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. 2020 Nov 5;10:19198. doi: 10.1038/s41598-020-75879-9

Table 2.

Literature study for Cu2NiSnS4 ASS-SC devices that provide supercapacitive parameters.

Materials Morphology Specific capacitance@GCD Energy density (Wh kg−1) Power density (W kg−1) Stability (%)@ cycle Refs.
SnS Nanorods 70 F/g@0.5 mA/cm2 1.49 248.33 48
CuS/3DG Nanoplates 249 F/g@4A/g 5 450 95%@5000 49
CuS Microsphers 237 F/g@0.5A/g 15.06 392.9 88% %@4000 50
CuS/C-120@PANI Nanoparticles 425.53 F/g@1 mA/g 89.86%@3000 51
NiCo2S4@NiMoO4 Nanotube array 2006 F g-1@5 mA/cm2 21.4 58 78%@2000 52
CuO 3D flower-shape 612 F/g@1A/g 27.27 800 98%@4000 53
Cu2NiSnS4 Flower-like microspheres 508 F/g@2 A/g 30.88 2.42 95.7%@2000 37
Ni0.67Cu0.33Co2S4 Spherical cluster nanorods 1340.48 F/g@1A/g 40 412.5 80.45%@10,000 54
Cu2NiSnS4 Marigold flower 1029@0.5A/g 41.25 750 59.31%@5000 This work