Tin(II) pyrophosphate - ≥96% , CAS No.15578-26-4

CAS: 15578-26-4 Cat. No.: T299378 Molecular Weight: 411.36 EC Number: 239-635-5 PubChem CID: 66379
AVAILABLE TO ORDER
GRADE & PURITY ≥96%
Synonyms
Tin(II) pyrophosphate | Tin(2+) pyrophosphate | Ditin pyrophosphate | EINECS 239-635-5 | Phosphoric acid, tin(2+) salt (1:2) | Stannouspyrophosphate | Distannous phosphonato phosphate | FT-0675243 | phosphonato phosphate;tin(2+) | AKOS025212859 | MP 4018
Storage
Room temperature
Shipped In
Normal
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Status
Price
Qty
5g
T299378-5g
5

$9.90

$14.90
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25g
T299378-25g
2

$24.90

$37.90
Save $13.00 (34.30%)
100g
T299378-100g
4

$55.90

$83.90
Save $28.00 (33.37%)
500g
T299378-500g
8

$209.90

$314.90
Save $105.00 (33.34%)
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Why this grade

≥96% 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 13 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Specifications

Synonyms
Tin(II) pyrophosphate | Tin(2+) pyrophosphate | Ditin pyrophosphate | EINECS 239-635-5 | Phosphoric acid, tin(2+) salt (1:2) | Stannouspyrophosphate | Distannous phosphonato phosphate | FT-0675243 | phosphonato phosphate;tin(2+) | AKOS025212859 | MP 4018
Specifications & Purity
≥96%
Storage
Room temperature
Shipped In
Normal
Purity
≥96%
Names and Identifiers
Pubchem Sid488183787
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/488183787
Canonical Smiles[O-]P(=O)([O-])OP(=O)([O-])[O-].[Sn+2].[Sn+2]
IUPAC Namephosphonato phosphate;tin(2+)
InChIKeyGEZAUFNYMZVOFV-UHFFFAOYSA-J
INCHI1S/H4O7P2.2Sn/c1-8(2,3)7-9(4,5)6;;/h(H2,1,2,3)(H2,4,5,6);;/q;2*+2/p-4
Isomeric SMILES [O-]P(=O)([O-])OP(=O)([O-])[O-].[Sn+2].[Sn+2]
PubChem CID 66379
Molecular Weight 411.36

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.

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📊 Datasheet

Quick-reference summary of product specifications and applications.

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

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Advanced Data

Taxonomic Classification

Taxonomy Tree

KingdomInorganic compounds
SuperclassMixed metal/non-metal compounds
ClassPost-transition metal oxoanionic compounds
SubclassPost-transition metal pyrophosphates
Intermediate Tree Nodes Not available
Direct ParentPost-transition metal pyrophosphates
Alternative Parents Post-transition metal salts  Inorganic salts  Inorganic oxides  
Molecular FrameworkNot available
Substituents Post-transition metal pyrophosphate - Inorganic post-transition metal salt - Inorganic oxide - Inorganic salt
DescriptionThis compound belongs to the class of inorganic compounds known as post-transition metal pyrophosphates. These are inorganic compounds in which the largest oxoanion is pyrophosphate, and in which the heaviest atom not in an oxoanion is a post-transition metal.
External Descriptors Not available
3D Structure
Interactive Chemical Structure Model





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.

14 results found

Lot NumberCertificate TypeDateItem
H2218378Certificate of AnalysisJun 08, 2026 T299378
H2218385Certificate of AnalysisJun 08, 2026 T299378
H2218386Certificate of AnalysisJun 08, 2026 T299378
E2223186Certificate of AnalysisMar 11, 2026 T299378
E2223188Certificate of AnalysisMar 11, 2026 T299378
E2223197Certificate of AnalysisMar 11, 2026 T299378
E2223198Certificate of AnalysisMar 11, 2026 T299378
K2126341Certificate of AnalysisSep 08, 2025 T299378
K2126319Certificate of AnalysisSep 08, 2025 T299378
C2002060Certificate of AnalysisDec 21, 2023 T299378
B2308112Certificate of AnalysisFeb 11, 2023 T299378
H2218384Certificate of AnalysisJul 21, 2022 T299378
B2308104Certificate of AnalysisMar 10, 2022 T299378
B2308105Certificate of AnalysisMar 10, 2022 T299378

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Chemical and Physical Properties
SolubilityInsoluble in water.
Melt Point(°C)400°C
Molecular Weight411.360 g/mol
XLogP3
Hydrogen Bond Donor Count0
Hydrogen Bond Acceptor Count7
Rotatable Bond Count0
Exact Mass411.716 Da
Monoisotopic Mass413.716 Da
Topological Polar Surface Area136.000 Ų
Heavy Atom Count11
Formal Charge0
Complexity124.000
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 Count3
Citations of This Product
References
1. Ruite Lai, Qidong Hou, Guanjie Yu, Chao Xie, Hengli Qian, Tianliang Xia, Xinyu Bai, Yao Tang, Mian Laiq Ur Rehman, Meiting Ju.  (2023)  Incorporation of tin into zirconium phosphate to boost efficient conversion of trioses to lactic acid.  CATALYSIS COMMUNICATIONS,      [PMID:] [10.1016/j.catcom.2023.106803]
2. Yuanyuan Luo, Yuanji Xiang, Lirong Qin, Jianwei Zhao, Huiming He, Yuanxin Liu.  (2023)  Screen-printed electrode modified with MoO3-MoS2/Ni porous array for sensitive non-enzymatic glucose sensor.  SENSORS AND ACTUATORS A-PHYSICAL,      [PMID:] [10.1016/j.sna.2023.114817]
3. Dong Chen, Donggang Tao, Xin Ren, Fanjue Wen, Ting Li, Zhongxue Chen, Yuliang Cao, Fei Xu.  (2022)  A Molybdenum Polysulfide In-Situ Generated from Ammonium Tetrathiomolybdate for High-Capacity and High-Power Rechargeable Magnesium Battery Cathodes.  ACS Nano,      [PMID:36410730] [10.1021/acsnano.2c06915]
4. Lou Xue, Yao Lianfei, Wang Liangyu, Chi Xiaochun, Wang Wenyan, Sui Ning, Zhang Hanzhuang, Xu Wen, Pan Lingyun, Zhou Qiang, Wang Yinghui.  (2021)  Carrier dynamics of CdS/MoS2 heterostructure nanocrystal films affected by annealing effect.  JOURNAL OF NANOPARTICLE RESEARCH,  23  (3): (1-11).  [PMID:] [10.1007/s11051-021-05179-4]
5. He Dafang, Yang Yi, Liu Zhenmin, Shao Jin, Wu Jian, Wang Shun, Shen Liming, Bao Ningzhong.  (2020)  Solvothermal-assisted assembly of MoS2 nanocages on graphene sheets to enhance the electrochemical performance of lithium-ion battery.  Nano Research,  13  (4): (1029-1034).  [PMID:] [10.1007/s12274-020-2739-3]
6. Shan Gong, Guangyu Zhao, Naiqing Zhang, Kening Sun.  (2019)  Chemical Mass Production of MoS2/Graphene van der Waals Heterostructure as a High-Performance Li-ion Intercalation Host.  ChemElectroChem,  (13): (3393-3400).  [PMID:] [10.1002/celc.201900783]
7. Lu Yuan, Yu Jing, Ye Weichun, Yao Xin, Zhou Panpan, Zhang Haixia, Zhao Suqin, Jia Lipei.  (2016)  Spectrophotometric determination of mercury(II) ions based on their stimulation effect on the peroxidase-like activity of molybdenum disulfide nanosheets.  MICROCHIMICA ACTA,  183  (8): (2481-2489).  [PMID:] [10.1007/s00604-016-1886-4]
8. Jiang Yisha, Liu Wenchao, Wang Tao, Wu Yitian, Mei Tingting, Wang Li, Xu Guoheng, Wang Yude, Liu Nannan, Xiao Kai.  (2024)  A nanofluidic chemoelectrical generator with enhanced energy harvesting by ion-electron Coulomb drag.  Nature Communications,  15  (1): (1-8).  [PMID:39362886] [10.1038/s41467-024-52892-4]
9. Junhong Lu, Yinjuan Chen, Yanlin Zhang, Jie Huang, Haoyang Jiang, Dafang He, Haiqun Chen.  (2024)  Dual-function hollow MoS2 nanocages decorated on graphene sheets as efficient sulfur hosts for advanced Lithium-sulfur batteries.  JOURNAL OF ALLOYS AND COMPOUNDS,      [PMID:] [10.1016/j.jallcom.2024.175674]
10. Zhixuan Zhang, Dongsheng Zhuang, Yutong Niu, Junyi Wang, Hongliang Zhang, Wei Cheng.  (2025)  High-Performance Dual-Band Electrochromic Smart Windows Based on Amorphous Tungsten Oxide Hydrate Films and Aluminum Ion Electrolytes.  Advanced Optical Materials,      [PMID:] [10.1002/adom.202402526]
11. Weiwei Li, Lingyan Kong, Manzhang Xu, Jiuwei Gao, Lei Luo, Yingzhe Li, Kexin Wang, Yilin Zhou, Lei Li, Yuan Wei, Xiaoshan Zhang, Ruoqing Zhao, Mengdi Chen, Yuting Yan, Xiaoguang Luo, Zhaohe Dai, Lu Zheng, Xuewen Wang, Wei Huang.  (2024)  Microsecond-Scale Transient Thermal Sensing Enabled by Flexible Mo1−xWxS2 Alloys.  Research,      [PMID:39171118] [10.34133/research.0452]
12. Jingjing Zhu, Yuying Feng, Jia hui Jiang, Tingting Huang, Juan Xiao, Qihao Wu, Guancheng Xu, Li Zhang.  (2025)  Boosting Reaction Kinetics through the Construction of Ni3S2–MoS2 Semicoherent Interfaces for Enhanced Electrochemical Overall Water Splitting.  ENERGY & FUELS,      [PMID:] [10.1021/acs.energyfuels.5c00172]
13. Bao Jiang, Hong-heng Chen, Lei Wu, Xue-yin Fu, Maierhaba Abudoureheman, Qun Jing, Yu-hong Su, Zhao-hui Chen.  (2026)  Sn4+/Sn2+ Aliovalent Substitution: A Strategy for Local Structure Engineering to Enhance Birefringence and Trigger Structural Symmetry Transition.  INORGANIC CHEMISTRY,      [PMID:41610416] [10.1021/acs.inorgchem.5c05729]
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