Li4Mn3O5F3
ceramic· JVASP-137379· Li4Mn3O5F3
Li4Mn3O5F3 is a lithium manganese oxide fluoride ceramic compound being investigated as a potential cathode material for advanced lithium-ion and solid-state battery systems. This mixed-anion ceramic represents an emerging research direction in battery materials, where fluoride substitution aims to improve electrochemical performance, thermal stability, and ionic conductivity compared to conventional oxide cathodes. Engineers evaluating this material should recognize it as a laboratory-stage compound rather than a commercial product, relevant primarily to battery developers working on next-generation energy storage with enhanced safety and cycle life.
lithium-ion battery cathodessolid-state battery developmenthigh-energy-density storagethermal stability enhancementadvanced electrochemistry researchelectric vehicle power systems
Compliance & Regulations
?Conflict Free?RoHS?REACH?TSCA?Prop 65
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Density(ρ) | 0.1375 | lb/in³ | — |
Verified Unverified Low confidence (<80%) Link to source
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Band Gap(Eg) | 0.05400 | eV | — |
Verified Unverified Low confidence (<80%) Link to source
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Energy Above Hull(ΔEhull) | 0.000 | eV/atom | — | ||
Formation Energy(ΔHf) | -2.275 | eV/atom | — |
Verified Unverified Low confidence (<80%) Link to source
Regulatory Screening
Environmental
RoHS, REACH, and Prop 65 statuses are validated against official substance lists (ECHA SVHC Candidate List, OEHHA Prop 65, RoHS Annex II). Other regulations are estimated from composition and material classification. All screening is a starting point for due diligence — always verify with your supplier before making compliance decisions.