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Lithium iron(II) phosphate - 98%, high purity , CAS No.15365-14-7

25 Citations
  • ≥98%
Item Number
L302983
Grouped product items
SKUSizeAvailabilityPrice Qty
L302983-25g
25g
In stock
$66.90
L302983-100g
100g
In stock
$196.90
L302983-500g
500g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$715.90
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Phosphate

Basic Description

Specifications & Purity≥98%
Storage TempRoom temperature,Argon charged,Desiccated
Shipped InNormal
Product Description

LiFePO4 is a widely used cathode for rechargeable Li batteries. It has high energy density, wide operating temperature, thermal stability, long cycle life and application life, environmental friendliness, and safety that make it a promising electrode material for greener and safer lithium-ion batteries.

Names and Identifiers

Pubchem Sid488198866
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/488198866
Canonical SMILES [Li+].[O-]P(=O)([O-])[O-].[Fe+2]
Isomeric SMILES [Li+].[O-]P(=O)([O-])[O-].[Fe+2]
PubChem CID 15320824
Molecular Weight 157.75

Certificates

Certificate of Analysis(COA)

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27 results found

Lot NumberCertificate TypeDateItem
L2405439Certificate of AnalysisNov 21, 2024 L302983
L2405398Certificate of AnalysisNov 21, 2024 L302983
L2405397Certificate of AnalysisNov 21, 2024 L302983
G2410463Certificate of AnalysisJun 29, 2024 L302983
G2410464Certificate of AnalysisJun 29, 2024 L302983
G2410469Certificate of AnalysisJun 29, 2024 L302983
L2308465Certificate of AnalysisNov 29, 2023 L302983
L2308455Certificate of AnalysisNov 29, 2023 L302983
L2308454Certificate of AnalysisNov 29, 2023 L302983
L2308333Certificate of AnalysisNov 29, 2023 L302983
L2308332Certificate of AnalysisNov 29, 2023 L302983
B23081035Certificate of AnalysisFeb 18, 2023 L302983
J2307025Certificate of AnalysisNov 02, 2022 L302983
J2313135Certificate of AnalysisNov 02, 2022 L302983
K2224609Certificate of AnalysisNov 02, 2022 L302983
K2224691Certificate of AnalysisNov 02, 2022 L302983
K2224692Certificate of AnalysisNov 02, 2022 L302983
K2224695Certificate of AnalysisNov 02, 2022 L302983
G2305187Certificate of AnalysisNov 02, 2022 L302983
B23081034Certificate of AnalysisNov 02, 2022 L302983
H2217471Certificate of AnalysisJul 30, 2022 L302983
H2217469Certificate of AnalysisJul 30, 2022 L302983
H2217468Certificate of AnalysisJul 30, 2022 L302983
H2217441Certificate of AnalysisJul 30, 2022 L302983
G2205365Certificate of AnalysisJun 17, 2022 L302983
G2205286Certificate of AnalysisJun 17, 2022 L302983
G2205284Certificate of AnalysisJun 17, 2022 L302983

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Chemical and Physical Properties

SensitivityHygroscopic
Melt Point(°C)>300°C

Related Documents

 SDS

 Specification Sheet

Alternative Products

  1. Lithium iron(II) phosphate
    Lithium iron(II) phosphate
    • ≥97%
    • powder,<5μm particle size (bET)

    Starting at $457.90

FAQs and Articles

FAQ
How To Improve the Safety of Electrolyte in Lithium-Ion Batteries?
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Research Progress of High-Voltage Lithium-Ion Battery Materials
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Research Progress of Cathode Materials for Lithium-Ion Batteries
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Citations of This Product

How to Cite Aladdin Scientific Products?
1. Yanghui Song, Guanglei Zhao, Sihan Zhang, Chong Xie, Runde Yang, Xiaofeng Li.  (2023)  Chitosan nanofiber paper used as separator for high performance and sustainable lithium-ion batteries.  CARBOHYDRATE POLYMERS,    (6): (121530).  [PMID:38286525] [10.1016/j.carbpol.2023.121530]
2. Caiting Gu, Zhiyuan Liu, Xin Zhong, Yuan Gao, Jingwen Zhao, Fengwei Shi.  (2023)  GO-enhanced Gel Polymer Electrolyte for Aqueous Zinc-Ion Batteries.  Chemistry-An Asian Journal,  18  (24): (e202300818).  [PMID:37870377] [10.1002/asia.202300818]
3. Shujie Tang, Ziyue Yang, Mei Zhang, Min Guo.  (2023)  A simple green method for in-situ selective extraction of Li from spent LiFePO4 batteries by synergistic effect of deep-eutectic solvent and ozone.  ENVIRONMENTAL RESEARCH,  239  (117393).  [PMID:37838204] [10.1016/j.envres.2023.117393]
4. Chuan Tan, Wentao Wang, Yuping Wu, Yuhui Chen.  (2023)  Dissolved LiO2 or adsorbed LiO2? The reactive superoxide during discharging process in lithium–oxygen batteries.  FARADAY DISCUSSIONS,      [PMID:37753617] [10.1039/D3FD00080J]
5. Haoyuan Liu, Jian Cai, Peiqi Zhou, Lixin Li, Zhen Ma, Xiaoyang Zhao, Junmin Nan.  (2023)  A biomimetic green binder: Forming a biomorphic polymer network in SiOx anode to buffer expansion and enhance performance.  CHEMICAL ENGINEERING JOURNAL,  475  (146284).  [PMID:12717434] [10.1016/j.cej.2023.146284]
6. Yanghui Song, Guanglei Zhao, Sihan Zhang, Chong Xie, Xiaofeng Li.  (2023)  A Light-Thin Chitosan Nanofiber Separator for High-Performance Lithium-Ion Batteries.  Polymers,  15  (18): (3654).  [PMID:37765508] [10.3390/polym15183654]
7. Jian Lan, Hongying Hou, Xiaohua Yu, Ju Rong, Fangshu Chen.  (2023)  Building the homogeneous ionic interfaces and channels for high compatible composite PVDF/SiO2 solid electrolyte by grafting sulfonate betaine.  Surfaces and Interfaces,  39  (102978).  [PMID:] [10.1016/j.surfin.2023.102978]
8. Hongying Hou, Baoxiang Huang, Xiaohua Yu, Jian Lan, Sen Ming, Ju Rong, Xianxi Liu, Fangshu Chen.  (2023)  Compatible composite electrolyte membrane Li7La3Zr2O12/SB-PVDF for solid-state lithium ion battery.  Journal of Energy Storage,  68  (107680).  [PMID:] [10.1016/j.est.2023.107680]
9. Shuohao Wu, Mengjun Wu, Haining Zhang, Haolin Tang.  (2023)  Single-Ion-Conducting Gel Polymer Electrolyte Based on Lithiated Nafion.  ACS Applied Polymer Materials,  (6): (4266–4273).  [PMID:] [10.1021/acsapm.3c00455]
10. Baoxiang Huang, Hongying Hou, Xiaohua Yu, Jian Lan, Bin Liu, Songlin Tan, Xianxi Liu.  (2023)  High compatible double surface-modification SB-PVDF/SB-Li7La3Zr2O12 composite solid electrolytes.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  940  (117512).  [PMID:] [10.1016/j.jelechem.2023.117512]
11. Zhao Fang, Qinghua Deng, Yang Zhou, Xiaolong Fu, Jiacheng Yi, Lizhi Wu, Qingyang Dai, Yong Yang.  (2023)  Pendant Length-Dependent Electrochemical Performances for Conjugated Organic Polymers as Solid-State Polymer Electrolytes in Lithium Metal Batteries.  ACS Applied Materials & Interfaces,  15  (4): (5283–5292).  [PMID:36691802] [10.1021/acsami.2c20127]
12. Hongying Hou, Baoxiang Huang, Xiaohua Yu, Jian Lan, Fangshu Chen.  (2022)  Sulfonate betaine modified PVDF/SiO2 composite electrolyte for solid state lithium ion battery.  JOURNAL OF APPLIED POLYMER SCIENCE,  140  (9): (e53573).  [PMID:] [10.1002/app.53573]
13. Peishu Tian, Xin Zhong, Caiting Gu, Zhe Wang, Fengwei Shi.  (2022)  SiO2-Alginate-Based Gel Polymer Electrolytes for Zinc-Ion Batteries.  Batteries-Basel,  (10): (175).  [PMID:] [10.3390/batteries8100175]
14. Yang Wang, Minhao Guo, Hui Fu, Zhenzhong Wu, Yizhe Zhang, Guojie Chao, Suli Chen, Longsheng Zhang, Tianxi Liu.  (2022)  Thermotolerant separator of cross-linked polyimide fibers with narrowed pore size for lithium-ion batteries.  JOURNAL OF MEMBRANE SCIENCE,  662  (121004).  [PMID:] [10.1016/j.memsci.2022.121004]
15. Haitao Zhang, Yuchen Wang, Junfeng Huang, Wen Li, Xiankan Zeng, Aili Jia, Hongzhi Peng, Xiong Zhang, Weiqing Yang.  (2023)  Low-Enthalpy and High-Entropy Polymer Electrolytes for Li-Metal Battery.  Energy & Environmental Materials,    (e12514).  [PMID:] [10.1002/eem2.12514]
16. Yurui Deng, Yuelei Pan, Zhongxin Zhang, Yangyang Fu, Lunlun Gong, Chengyuan Liu, Jiuzhong Yang, Heping Zhang, Xudong Cheng.  (2021)  Novel Thermotolerant and Flexible Polyimide Aerogel Separator Achieving Advanced Lithium-Ion Batteries.  ADVANCED FUNCTIONAL MATERIALS,  32  (4): (2106176).  [PMID:] [10.1002/adfm.202106176]
17. Yuchen Wang, Wen Li, Zhong Xu, Yanting Xie, Yihan Wang, Haibo Zhao, Junfeng Huang, Weiqing Yang, Haitao Zhang.  (2021)  Perovskite Quantum Dots for Lewis Acid–Base Interactions and Interface Engineering in Lithium-Metal Batteries.  ACS Applied Energy Materials,  (10): (11470–11479).  [PMID:] [10.1021/acsaem.1c02226]
18. Ruijing Li, Zhao Fang, Cheng Wang, Xinlin Zhu, Xiaolong Fu, Jiajun Fu, Wuwei Yan, Yong Yang.  (2022)  Six-armed and dicationic polymeric ionic liquid for highly stretchable, nonflammable and notch-insensitive intrinsic self-healing solid-state polymer electrolyte for flexible and safe lithium batteries.  CHEMICAL ENGINEERING JOURNAL,  430  (132706).  [PMID:] [10.1016/j.cej.2021.132706]
19. Na Peng, Weijie Kou, Wenjia Wu, Shiyuan Guo, Yan Wang, Jingtao Wang.  (2022)  Laminar Composite Solid Electrolyte with Poly(Ethylene Oxide)-Threaded Metal-Organic Framework Nanosheets for High-Performance All-Solid-State Lithium Battery.  Energy & Environmental Materials,  (1): (e12280).  [PMID:] [10.1002/eem2.12280]
20. Pengfei Zhai, Na Peng, Zeyu Sun, Wenjia Wu, Weijie Kou, Guoshi Cui, Kang Zhao, Jingtao Wang.  (2020)  Thin laminar composite solid electrolyte with high ionic conductivity and mechanical strength towards advanced all-solid-state lithium–sulfur battery.  Journal of Materials Chemistry A,  (44): (23344-23353).  [PMID:] [10.1039/D0TA07630A]
21. Zhou Da, Li Libo, Du Jintian, Zhai Mo.  (2021)  Synergistic effect of soy protein isolate and montmorillonite on interface stability between polymer electrolyte and electrode of all-solid lithium-ion battery.  IONICS,  27  (1): (137-143).  [PMID:] [10.1007/s11581-020-03803-2]
22. Yu Juan, Gao Na, Peng Jiaxin, Ma Nani, Liu Xiaoyan, Shen Chao, Xie Keyu, Fang Zhao.  (2019)  Concentrated LiODFB Electrolyte for Lithium Metal Batteries.  Frontiers in Chemistry,    [PMID:31380343] [10.3389/fchem.2019.00494]
23. Jinli Wu, Kun Jiang, Guohui Li, Zhigang Zhao, Qingwen Li, Fengxia Geng.  (2019)  Molecularly Coupled Two-Dimensional Titanium Oxide and Carbide Sheets for Wearable and High-Rate Quasi-Solid-State Rechargeable Batteries.  ADVANCED FUNCTIONAL MATERIALS,  29  (30): (1901576).  [PMID:] [10.1002/adfm.201901576]
24. Jingyi Wu, Hongxia Zeng, Qingxuan Shi, Xiongwei Li, Qing Xia, Zhigang Xue, Yunsheng Ye, Xiaolin Xie.  (2018)  Safety-reinforced plastic crystal composite polymer electrolyte by 3D MoS2-based nano-hybrid for Li-metal batteries.  JOURNAL OF POWER SOURCES,  405  (7).  [PMID:] [10.1016/j.jpowsour.2018.10.030]
25. Wei Ni, Dan Yang, Jianli Cheng, Xiaodong Li, Qun Guan, Bin Wang.  (2016)  Gel-type polymer separator with higher thermal stability and effective overcharge protection of 4.2 V for secondary lithium-ion batteries.  RSC Advances,  (58): (52966-52973).  [PMID:] [10.1039/C6RA11638H]

References

1. Jean Pierre Mwizerwa a b, Changyong Liu a c, Kun Xu a, Ning Zhao a, Zhangwei Chen a c, Jun Shen.  (2022)  In-situ solution phase synthesis of LiFePO4@ VSe2 composite as highly active cathode for Li-ion batteries.  Journal of Alloys and Compounds ,    (901): (163639).  [PMID:] [https://doi.org/10.1016/j.jallcom.2022.163639]
2. Yanghui Song, Guanglei Zhao, Sihan Zhang, Chong Xie, Runde Yang, Xiaofeng Li.  (2023)  Chitosan nanofiber paper used as separator for high performance and sustainable lithium-ion batteries.  CARBOHYDRATE POLYMERS,    (6): (121530).  [PMID:38286525] [10.1016/j.carbpol.2023.121530]
3. Caiting Gu, Zhiyuan Liu, Xin Zhong, Yuan Gao, Jingwen Zhao, Fengwei Shi.  (2023)  GO-enhanced Gel Polymer Electrolyte for Aqueous Zinc-Ion Batteries.  Chemistry-An Asian Journal,  18  (24): (e202300818).  [PMID:37870377] [10.1002/asia.202300818]
4. Shujie Tang, Ziyue Yang, Mei Zhang, Min Guo.  (2023)  A simple green method for in-situ selective extraction of Li from spent LiFePO4 batteries by synergistic effect of deep-eutectic solvent and ozone.  ENVIRONMENTAL RESEARCH,  239  (117393).  [PMID:37838204] [10.1016/j.envres.2023.117393]
5. Chuan Tan, Wentao Wang, Yuping Wu, Yuhui Chen.  (2023)  Dissolved LiO2 or adsorbed LiO2? The reactive superoxide during discharging process in lithium–oxygen batteries.  FARADAY DISCUSSIONS,      [PMID:37753617] [10.1039/D3FD00080J]
6. Haoyuan Liu, Jian Cai, Peiqi Zhou, Lixin Li, Zhen Ma, Xiaoyang Zhao, Junmin Nan.  (2023)  A biomimetic green binder: Forming a biomorphic polymer network in SiOx anode to buffer expansion and enhance performance.  CHEMICAL ENGINEERING JOURNAL,  475  (146284).  [PMID:12717434] [10.1016/j.cej.2023.146284]
7. Yanghui Song, Guanglei Zhao, Sihan Zhang, Chong Xie, Xiaofeng Li.  (2023)  A Light-Thin Chitosan Nanofiber Separator for High-Performance Lithium-Ion Batteries.  Polymers,  15  (18): (3654).  [PMID:37765508] [10.3390/polym15183654]
8. Jian Lan, Hongying Hou, Xiaohua Yu, Ju Rong, Fangshu Chen.  (2023)  Building the homogeneous ionic interfaces and channels for high compatible composite PVDF/SiO2 solid electrolyte by grafting sulfonate betaine.  Surfaces and Interfaces,  39  (102978).  [PMID:] [10.1016/j.surfin.2023.102978]
9. Hongying Hou, Baoxiang Huang, Xiaohua Yu, Jian Lan, Sen Ming, Ju Rong, Xianxi Liu, Fangshu Chen.  (2023)  Compatible composite electrolyte membrane Li7La3Zr2O12/SB-PVDF for solid-state lithium ion battery.  Journal of Energy Storage,  68  (107680).  [PMID:] [10.1016/j.est.2023.107680]
10. Shuohao Wu, Mengjun Wu, Haining Zhang, Haolin Tang.  (2023)  Single-Ion-Conducting Gel Polymer Electrolyte Based on Lithiated Nafion.  ACS Applied Polymer Materials,  (6): (4266–4273).  [PMID:] [10.1021/acsapm.3c00455]
11. Baoxiang Huang, Hongying Hou, Xiaohua Yu, Jian Lan, Bin Liu, Songlin Tan, Xianxi Liu.  (2023)  High compatible double surface-modification SB-PVDF/SB-Li7La3Zr2O12 composite solid electrolytes.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  940  (117512).  [PMID:] [10.1016/j.jelechem.2023.117512]
12. Zhao Fang, Qinghua Deng, Yang Zhou, Xiaolong Fu, Jiacheng Yi, Lizhi Wu, Qingyang Dai, Yong Yang.  (2023)  Pendant Length-Dependent Electrochemical Performances for Conjugated Organic Polymers as Solid-State Polymer Electrolytes in Lithium Metal Batteries.  ACS Applied Materials & Interfaces,  15  (4): (5283–5292).  [PMID:36691802] [10.1021/acsami.2c20127]
13. Hongying Hou, Baoxiang Huang, Xiaohua Yu, Jian Lan, Fangshu Chen.  (2022)  Sulfonate betaine modified PVDF/SiO2 composite electrolyte for solid state lithium ion battery.  JOURNAL OF APPLIED POLYMER SCIENCE,  140  (9): (e53573).  [PMID:] [10.1002/app.53573]
14. Peishu Tian, Xin Zhong, Caiting Gu, Zhe Wang, Fengwei Shi.  (2022)  SiO2-Alginate-Based Gel Polymer Electrolytes for Zinc-Ion Batteries.  Batteries-Basel,  (10): (175).  [PMID:] [10.3390/batteries8100175]
15. Yang Wang, Minhao Guo, Hui Fu, Zhenzhong Wu, Yizhe Zhang, Guojie Chao, Suli Chen, Longsheng Zhang, Tianxi Liu.  (2022)  Thermotolerant separator of cross-linked polyimide fibers with narrowed pore size for lithium-ion batteries.  JOURNAL OF MEMBRANE SCIENCE,  662  (121004).  [PMID:] [10.1016/j.memsci.2022.121004]
16. Haitao Zhang, Yuchen Wang, Junfeng Huang, Wen Li, Xiankan Zeng, Aili Jia, Hongzhi Peng, Xiong Zhang, Weiqing Yang.  (2023)  Low-Enthalpy and High-Entropy Polymer Electrolytes for Li-Metal Battery.  Energy & Environmental Materials,    (e12514).  [PMID:] [10.1002/eem2.12514]
17. Yurui Deng, Yuelei Pan, Zhongxin Zhang, Yangyang Fu, Lunlun Gong, Chengyuan Liu, Jiuzhong Yang, Heping Zhang, Xudong Cheng.  (2021)  Novel Thermotolerant and Flexible Polyimide Aerogel Separator Achieving Advanced Lithium-Ion Batteries.  ADVANCED FUNCTIONAL MATERIALS,  32  (4): (2106176).  [PMID:] [10.1002/adfm.202106176]
18. Yuchen Wang, Wen Li, Zhong Xu, Yanting Xie, Yihan Wang, Haibo Zhao, Junfeng Huang, Weiqing Yang, Haitao Zhang.  (2021)  Perovskite Quantum Dots for Lewis Acid–Base Interactions and Interface Engineering in Lithium-Metal Batteries.  ACS Applied Energy Materials,  (10): (11470–11479).  [PMID:] [10.1021/acsaem.1c02226]
19. Ruijing Li, Zhao Fang, Cheng Wang, Xinlin Zhu, Xiaolong Fu, Jiajun Fu, Wuwei Yan, Yong Yang.  (2022)  Six-armed and dicationic polymeric ionic liquid for highly stretchable, nonflammable and notch-insensitive intrinsic self-healing solid-state polymer electrolyte for flexible and safe lithium batteries.  CHEMICAL ENGINEERING JOURNAL,  430  (132706).  [PMID:] [10.1016/j.cej.2021.132706]
20. Na Peng, Weijie Kou, Wenjia Wu, Shiyuan Guo, Yan Wang, Jingtao Wang.  (2022)  Laminar Composite Solid Electrolyte with Poly(Ethylene Oxide)-Threaded Metal-Organic Framework Nanosheets for High-Performance All-Solid-State Lithium Battery.  Energy & Environmental Materials,  (1): (e12280).  [PMID:] [10.1002/eem2.12280]
21. Pengfei Zhai, Na Peng, Zeyu Sun, Wenjia Wu, Weijie Kou, Guoshi Cui, Kang Zhao, Jingtao Wang.  (2020)  Thin laminar composite solid electrolyte with high ionic conductivity and mechanical strength towards advanced all-solid-state lithium–sulfur battery.  Journal of Materials Chemistry A,  (44): (23344-23353).  [PMID:] [10.1039/D0TA07630A]
22. Zhou Da, Li Libo, Du Jintian, Zhai Mo.  (2021)  Synergistic effect of soy protein isolate and montmorillonite on interface stability between polymer electrolyte and electrode of all-solid lithium-ion battery.  IONICS,  27  (1): (137-143).  [PMID:] [10.1007/s11581-020-03803-2]
23. Yu Juan, Gao Na, Peng Jiaxin, Ma Nani, Liu Xiaoyan, Shen Chao, Xie Keyu, Fang Zhao.  (2019)  Concentrated LiODFB Electrolyte for Lithium Metal Batteries.  Frontiers in Chemistry,    [PMID:31380343] [10.3389/fchem.2019.00494]
24. Jinli Wu, Kun Jiang, Guohui Li, Zhigang Zhao, Qingwen Li, Fengxia Geng.  (2019)  Molecularly Coupled Two-Dimensional Titanium Oxide and Carbide Sheets for Wearable and High-Rate Quasi-Solid-State Rechargeable Batteries.  ADVANCED FUNCTIONAL MATERIALS,  29  (30): (1901576).  [PMID:] [10.1002/adfm.201901576]
25. Jingyi Wu, Hongxia Zeng, Qingxuan Shi, Xiongwei Li, Qing Xia, Zhigang Xue, Yunsheng Ye, Xiaolin Xie.  (2018)  Safety-reinforced plastic crystal composite polymer electrolyte by 3D MoS2-based nano-hybrid for Li-metal batteries.  JOURNAL OF POWER SOURCES,  405  (7).  [PMID:] [10.1016/j.jpowsour.2018.10.030]
26. Wei Ni, Dan Yang, Jianli Cheng, Xiaodong Li, Qun Guan, Bin Wang.  (2016)  Gel-type polymer separator with higher thermal stability and effective overcharge protection of 4.2 V for secondary lithium-ion batteries.  RSC Advances,  (58): (52966-52973).  [PMID:] [10.1039/C6RA11638H]

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