Table 1.
Appearance | Source | Phase | Time | T. °C | Size (nm) | Applications or Potential | Year | Reference |
---|---|---|---|---|---|---|---|---|
Spherical | MnCl2·2H2O | MnS_2 | 30 min | 30–40 | Photocatalytic hydrogen | 2022 | [37] | |
Spherical | MnCl2·2H2O | MnS | 30 min | 400 | 9.19–14.85 | Antibacterial activity | 2021 | [38] |
Flower-like | Mn(CH3COO)24·H2O | γ-MnS Mn3O4 |
2 h | 220 | 400–600 | Photocatalytic activity | 2018 | [34] |
Nanoparticles | Mn(CH3COO)2·4H2O | MnS | 3 h | 800 | Sodium-ion capacitors | 2020 | [36] | |
Heterostructures | Mn(CH3COO)2·4H2O | γ-MnS α-MnS MnS |
2 h | 300 | 15–20 | Optoelectronics | 2020 | [29] |
Nanoparticles | Mn(NO3)2·4H2O | γ-MnS | 24 h | 90 | 15 | Supercapacitors | 2018 | [25] |
Nanopores | Mn(NO3)2·4H2O | MnS | 24 h | 25 | Optoelectronics | 2017 | [32] | |
Spherical | C4H6MnO4·4H2O | γ-MnS | 2 h | 40 | 21–45 | Photoconductors | 2017 | [26] |
Nanoparticles | Mn(NO3)2 | γ-MnS | 3 h | 85 | 20–30 | Supercapacitors | 2017 | [35] |
Spherical | MnCl₂·4H₂O | γ-MnS | 2 h | 260 | 2–15 | QDSC | 2022 | PS |