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I157718-50mg

50mg

$71.90

I157718-250mg

250mg

$249.90

Basic Description

Synonyms	[29H,31H-phthalocyaninato(2-)-N29,N30,N31,N32]iron \| Iron, [29H,31H-phthalocyaninato(2-)-.kappa.N29,.kappa.N30,.kappa.N31,.kappa.N32]-, (SP-4-1)- \| YSSJ00522 \| I0783 \| DTXSID70893421 \| (29H,31H-Phthalocyaninato(2-)-N29,N30,N31,N32)iron \| AKOS037645105 \| A
Specifications & Purity	≥98%(T)
Storage Temp	Argon charged
Shipped In	Normal

Names and Identifiers

Pubchem Sid	488187698
Pubchem Sid Url	https://pubchem.ncbi.nlm.nih.gov/substance/488187698
IUPAC Name	2,11,20,29,37,39-hexaza-38,40-diazanidanonacyclo[28.6.1.13,10.112,19.121,28.04,9.013,18.022,27.031,36]tetraconta-1,3,5,7,9,11,13,15,17,19(39),20,22,24,26,28,30(37),31,33,35-nonadecaene;iron(2+)
INCHI	InChI=1S/C32H16N8.Fe/c1-2-10-18-17(9-1)25-33-26(18)38-28-21-13-5-6-14-22(21)30(35-28)40-32-24-16-8-7-15-23(24)31(36-32)39-29-20-12-4-3-11-19(20)27(34-29)37-25;/h1-16H;/q-2;+2
InChi Key	MIINHRNQLVVCEW-UHFFFAOYSA-N
Canonical SMILES	C1=CC=C2C(=C1)C3=NC4=NC(=NC5=C6C=CC=CC6=C([N-]5)N=C7C8=CC=CC=C8C(=N7)N=C2[N-]3)C9=CC=CC=C94.[Fe+2]
Isomeric SMILES	C1=CC=C2C(=C1)C3=NC4=NC(=NC5=C6C=CC=CC6=C([N-]5)N=C7C8=CC=CC=C8C(=N7)N=C2[N-]3)C9=CC=CC=C94.[Fe+2]
PubChem CID	123025
Molecular Weight	568.38
Reaxy-Rn	4121850

Certificates（CoA,COO,BSE/TSE and Analysis Chart)

C of A & Other Certificates(BSE/TSE, COO):

Analytical Chart:

Find and download the COA for your product by matching the lot number on the packaging.

8 results found

Lot Number	Certificate Type	Date	Item
K2316245	Certificate of Analysis	Nov 08, 2023	I157718
K2316246	Certificate of Analysis	Nov 08, 2023	I157718
G2321918	Certificate of Analysis	Jul 13, 2023	I157718
G2321948	Certificate of Analysis	Jul 13, 2023	I157718
G2321761	Certificate of Analysis	Jul 12, 2023	I157718
G2321920	Certificate of Analysis	Jul 12, 2023	I157718
G2222421	Certificate of Analysis	Jul 13, 2022	I157718
G2222417	Certificate of Analysis	Jul 13, 2022	I157718

Chemical and Physical Properties

Solubility	It is insoluble in water. It is soluble in conc. sulfuric acid.
Sensitivity	Air sensitive
Molecular Weight	568.400 g/mol
XLogP3
Hydrogen Bond Donor Count	0
Hydrogen Bond Acceptor Count	8
Rotatable Bond Count	0
Exact Mass	568.085 Da
Monoisotopic Mass	568.085 Da
Topological Polar Surface Area	79.300 Å²
Heavy Atom Count	41
Formal Charge	0
Complexity	709.000
Isotope Atom Count	0
Defined Atom Stereocenter Count	0
Undefined Atom Stereocenter Count	0
Defined Bond Stereocenter Count	0
Undefined Bond Stereocenter Count	0
The total count of all stereochemical bonds	0
Covalently-Bonded Unit Count	2

Safety and Hazards(GHS)

Reaxy-Rn	4121850

Specifications

Specification Sheet

Alternative Products

Citations of This Product

How to Cite Aladdin Scientific Products?

1. Yanbin Wang, Zezhou Shi, Haibo Shen, Qiushuang Xing, Yunqing Pi. (2023) Efficient removal of levofloxacin by iron (II) phthalocyanine/g-C3N4 activated peroxymonosulfate under high salinity conditions: Role of high-valent iron-oxo species. CHEMICAL ENGINEERING JOURNAL, 470 (144038). [PMID:] [10.1016/j.cej.2023.144038]
2. Qi Sun, Zhaoyang Wang, Min Zhou, Jiantao Li, Ruihu Lu, Yuhan Wang, Xiaobin Liao, Yan Zhao. (2023) Tailoring activity of iron phthalocyanine by edge-nitrogen sites induced electronic delocalization. APPLIED SURFACE SCIENCE, 624 (157154). [PMID:] [10.1016/j.apsusc.2023.157154]
3. Mengjiao Pei, Keyan Li, Xiangyang Li, Chunshan Song, Xinwen Guo. (2023) Facile Construction of Iron Phthalocyanine/Carbon Nitride Heterojunction toward Visible Light-Assisted Peroxydisulfate Activation for Efficient Tetracycline Degradation. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 62 (6): (2698–2709). [PMID:] [10.1021/acs.iecr.2c04057]
4. Cao Peike, Quan Xie, Nie Xiaowa, Zhao Kun, Liu Yanming, Chen Shuo, Yu Hongtao, Chen Jingguang G.. (2023) Metal single-site catalyst design for electrocatalytic production of hydrogen peroxide at industrial-relevant currents. Nature Communications, 14 (1): (1-12). [PMID:36635287] [10.1038/s41467-023-35839-z]
5. Yan Ding, Kangping Cui, Xueyan Liu, Chen-Xuan Li, Zhi Guo, Minshu Cui, Yihan Chen. (2022) Axial g-C3N4 coordinated iron(III) phthalocyanine mediated ultra-efficient peroxymonosulfate activation for high-valent iron species generation. APPLIED CATALYSIS A-GENERAL, 641 (118679). [PMID:] [10.1016/j.apcata.2022.118679]
6. Ting Yang, Shisuo Fan, Yang Li, Qi Zhou. (2021) Fe-N/C single-atom catalysts with high density of Fe-Nx sites toward peroxymonosulfate activation for high-efficient oxidation of bisphenol A: Electron-transfer mechanism. CHEMICAL ENGINEERING JOURNAL, 419 (129590). [PMID:] [10.1016/j.cej.2021.129590]
7. Senan Ahmed M., Yin Binru, Zhang Yaoyao, Nasiru Mustapha M., Lyu Yong‐Mei, Umair Muhammad, Bhat Javaid A., Zhang Sicheng, Liu Li. (2021) Efficient and selective catalytic hydroxylation of unsaturated plant oils: a novel method for producing anti-pathogens. BMC Chemistry, 15 (1): (1-11). [PMID:33781309] [10.1186/s13065-021-00748-z]
8. Zhao Yafei, Zhou Huang, Zhu Xiaorong, Qu Yunteng, Xiong Can, Xue Zhenggang, Zhang Qingwei, Liu Xiaokang, Zhou Fangyao, Mou Xiaoming, Wang Wenyu, Chen Min, Xiong Ya, Lin Xingen, Lin Yue, Chen Wenxing, Wang Hui-Juan, Jiang Zheng, Zheng Lirong, Yao Tao, Dong Juncai, Wei Shiqiang, Huang Weixin, Gu Lin, Luo Jun, Li Yafei, Wu Yuen. (2021) Simultaneous oxidative and reductive reactions in one system by atomic design. Nature Catalysis, 4 (2): (134-143). [PMID:] [10.1038/s41929-020-00563-0]
9. Fuhuan Wang, Heping Xie, Tao Liu, Yifan Wu, Bin Chen. (2020) Highly dispersed CuFe-nitrogen active sites electrode for synergistic electrochemical CO2 reduction at low overpotential. APPLIED ENERGY, 269 (115029). [PMID:] [10.1016/j.apenergy.2020.115029]
10. Jiahao Yu, Jieyi Yu, Tongpan Ying, Xianguo Liu, Xuefeng Zhang, Dandan Han. (2020) Zeolitic imidazolate framework derived Fe-N/C for efficient microwave absorbers. JOURNAL OF ALLOYS AND COMPOUNDS, 838 (155629). [PMID:] [10.1016/j.jallcom.2020.155629]
11. Min Hong, Jianhang Nie, Xiaohua Zhang, Pengfei Zhang, Qin Meng, Junlin Huang, Zhenyang Xu, Cuicui Du, Jinhua Chen. (2019) Facile solution synthesis of FeNx atom clusters supported on nitrogen-enriched graphene carbon aerogels with superb electrocatalytic performance toward the oxygen reduction reaction. Journal of Materials Chemistry A, 7 (44): (25557-25566). [PMID:] [10.1039/C9TA09104A]
12. Mingxuan Fu, Yuexian Liu, Qi Zhang, Guyang Ning, Xinyu Fan, Haiyang Wang, Haijun Lu, Yufan Zhang, Huan Wang. (2019) Fe2O3 and Co bimetallic decorated nitrogen doped graphene nanomaterial for effective electrochemical water split hydrogen evolution reaction. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 849 (113345). [PMID:] [10.1016/j.jelechem.2019.113345]
13. Sheng Yin, Yong Chen, Qingsong Hu, Ming Li, Yi Ding, Yifan Shao, Jun Di, Jiexiang Xia, Huaming Li. (2019) In-situ preparation of iron(II) phthalocyanine modified bismuth oxybromide with enhanced visible-light photocatalytic activity and mechanism insight. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 575 (336). [PMID:] [10.1016/j.colsurfa.2019.05.028]
14. Fengtao Chen, Xingxing Shi, Xiaobing Chen, Wenxing Chen. (2018) An iron (II) phthalocyanine/poly(vinylidene fluoride) composite membrane with antifouling property and catalytic self-cleaning function for high-efficiency oil/water separation. JOURNAL OF MEMBRANE SCIENCE, 552 (295). [PMID:] [10.1016/j.memsci.2018.02.030]

References

1. Yanbin Wang, Zezhou Shi, Haibo Shen, Qiushuang Xing, Yunqing Pi. (2023) Efficient removal of levofloxacin by iron (II) phthalocyanine/g-C3N4 activated peroxymonosulfate under high salinity conditions: Role of high-valent iron-oxo species. CHEMICAL ENGINEERING JOURNAL, 470 (144038). [PMID:] [10.1016/j.cej.2023.144038]
2. Qi Sun, Zhaoyang Wang, Min Zhou, Jiantao Li, Ruihu Lu, Yuhan Wang, Xiaobin Liao, Yan Zhao. (2023) Tailoring activity of iron phthalocyanine by edge-nitrogen sites induced electronic delocalization. APPLIED SURFACE SCIENCE, 624 (157154). [PMID:] [10.1016/j.apsusc.2023.157154]
3. Mengjiao Pei, Keyan Li, Xiangyang Li, Chunshan Song, Xinwen Guo. (2023) Facile Construction of Iron Phthalocyanine/Carbon Nitride Heterojunction toward Visible Light-Assisted Peroxydisulfate Activation for Efficient Tetracycline Degradation. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 62 (6): (2698–2709). [PMID:] [10.1021/acs.iecr.2c04057]
4. Cao Peike, Quan Xie, Nie Xiaowa, Zhao Kun, Liu Yanming, Chen Shuo, Yu Hongtao, Chen Jingguang G.. (2023) Metal single-site catalyst design for electrocatalytic production of hydrogen peroxide at industrial-relevant currents. Nature Communications, 14 (1): (1-12). [PMID:36635287] [10.1038/s41467-023-35839-z]
5. Yan Ding, Kangping Cui, Xueyan Liu, Chen-Xuan Li, Zhi Guo, Minshu Cui, Yihan Chen. (2022) Axial g-C3N4 coordinated iron(III) phthalocyanine mediated ultra-efficient peroxymonosulfate activation for high-valent iron species generation. APPLIED CATALYSIS A-GENERAL, 641 (118679). [PMID:] [10.1016/j.apcata.2022.118679]
6. Ting Yang, Shisuo Fan, Yang Li, Qi Zhou. (2021) Fe-N/C single-atom catalysts with high density of Fe-Nx sites toward peroxymonosulfate activation for high-efficient oxidation of bisphenol A: Electron-transfer mechanism. CHEMICAL ENGINEERING JOURNAL, 419 (129590). [PMID:] [10.1016/j.cej.2021.129590]
7. Senan Ahmed M., Yin Binru, Zhang Yaoyao, Nasiru Mustapha M., Lyu Yong‐Mei, Umair Muhammad, Bhat Javaid A., Zhang Sicheng, Liu Li. (2021) Efficient and selective catalytic hydroxylation of unsaturated plant oils: a novel method for producing anti-pathogens. BMC Chemistry, 15 (1): (1-11). [PMID:33781309] [10.1186/s13065-021-00748-z]
8. Zhao Yafei, Zhou Huang, Zhu Xiaorong, Qu Yunteng, Xiong Can, Xue Zhenggang, Zhang Qingwei, Liu Xiaokang, Zhou Fangyao, Mou Xiaoming, Wang Wenyu, Chen Min, Xiong Ya, Lin Xingen, Lin Yue, Chen Wenxing, Wang Hui-Juan, Jiang Zheng, Zheng Lirong, Yao Tao, Dong Juncai, Wei Shiqiang, Huang Weixin, Gu Lin, Luo Jun, Li Yafei, Wu Yuen. (2021) Simultaneous oxidative and reductive reactions in one system by atomic design. Nature Catalysis, 4 (2): (134-143). [PMID:] [10.1038/s41929-020-00563-0]
9. Fuhuan Wang, Heping Xie, Tao Liu, Yifan Wu, Bin Chen. (2020) Highly dispersed CuFe-nitrogen active sites electrode for synergistic electrochemical CO2 reduction at low overpotential. APPLIED ENERGY, 269 (115029). [PMID:] [10.1016/j.apenergy.2020.115029]
10. Jiahao Yu, Jieyi Yu, Tongpan Ying, Xianguo Liu, Xuefeng Zhang, Dandan Han. (2020) Zeolitic imidazolate framework derived Fe-N/C for efficient microwave absorbers. JOURNAL OF ALLOYS AND COMPOUNDS, 838 (155629). [PMID:] [10.1016/j.jallcom.2020.155629]
11. Min Hong, Jianhang Nie, Xiaohua Zhang, Pengfei Zhang, Qin Meng, Junlin Huang, Zhenyang Xu, Cuicui Du, Jinhua Chen. (2019) Facile solution synthesis of FeNx atom clusters supported on nitrogen-enriched graphene carbon aerogels with superb electrocatalytic performance toward the oxygen reduction reaction. Journal of Materials Chemistry A, 7 (44): (25557-25566). [PMID:] [10.1039/C9TA09104A]
12. Mingxuan Fu, Yuexian Liu, Qi Zhang, Guyang Ning, Xinyu Fan, Haiyang Wang, Haijun Lu, Yufan Zhang, Huan Wang. (2019) Fe2O3 and Co bimetallic decorated nitrogen doped graphene nanomaterial for effective electrochemical water split hydrogen evolution reaction. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 849 (113345). [PMID:] [10.1016/j.jelechem.2019.113345]
13. Sheng Yin, Yong Chen, Qingsong Hu, Ming Li, Yi Ding, Yifan Shao, Jun Di, Jiexiang Xia, Huaming Li. (2019) In-situ preparation of iron(II) phthalocyanine modified bismuth oxybromide with enhanced visible-light photocatalytic activity and mechanism insight. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 575 (336). [PMID:] [10.1016/j.colsurfa.2019.05.028]
14. Fengtao Chen, Xingxing Shi, Xiaobing Chen, Wenxing Chen. (2018) An iron (II) phthalocyanine/poly(vinylidene fluoride) composite membrane with antifouling property and catalytic self-cleaning function for high-efficiency oil/water separation. JOURNAL OF MEMBRANE SCIENCE, 552 (295). [PMID:] [10.1016/j.memsci.2018.02.030]

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Iron(II) Phthalocyanine (purified by sublimation) - >98.0%(T), high purity , CAS No.132-16-1