Li3B5H2O10
ceramic· JVASP-96870· Li3B5H2O10
Li₃B₅H₂O₁₀ is a lithium borate hydride ceramic compound combining lithium, boron, hydrogen, and oxygen in a complex ionic structure. This is a research-phase material studied primarily for energy storage and solid-state electrolyte applications, where the lithium content and hydridic bonding offer potential for ionic conductivity and thermal stability in advanced battery systems. Compared to conventional lithium ceramic electrolytes, hydride-containing borates represent an emerging class exploring alternative ion transport mechanisms and may offer advantages in high-energy-density or solid-state battery chemistries, though practical engineering deployment remains limited to laboratory and prototype evaluation.
solid-state battery electrolyteslithium-ion conductor researchenergy storage systemsadvanced ceramics developmentthermal barrier coatings (potential)
Compliance & Regulations
?Conflict Free?RoHS?REACH?TSCA?Prop 65
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Density(ρ) | 0.08367 | lb/in³ | — |
Verified Unverified Low confidence (<80%) Link to source
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Band Gap(Eg) | 6.151 | eV | — | ||
Magnetic Moment(μB) | 0.000 | µB | — |
Verified Unverified Low confidence (<80%) Link to source
| Property | Value | Unit | Conditions | Source | |
|---|---|---|---|---|---|
Energy Above Hull(ΔEhull) | 0.00670 | eV/atom | — | ||
Formation Energy(ΔHf) | -2.349 | 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.