Özet:

In this study, the synthesis and electrochemical application of boron nitride quantum dot (BNKN) / reduced graphene oxide (rGO) hybrid structure, which is a new electrode material to be used for supercapacitors, is investigated. BNKN is recommended because it has the same crystal structure as graphene oxide (GO), and so the hybrid structure of BNKN@rGO exhibits excellent electrical characteristics. BNKN, a hexagonal boron nitride (h-BN) nanostructure-based hybrid material, has appeared in recent studies due to its thermal stability and electrical conductivity, while graphene is frequently preferred in supercapacitor studies because it has a large specific surface area. In addition, the main reason for adding different heterostructures to this structure to improve the capacitance value of graphene is; changing the electron donating properties of carbon materials has been made a priority. Therefore, the specific capacitance value was measured, considering that the BNKN@rGO hybrid electrode to be used in supercapacitors would increase the electrochemical activity. A high capacitance value of 207.5 F/g was found at 5 mvs-1 scanning speed of the BNKN@rGOH hybrid structure as a result of electrochemical investigations. At 10,000 cycles, it also demonstrated a cyclic stability performance of 88.9%.

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