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. 2022 Oct 7;27(19):6678. doi: 10.3390/molecules27196678

Table 1.

Application of MnS nanoparticles prepared from different metal source. PS = present study.

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