Li2NiO2

ceramic
· Li2NiO2

Li2NiO2 is a lithium nickel oxide ceramic compound, part of the layered transition metal oxide family that has attracted significant research interest for energy storage and electrochemical applications. While primarily investigated in laboratory and early-stage development settings rather than established industrial production, this material is of particular interest to battery researchers and electrochemists studying next-generation lithium-ion and solid-state battery chemistries, where nickel-based layered oxides serve as cathode active materials. Engineers considering this material should recognize it as an experimental compound whose potential lies in improving energy density, cycling stability, and thermal performance in advanced battery systems compared to conventional cathode chemistries.

lithium-ion battery cathodes (research)solid-state battery developmentenergy storage systemselectrochemical applicationsnext-generation battery materialsnickel oxide compound research

Compliance & Regulations

?Conflict Free?RoHS?REACH?TSCA?Prop 65
Units:
siimperial
PropertyValueUnitConditionsSource
Bulk Modulus(K)2 entries
ksi
ksi
Poisson's Ratio(ν)
-
Shear Modulus(G)2 entries
ksi
ksi
N entriesMultiple entries per property — large groups are collapsed; click a summary row to expand. Use filters above to narrow by form / heat treatment / basis.
Verified Unverified Low confidence (<80%) Link to source
PropertyValueUnitConditionsSource
Density(ρ)
lb/in³
Verified Unverified Low confidence (<80%) Link to source
PropertyValueUnitConditionsSource
Band Gap(Eg)
eV
Dielectric Constant (Relative Permittivity)(εr)2 entries
-
-
Electronic Dielectric Tensor(ε∞)
Matrix (redacted)
-
Total Dielectric Tensor(ε)
Matrix (redacted)
-
Magnetic Moment(μB)
µB
Piezoelectric Modulus(eij)
C/m²
Seebeck Coefficient(S)
µV/K
N entriesMultiple entries per property — large groups are collapsed; click a summary row to expand. Use filters above to narrow by form / heat treatment / basis.
Verified Unverified Low confidence (<80%) Link to source
PropertyValueUnitConditionsSource
Energy Above Hull(ΔEhull)
eV/atom
Formation Energy(ΔHf)
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.