Non‐modulated synthesis of cobalt‐doped MoS ₂ for improved supercapacitor performance

Abstract: A facile hydrothermal technique was employed to synthesized non-modulated cobalt-doped molybdenum sulfide (MoS 2 ) nanoflowers. The as-prepared materials were coated on commercially available Ni-foam to fabricate electrode materials for supercapacitor applications. The elucidation of the structural information, surface morphology, microstructural properties, as well as surface areas was successfully carried out by X-ray diffraction (XRD), Raman spectroscopy, scanning electron microscopy (SEM), transmission ele… Show more

“…Moreover, as the current density increases to 5 A g –1 , the power density will increase to 3501.9 W kg –1 , while the energy density will decay to 7.0 W h kg –1 . This performance is superior to the supercapacitor equipment constructed by some MoS 2 -based or other electrode materials, for example, a DAC/MoS 2 asymmetric device, 17 W h kg –1 and 200 W kg –1 ; a MoS 2 titanium plate, 11.11 W h kg –1 and 530 W kg –1 ; floral MoS 2 /CNT, 12.46 W h kg –1 and 70 W kg –1 ; cobalt-doped MoS 2 , 3.67 W h kg –1 and 2960.26 W kg –1 ; a MoS 2 -Ti 3 C 2 T x heterostructure, 5.1 W h kg –1 and 298 W kg –1 ; MoSe 2 /MWCNTs, 1.74 W h kg –1 and 1396 W kg –1 ; MoS 2 nanospheres: 5.42 W h kg –1 and 128 W kg –1 ; Ppy hydrogels, 4.13 W h kg –1 and 270 W kg –1 . It manifests that A-CuBHT/MoS 2 hybrid materials perform certain application value as an electrode material of supercapacitors.…”

Synergistic Enhancement of Capacitance of Amorphous CuBHT/MoS₂ Hybrids

“…Moreover, as the current density increases to 5 A g –1 , the power density will increase to 3501.9 W kg –1 , while the energy density will decay to 7.0 W h kg –1 . This performance is superior to the supercapacitor equipment constructed by some MoS 2 -based or other electrode materials, for example, a DAC/MoS 2 asymmetric device, 17 W h kg –1 and 200 W kg –1 ; a MoS 2 titanium plate, 11.11 W h kg –1 and 530 W kg –1 ; floral MoS 2 /CNT, 12.46 W h kg –1 and 70 W kg –1 ; cobalt-doped MoS 2 , 3.67 W h kg –1 and 2960.26 W kg –1 ; a MoS 2 -Ti 3 C 2 T x heterostructure, 5.1 W h kg –1 and 298 W kg –1 ; MoSe 2 /MWCNTs, 1.74 W h kg –1 and 1396 W kg –1 ; MoS 2 nanospheres: 5.42 W h kg –1 and 128 W kg –1 ; Ppy hydrogels, 4.13 W h kg –1 and 270 W kg –1 . It manifests that A-CuBHT/MoS 2 hybrid materials perform certain application value as an electrode material of supercapacitors.…”

Synergistic Enhancement of Capacitance of Amorphous CuBHT/MoS₂ Hybrids

“…S4 (ESI†), all three samples possess a type-IV isotherm with an obvious hysteresis loop at high relative pressures, verifying the existence of mesopores. 37 The specific surface area of MnP–MoS 2 , Mn–MoS 2 and MoS 2 is respectively calculated to be 9.57, 7.99, and 7.46 m 2 g −1 . The pore size distribution curves shown in Fig.…”

Flower-like manganese and phosphorus co-doped MoS₂with high 1T phase content as a supercapacitor electrode material

“…4f, all three samples exhibit a type-IV isotherm with distinct hysteresis loops at high relative pressures, manifesting the existence of mesopores. 37 The specific surface area of SP-MoS 2 , P-MoS 2 and MoS 2 is calculated to be 21.0, 10.7, and 7.3 m 2 g −1 , respectively. The pore size distribution curves of the samples are illustrated in Fig.…”

Phosphorus doped molybdenum disulfide regulated by sodium chloride for advanced supercapacitor electrodes