.1039/C9QI00030E]
22. Xuewen Zhuang, Wenguang Wang, Jingcheng Hao. (2018) Synthesis of organic-inorganic hybrid compounds and their self-assembled behavior in different solvents. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 519 (81). [PMID:29482099] [10.1016/j.jcis.2018.02.044]
23. Zhichao Liu, Shengnan Wang, Wanying Li, Yang Tian. (2018) Bioimaging and Biosensing of Ferrous Ion in Neurons and HepG2 Cells upon Oxidative Stress. ANALYTICAL CHEMISTRY, 90 (4): (2816–2825). [PMID:29376642] [10.1021/acs.analchem.7b04934]
24. Xiuquan Jia, Jiping Ma, Min Wang, Xiaofang Li, Jin Gao, Jie Xu. (2016) Alkali α-MnO2/NaxMnO2 collaboratively catalyzed ammoxidation–Pinner tandem reaction of aldehydes. Catalysis Science & Technology, 6 (20): (7429-7436). [10.1039/C6CY00874G]
25. Rao Tongde, Liang Lijiao, Zhang Liying. (2013) Ratiometric Fluorescence Recognition for Pyrophosphate on the Basis of Terpyridine Derivative. ANALYTICAL SCIENCES, 29 (12): (1165-1169). [PMID:24334982] [10.2116/analsci.29.1165]
26. Li Jiao Liang,Xi Juan Zhao,Cheng Zhi Huang. (2011-12-21) Zn(II) complex of terpyridine for the highly selective fluorescent recognition of pyrophosphate.. The Analyst, 137 ((4)): (953-958). [PMID:22183691]

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体积 2 (V2)

复溶计算器

复溶计算器允许您快速计算试剂的体积，以复溶小瓶。只需输入试剂的质量和目标浓度，计算器将确定其余部分。

体积（添加到小瓶中）

=

质量（小瓶）

÷

所需的复溶浓度

货号 (SKU)	包装规格	是否现货
A106232-5g	5g	现货
A106232-10g	10g	现货
A106232-25g	25g	现货
A106232-100g	100g	现货
A106232-500g	500g	现货
A106232-1kg	1kg	期货
A106232-2.5kg	2.5kg	现货

2-乙酰吡啶

库存信息

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基本描述

关联靶点（人）

关联靶点（其它种属）

作用机制

名称和识别符

化学和物理性质

安全和危险性（GHS）

质量标准

质检证书（CoA,COO,BSE/TSE 和分析图谱)

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此产品的引用文献

参考文献

溶液计算器

摩尔浓度计算器

稀释计算器

复溶计算器