Li4MnO2F2
ceramicLi4MnO2F2 is an experimental lithium manganese oxide fluoride ceramic compound currently under research investigation for advanced energy storage applications. This material belongs to the family of lithium-based oxyfluoride ceramics, which are being explored as potential cathode or solid electrolyte materials for next-generation lithium-ion and solid-state batteries due to their ionic conductivity and electrochemical stability. While not yet in widespread commercial production, compounds in this class are notable for combining the electrochemical advantages of manganese oxides with the enhanced ionic transport properties that fluoride incorporation can provide, making them candidates for high-energy-density battery systems where conventional materials reach performance limits.
Compliance & Regulations
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Bulk Modulus(K) | 9,962.6 | ksi | — | ||
Poisson's Ratio(ν) | 0.2600 | - | — | ||
Shear Modulus(G) | 5,721.7 | ksi | — |
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Density(ρ) | 0.09733 | lb/in³ | — |
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Band Gap(Eg) | 1.763 | eV | — | ||
Magnetic Moment(μB) | 10.00 | µB | — | ||
Seebeck Coefficient(S) | -334.3 | µV/K | — |
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Energy Above Hull(ΔEhull) | 0.000 | eV/atom | — | ||
Formation Energy(ΔHf) | -2.302 | eV/atom | — |