Manganese Phosphorus Trisulfide Crystal 2D Material
SKU: CM3024
MSE PRO™ Manganese Phosphorus Trisulfide (MnPS3) Crystal 2D Material
Among the many materials with 2D structures, the family of transition metal chalcogenophosphates (MPX3; where M = V, Cr, Mn, Fe, Co, Ni, Cu, Zn, and Cd and X = S, Se, and Te) has recently attracted the growing attention from the research community. This interest arises from its extensive variety of electronic properties. Thus, these materials exhibit a wide bandgap (up to 3.5 eV) that broadens their potential application in optoelectronics; in addition, some of these materials exhibit cooperative magnetic properties, in particular antiferromagnetism, which has been proven to persist even in the 2D limit. Interestingly, the reliance between the structural, electronic and magnetic properties boosts their potential in spintronics. Furthermore, these materials have also been studied as promising candidates for electrocatalytic applications.
As a member of MPX3, Manganese Phosphorus Trisulfide (MnPS3) is a highly resistive broad band semiconductor. It has an isotropic antiferromagnetic behavior and can be used as a photocatalyst for water splitting, field-effect transistors, magnetic tunnel junction and spintronics devices.
Technical Data
Chemical Name | Manganese Phosphorus Trisulfide |
Synonyms | Manganese Phosphosulphide, Manganese Thiophosphate |
Chemical Formula | MnPS3 |
Molecular Weight (g/mol) | 182.07 |
CAS Number | 20642-09-5 |
Bandgap (eV) | 2.1-3.0 |
Density (g/cm3) | 2.68 |
Néel Temperature (K) | 78 |
Product Area Size (mm2) | ~10(CM3024), ~25(CM3025), ~100(CM3026) |
Purity | 99.99% |
Material Properties | Magnetic Semiconductor |
Structure | Monoclinic |
Color | Green |
References
1. Molecular stabilization of chemically exfoliated bare MnPS3 layers. Dalton Transactions 50, no. 44 (2021): 16281-16289.
3. Persistence of magnetism in atomically thin MnPS3 crystals. Nano letters 20, no. 4 (2020): 2452-2459.