This article reports on work where as-synthesized BCNTs are prepared by catalytic thermal Chemical Vapor Deposition (CVD) resulting in fast charge transfer between electrode and electrolyte. The ...

(a) The electrochemical stability window of high-concentrated LiCl aqueous electrolyte expands to ~ 2.7 V. (b) The voltage window of MXene electrode in high-concentrated LiCl aqueous electrolyte is ...

As we all know supercapacitors are distinguished by high charge and discharge rates and a higher energy storage capacity per unit mass or volume as compared to a battery. They can be charged and ...

Chemical vapor deposition (CVD) is a process widely used in the manufacturing of electronic and energy devices as it is able to form conducting, semiconducting and dielectric thin films. Here, in the ...

Supercapacitors possess a high cycle efficiency (more than a million cycles), a large number of charging cycles higher than 95%, and a faster discharge time with a longer life. The high value of a ...