A feasible approach to rectify the world's energy demand using sustainable development of adequate energy generation and storage technologies in a single channel.In this respect,we made a holistic approach with a ...A feasible approach to rectify the world's energy demand using sustainable development of adequate energy generation and storage technologies in a single channel.In this respect,we made a holistic approach with a bifunctional electrode material to perform effectively in energy generation and storage applications.MoS_(2) nanosheets were produced by the eco-friendly method and reduced graphene oxide is used to prepared by carbon soot which is derived from castor oil.The prepared soot and rGO were combined with MoS_(2) nanosheets using a simple sonication method.The as-prepared sample was introduced in the supercapacitor and DSSC application.The combination MoS_(2)@rGO provides an enhanced conversion efficiency of 11.81%and the reproducibility of DSSC is also studied.Further,MoS_(2)@rGO is used to fabricate an asymmetric supercapacitor to investigate its real-time application.The device produced the maximum power density(1666.6 mW/kg)and energy density(25.69 mWh/Kg)at 1 A/g.The asymmetric supercapacitor device holds a cyclic stability of 81.4%for 5000 cycles and it powered up an LED device for 4 min.展开更多
基金financial support by MHRD-SPARC-890(2019)UAE for financial support+1 种基金the full financial support by MHRD-SPARC-890(2019)the instrumentation facility utilized from RUSA 2.0 grant No.F.24-51/2014-U,Policy(TNMultiGen)Govt of India Projects。
文摘A feasible approach to rectify the world's energy demand using sustainable development of adequate energy generation and storage technologies in a single channel.In this respect,we made a holistic approach with a bifunctional electrode material to perform effectively in energy generation and storage applications.MoS_(2) nanosheets were produced by the eco-friendly method and reduced graphene oxide is used to prepared by carbon soot which is derived from castor oil.The prepared soot and rGO were combined with MoS_(2) nanosheets using a simple sonication method.The as-prepared sample was introduced in the supercapacitor and DSSC application.The combination MoS_(2)@rGO provides an enhanced conversion efficiency of 11.81%and the reproducibility of DSSC is also studied.Further,MoS_(2)@rGO is used to fabricate an asymmetric supercapacitor to investigate its real-time application.The device produced the maximum power density(1666.6 mW/kg)and energy density(25.69 mWh/Kg)at 1 A/g.The asymmetric supercapacitor device holds a cyclic stability of 81.4%for 5000 cycles and it powered up an LED device for 4 min.
