Li2CrCo3O8
Li2CrCo3O8 is a semiconducting, near-hull stable lithium transition-metal oxide with potential applications in energy storage technology.
About Li2CrCo3O8
Li2CrCo3O8 belongs to the class of layered lithium transition-metal oxides, characterized by its semiconducting electronic nature. As a near-hull stable compound, it is considered a promising candidate for experimental synthesis and further investigation within materials science research.
This material is of significant interest for its structural complexity and potential utility in electrochemical applications. Its position within the lithium-based oxide family suggests it may offer unique pathways for ion transport and stability in battery-related environments.
Key Properties
Cross-validated computational properties for Li2CrCo3O8, aggregated across 3 databases.
Band GapEnergy needed to move an electron from the valence band to the conduction band. Lower or zero values tend to behave more metallic; larger gaps are more insulating or semiconducting.
Energy Above HullThermodynamic distance from the most stable set of competing phases. 0 eV/atom is on the convex hull; small positive values may still be experimentally accessible.
StabilityA plain-language summary of the best reported energy-above-hull result. It reflects whether the lowest-energy structure is on, near, or far from the stability hull.
StructuresCount of reported calculated crystal structures for this formula, including alternate polymorphs, source databases, and observed space groups.
Reported Structures
Lowest-energy structures reported for Li2CrCo3O8, ranked by energy above hull.
| Space GroupSymmetry classification of the crystal arrangement. The number is the international space-group index. | Crystal SystemBroad lattice family, such as cubic, tetragonal, monoclinic, or triclinic, derived from unit-cell symmetry. | Band Gap (eV)Electronic gap calculated for this specific reported structure, measured in electronvolts. | E above hull (eV/atom)Thermodynamic distance from the convex hull for this structure, normalized per atom. Lower is generally more stable. | E/atom (eV)Computed total energy normalized per atom. Use energy above hull, not this value alone, when comparing stability. | Density (g/cm³)Mass per relaxed crystal volume, reported in grams per cubic centimeter. |
|---|---|---|---|---|---|
| R32 (No. 155) | trigonal | 0.56 | 0.0143 | -7.012 | 4.54 |
| R-3m (No. 166) | trigonal | 0.00 | 0.0196 | -7.006 | 4.58 |
| C2/m (No. 12) | monoclinic | 0.00 | 0.0201 | -7.006 | 4.44 |
| C2 (No. 5) | monoclinic | 0.00 | 0.0356 | -6.990 | 4.58 |
| P63mc (No. 186) | hexagonal | 0.00 | 0.0392 | -6.987 | 4.71 |
| C2/m (No. 12) | monoclinic | 0.00 | 0.0430 | -6.983 | 4.37 |
| P1 (No. 1) | triclinic | 0.13 | 0.0466 | -6.979 | 4.34 |
| P4332 (No. 212) | cubic | 0.00 | 0.0578 | -6.968 | 4.68 |
| P-1 (No. 2) | triclinic | 0.00 | 0.1005 | -6.925 | 4.32 |
| R-3m (No. 166) | — | — | — | — | — |
| R-3m (No. 166) | Trigonal | — | — | — | 4.75 |
| P63mc (No. 186) | Hexagonal | — | — | — | 4.96 |
Applications
Where Li2CrCo3O8 is used.
Frequently Asked Questions
Common questions about Li2CrCo3O8, answered from cross-validated data.
What is Li2CrCo3O8?
Li2CrCo3O8 is a semiconducting, near-hull stable lithium transition-metal oxide with potential applications in energy storage technology.
What is Li2CrCo3O8 used for?
What is the band gap of Li2CrCo3O8?
Is Li2CrCo3O8 a metal, semiconductor, or insulator?
Is Li2CrCo3O8 thermodynamically stable?
What is the crystal structure of Li2CrCo3O8?
What is the density of Li2CrCo3O8?
How many polymorphs of Li2CrCo3O8 are known?
What elements does Li2CrCo3O8 contain?
Where does the data for Li2CrCo3O8 come from?
How It Compares
Within the layered lithium transition-metal oxides class.
Within the diverse family of layered lithium transition-metal oxides, Li2CrCo3O8 occupies a niche structural space compared to widely utilized industry standards like LiCoO2. While LiCoO2 is a foundational cathode material, Li2CrCo3O8 represents a more complex, multi-metal oxide system that pushes the boundaries of conventional stoichiometry found in simpler compounds like LiAlO2 or LiMnO2.
Related Compounds
Other Layered Lithium Transition-Metal Oxides in the database.
Data sources & attribution
- materials_project — Data from the Materials Project. Cite: Jain et al., APL Materials 1, 011002 (2013).
- jarvis — Data from JARVIS (NIST). Cite: Choudhary et al., npj Comp. Mater. 6, 173 (2020).
- mpaloe — Data from mpaloe.
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