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Materials | CapacitymAh g-1 | CurrentmA | Cycles | Voltage | Retention | Electrode | Type | E‑density | Authors | Pub date | Actions | DOI |
---|---|---|---|---|---|---|---|---|---|---|---|---|
FeC6 K1.88Zn2.88(Fe(CN)6)2(H2O)5 KZnHCF V Zn Fe ZnN4 | 56 | 55.6 | 100 | 3.9 | 95% | cathode | K-Ion | February 15, 2019 | doi | |||
Na2Ni0.4Co0.6(Fe(CN)6) Ag AgCl Co2+ Fe2+ V | 60 85 | 0.5 | 100 | 90% | cathode | Na-Ion | November 28, 2010 | doi | ||||
Ag AgCl Co3+ Co2+ Fe3+ Fe2+ Na2Co0.8Ni0.2(Fe(CN)6) NaTi2(PO4)3 V W | 70 116 | 50 100 | 100 | 0.67 | 88% | cathode/anode | Na-Ion | 101 | February 26, 2020 | doi | ||
Co K2CoFe(CN)6 K2Ni0.36Co0.64Fe(CN)6 K2NiFe(CN)6 K2NixCo1–xFe(CN)6 Ni | 86 | 50 300 | 98% 88% | cathode | K-ion | August 22, 2019 | doi | |||||
K4Fe(CN)6 Ni(OH)2 Zn–K4Fe(CN)6 K4Fe(CN)6 | 29000 | cathode | Flow | 16.0 Wh | October 21, 2019 | doi | ||||||
Na2CoFe(CN)6 Fe(CN)6 | 100 150 | 200 | 90% | cathode | Na-Ion | February 5, 2016 | doi | |||||
Fe4(Fe(CN)6)3 | 113 93 115 | 50 | 150 | 96% 100% | cathode | Na-Ion | June 6, 2016 | doi | ||||
Na2NixMnyFe(CN)6 Mn2+ Ni2+ (Fe(CN)6)4– | 150 77 | 1600 | cathode | Na-Ion | October 31, 2016 | doi | ||||||
Na2VOx(Fe(CN)6) Ag AgCl V VHCF | 80 | 30 | cathode | Na-Ion | February 16, 2010 | doi | ||||||
K2Mn(Fe(CN)6) V K Mn Fe | 134 | 200 | 4.0 | cathode | K-Ion | August 20, 2020 | doi |
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The base version of the database contains the extracted data available in the abstracts of the leading scientific journals.
What's included
materials (chemical formula)
capacity
number of cycles
voltage
retention
type of electrode
electron density
authors
publication date
other useful data
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- What's the point of the platform?
- If your R&D team is part of battery Innovation Company in any type of industries for example automotive mobility, material handling, logistics applications, off-roads transportation, or stationary energy storage batteries, then save time for research by getting access to our platform.
- If you are willing to know the latest scientific news on specific types of batteries: NMC, Li-ion, Li-S, Li-polymer, or others, welcome to our platform.
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- We save the R&D time for researchers and time to market for companies.
- We keep up you updated on the tech trends in battery development.
- We help you avoid the risk of obsolete technology.
- What are the benefits?
- Quick and complete analysis, allowing researchers to get a report on the compound of interest online. For companies, it will help reduce the time to market.
- The end report will help you choose materials to manufacture energy storage and conversion systems.
- Having the most relevant scientific research data on electrochemical properties of materials for energy storage and conversion at your disposal, you will never face the risk of obsolete technology at your organization.
- What are the key features for battery explorers?
- Search for information on electrode materials by chemistry, composition, type, class or property.
- Find potential materials for most battery types: Li-ion, Li-Po1, Li-Po2, Li-S, NiMH, lead acid, etc.
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