Iron(III) phosphate - for analysis calcined (max. 0.001% SO₄) , Premium-Grade Reagents , CAS No.10045-86-0

CAS: 10045-86-0 Cat. No.: I485270 Peso molecular: 150.82 Número EC: 233-149-7
Disponible para pedir
GRADE & PURITY for analysis calcined (max. 0.001% SO₄) , Premium-Grade Reagents
Synonyms
FERRIC PHOSPHATE | CHEBI:131371 | WHITE PHOSPHATE OF IRON (SCHUSSLER'S) | CCRIS 6895 | FT-0697151 | Iron orthophosphate | Ferramol | Q1311179 | EINECS 233-867-0 | Iron(3+) phosphate, (1:1) | N6BAA189V1 | Phosphoric acid,iron salt | EINECS 233-149-7 | FERR
Storage
Room temperature
Shipped In
Normal
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Size
Estado
Price
Qty
500g
I485270-500g
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1.693,90US$

1.977,90US$
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Why this grade

for analysis calcined (max. 0.001% SO₄) , Premium-Grade Reagents for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Room temperature Ships Normal Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 19 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Specifications

Sinónimos
FERRIC PHOSPHATE | CHEBI:131371 | WHITE PHOSPHATE OF IRON (SCHUSSLER'S) | CCRIS 6895 | FT-0697151 | Iron orthophosphate | Ferramol | Q1311179 | EINECS 233-867-0 | Iron(3+) phosphate, (1:1) | N6BAA189V1 | Phosphoric acid, iron salt | EINECS 233-149-7 | FERR
Especificaciones y pureza
for analysis calcined (max. 0.001% SO₄) , Premium-Grade Reagents
Condiciones de almacenamiento de almacenamiento
Room temperature
Enviado en
Normal
Nombres e identificadores
Sonrisas canónicas[O-]P(=O)([O-])[O-].[Fe+3]
IUPAC Nameiron(3+);phosphate
InChIKeyWBJZTOZJJYAKHQ-UHFFFAOYSA-K
INCHI1S/Fe.H3O4P/c;1-5(2,3)4/h;(H3,1,2,3,4)/q+3;/p-3
Isómeros SMILES [O-]P(=O)([O-])[O-].[Fe+3]
Peso molecular 150.82

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

Download SDS →

✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

Look up COA →

📊 Datasheet

Quick-reference summary of product specifications and applications.

View datasheet →

🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

View spec sheet →

Advanced Data

Taxonomic Classification

Taxonomy Tree

KingdomInorganic compounds
SuperclassMixed metal/non-metal compounds
ClaseTransition metal oxoanionic compounds
SubclassTransition metal phosphates
Intermediate Tree Nodes Not available
Direct ParentTransition metal phosphates
Alternative Parents Inorganic salts  Inorganic oxides  
Molecular FrameworkNot available
Substituents Transition metal phosphate - Inorganic oxide - Inorganic salt
DescripciónThis compound belongs to the class of inorganic compounds known as transition metal phosphates. These are inorganic compounds in which the largest oxoanion is phosphate, and in which the heaviest atom not in an oxoanion is a transition metal.
External Descriptors Not available
Estructura 3D
Modelo de Estructura Química Interactiva





Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:
Propiedades químicas y físicas
Punto de fusión (°C)449.85℃
Peso molecular150.820 g/mol
XLogP3
Hydrogen Bond Donor Count0
Hydrogen Bond Acceptor Count4
Rotatable Bond Count0
Exact Mass150.888 Da
Monoisotopic Mass150.888 Da
Topological Polar Surface Area86.300 Ų
Heavy Atom Count6
Formal Charge0
Complexity36.800
Isotope Atom Count0
Defined Atom Stereocenter Count0
Undefined Atom Stereocenter Count0
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
The total count of all stereochemical bonds0
Covalently-Bonded Unit Count2
Preguntas frecuentes y artículos
Citations of This Product
Referencias
1. Jiafei Gu, Xiaoling Liu, Ping Cui, Xiaosu Yi.  (2023)  Multifunctional bioactive glasses with spontaneous degradation for simultaneous osteosarcoma therapy and bone regeneration.  Biomaterials Advances,      [PMID:37722164] [10.1016/j.bioadv.2023.213626]
2. Yafei Cheng, Zhijian Shi, Yan Shi, Yalei Zhang, Shicheng Zhang, Gang Luo.  (2023)  Biochar promoted microbial iron reduction in competition with methanogenesis in anaerobic digestion.  BIORESOURCE TECHNOLOGY,      [PMID:37506931] [10.1016/j.biortech.2023.129561]
3. Haisheng Wei, Zhaohua Gao, Liru Cao, Kairui Li, Xiaorui Yan, Tiantian Liu, Mingyuan Zhu, Fei Huang, Xu Fang, Jian Lin.  (2022)  FePO4 supported Rh subnano clusters with dual active sites for efficient hydrogenation of quinoline under mild conditions.  Nanoscale,  15  (3): (1422-1430).  [PMID:36594603] [10.1039/D2NR05518J]
4. Dong Haijiao, Du Wei, Dong Jian, Che Renchao, Kong Fei, Cheng Wenlong, Ma Ming, Gu Ning, Zhang Yu.  (2022)  Depletable peroxidase-like activity of Fe3O4 nanozymes accompanied with separate migration of electrons and iron ions.  Nature Communications,  13  (1): (1-11).  [PMID:36097172] [10.1038/s41467-022-33098-y]
5. Kexin Lu, Qian Ping, Qinyuan Lu, Yongmei Li.  (2022)  Understanding roles of humic substance and protein on iron phosphate transformation during anaerobic fermentation of waste activated sludge.  BIORESOURCE TECHNOLOGY,      [PMID:35489570] [10.1016/j.biortech.2022.127242]
6. Zongming Sui, Jie Yin, Jianguo Huang, Ling Yuan.  (2021)  Phosphorus mobilization and improvement of crop agronomic performances by a new white-rot fungus Ceriporia lacerata HG2011.  JOURNAL OF THE SCIENCE OF FOOD AND AGRICULTURE,  102  (4): (1640-1650).  [PMID:34453347] [10.1002/jsfa.11501]
7. Zhipeng Zhang, Qian Ping, Dan Gao, Peter A. Vanrolleghem, Yongmei Li.  (2020)  Effects of ferric-phosphate forms on phosphorus release and the performance of anaerobic fermentation of waste activated sludge.  BIORESOURCE TECHNOLOGY,      [PMID:33421830] [10.1016/j.biortech.2020.124622]
8. Guoqing Dai, Hao Shi, Murray B. McBride, Haojie Fu, Zheng Li, Xinlei Wang, Shu Yang, Lei Wang, Fayuan Wang, Xinxin Li.  (2024)  Biogeochemical processes in heterogeneous soil-Solanum nigrum L. system control lead partitioning: Roles of strengite and oxalated zero-valent iron nanoparticle.  Journal of Cleaner Production,      [PMID:] [10.1016/j.jclepro.2024.141993]
9. Minghao Jin, Huan Liu, Jin Chen, Hong Yao.  (2025)  Direct recovery of high-purity phosphorus product from leachates of sludge incineration ash through thermodynamically spontaneous method.  SEPARATION AND PURIFICATION TECHNOLOGY,      [PMID:] [10.1016/j.seppur.2025.132558]
10. Jiaqi Huang, Xinglin Tang, Yuqi Zhou, Ting Wang, Fangzhou Zhao, Weijian Wang, Yan Meng, Wanglai Cen, Yongzhi Zhang.  (2025)  Enhanced cycling stability and suppressed voltage decay of LiMn0.8Fe0.2PO4/C by Zn-gradient doping.  Journal of Materials Chemistry A,      [PMID:] [10.1039/D5TA00706B]
11. Weixin Xian, Wenyu Wang, Juntao Guo, Jinjun Li, Jing Xu, Feng Wu.  (2024)  FePO4 activated sulfite autoxidation for simultaneous pollutant degradation and phosphorus release.  Journal of Cleaner Production,      [PMID:] [10.1016/j.jclepro.2024.141342]
12. Lu Zhong, Yuejia Qin, Zenan Zhou, Lianyun Zhong, Jietian Liang, Shaohui Hu, Qifan Liu, Yanfei Zeng, Shunmin Yi, Hui You, Shengkui Zhong, Dongliang Yan.  (2025)  One-pot formation of N, S-doped carbon coated-LiFePO4 with improved lithium storage performance.  Journal of Energy Storage,      [PMID:] [10.1016/j.est.2025.115434]
13. Zuhong Ji, Yunfei Sun, Xiaodong Guan, Yang Zhou, Junchao Qian, Feng Chen.  (2024)  Revealing the superior rate performance and cycle stability of the La and F Co-doping LiFePO4/C.  VACUUM,      [PMID:] [10.1016/j.vacuum.2024.113452]
14. Gongting Wang, Wenqing Luo, Zedong Teng, Xin Zhao, Yuxin Cheng, Yanzhong Wang, Bin Liu, Mengnan Lu, Min Li.  (2025)  Humic and fulvic acid-mediated dissimilatory iron reduction coupled with phosphate solubilizing bacteria inducing secondary mineral formation for efficient cadmium immobilization.  JOURNAL OF HAZARDOUS MATERIALS,      [PMID:40682880] [10.1016/j.jhazmat.2025.139297]
15. Xiaopeng Fu, Meng Xiao, Meihua Chen, Zhian Zhang, Limin Zheng, Fang Wan, Xiaodong Guo.  (2025)  Constructing a Three-Phase Reaction System for Efficiently Recycling Spent LiFePO4.  ACS Applied Energy Materials,      [PMID:] [10.1021/acsaem.5c00475]
16. Siyu Zhou, Wanni Liu, Dongqi Liu, Xian Shi, Kai Huang, Feng Jiang, Hui Gao, Haian Xia, Ying Guan, Siquan Xu.  (2025)  Promoting 5-hydroxymethylfurfural production from cellulose and wheat straw via sulfonic acid group-grafted SBA-15 mesoporous silica embedded with iron phosphate.  INDUSTRIAL CROPS AND PRODUCTS,      [PMID:] [10.1016/j.indcrop.2025.121425]
17. Danfeng Zhang, Jiaxiu Sun, Zhiqi Ren, Yuhang Wang, Zongsheng Qiu, Jianwen Yang, Yongbin He, Meng Qin, Fei Sun, Lianming Zhang, Bin Huang, Yanwei Li, Shunhua Xiao.  (2025)  Nb Doping Enhancing Structure Stability and High-Temperature Electrochemical Performances of LiFe0.5Mn0.5PO4 Cathode Material in Lithium-Ion Batteries.  ChemSusChem,      [PMID:41090252] [10.1002/cssc.202501321]
18. Liu Jian, Li Jian, Wu Tong, Shen Renpeng, Zhou Haibo, Xiong Lizhi, Zhao Heping, Xiang Yanhong.  (2026)  High-energy grinding activates Mn2+/Mn3+ for synthesizing LiMn0.8Fe0.2PO4 cathode with high-rate performance.  JOURNAL OF MATERIALS SCIENCE,      [PMID:] [10.1007/s10853-026-12498-1]
19. Andong Hu, Bing Li, Shang Yang, Ruili Li, Yuefei Huang, Shungui Zhou, Guangqian Wang.  (2026)  Hydrodynamic Forces as an Overlooked Driver of Phosphorus Mobilization via Piezoelectric Activation.  ENVIRONMENTAL SCIENCE & TECHNOLOGY,      [PMID:] [10.1021/acs.est.5c17156]
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