Ca3WO6

Ca3WO6 is a stable, wide-band-gap insulating oxide compound composed of calcium, tungsten, and oxygen.

CaOW
Crystal structure of Ca3WO6 (trigonal, R-3 (No. 148))
Ground-state structure · Materials Project
Overview

About Ca3WO6

Ca3WO6 is a complex oxide characterized by its wide-band-gap insulating nature. As a thermodynamically stable phase residing on the convex hull, it exhibits robust structural integrity, making it a subject of interest for researchers investigating stable inorganic frameworks.

This material is frequently studied for its potential in specialized electronic and optical applications where insulating behavior and high thermal stability are critical requirements. Its presence across multiple structural databases highlights its significance as a well-defined crystalline compound.

At a glance

Key Properties

Cross-validated computational properties for Ca3WO6, aggregated across 3 databases.

Band Gap

3.56–3.71 eV
Range across DFT structures

Energy Above Hull

0.000 eV/atom
Best (lowest) across sources

Stability

On hull (stable)
2 DFT sources

Structures

9
3 databases, 2 space groups
Crystallography

Reported Structures

Lowest-energy structures reported for Ca3WO6, ranked by energy above hull.

Space GroupCrystal SystemBand Gap (eV)E above hull (eV/atom)E/atom (eV)Density (g/cm³)
R-3 (No. 148)trigonal3.710.0000-7.9474.75
P21/c (No. 14)monoclinic3.560.0247-7.9234.97
R-3 (No. 148)Trigonal4.60
R-3 (No. 148)Trigonal4.95
P21/c (No. 14)Monoclinic5.10
P21/c (No. 14)Monoclinic5.34
P21/c (No. 14)Monoclinic4.97
R-3 (No. 148)Trigonal4.73
R-3 (No. 148)
Synthesis

Synthesis Routes

Literature-extracted synthesis procedures targeting Ca3WO6.

Sol-Gel
Procedure available · ceder_solid_state
Uses

Applications

Where Ca3WO6 is used.

Dielectric materialsSolid-state sensorsAdvanced ceramic research
Reference

Frequently Asked Questions

Common questions about Ca3WO6, answered from cross-validated data.

What is Ca3WO6?

Ca3WO6 is a stable, wide-band-gap insulating oxide compound composed of calcium, tungsten, and oxygen.

More questions
What is Ca3WO6 used for?
Ca3WO6 is used in dielectric materials, solid-state sensors, and advanced ceramic research.
What is the band gap of Ca3WO6?
Ca3WO6 has a DFT-computed band gap of 3.56–3.71 eV across 9 reported structures.
Is Ca3WO6 a metal, semiconductor, or insulator?
With a wide band gap up to 3.71 eV it is an insulator / wide-band-gap material.
Is Ca3WO6 thermodynamically stable?
Yes — Ca3WO6 sits on the convex hull (energy above hull 0 eV/atom), i.e. on hull (stable).
What is the crystal structure of Ca3WO6?
The lowest-energy reported polymorph of Ca3WO6 is trigonal symmetry, space group R-3 (No. 148).
What is the density of Ca3WO6?
The computed density of the ground-state structure of Ca3WO6 is 4.75 g/cm³.
How many polymorphs of Ca3WO6 are known?
9 structures of Ca3WO6 are reported across 3 databases, spanning 2 distinct space groups.
How is Ca3WO6 synthesized?
Literature-reported routes for Ca3WO6 include sol-gel.
What elements does Ca3WO6 contain?
Ca3WO6 contains Ca, O, and W (3 elements).
Where does the data for Ca3WO6 come from?
Ca3WO6 data is cross-referenced from materials_project, mpaloe, jarvis.
Comparison

How It Compares

As a stable oxide, Ca3WO6 serves as a foundational example of this specific chemical system, demonstrating the structural reliability often sought in complex ternary oxides. It represents a key reference point for understanding the interplay between calcium, tungsten, and oxygen in maintaining a stable lattice configuration.

Data sources & attribution
  • materials_project — Data from the Materials Project. Cite: Jain et al., APL Materials 1, 011002 (2013).
  • mpaloe — Data from mpaloe.
  • jarvis — Data from JARVIS (NIST). Cite: Choudhary et al., npj Comp. Mater. 6, 173 (2020).

Analyze Ca3WO6 in the Lattice Graph platform

Polymorph comparison, confidence scoring, supply-chain risk, and patent monitoring — across 53 integrated data sources.

Explore the Platform →