https://scholars.lib.ntu.edu.tw/handle/123456789/635789
Title: | High-performance asymmetric supercapacitor device with nickel-cobalt bimetallic sites encapsulated in multilayered nanotubes | Authors: | Patil, Rahul Pradhan, Lingaraj Matsagar, Babasaheb M. Agrawal, Omnarayan KEVIN CHIA-WEN WU Jena, Bikash Kumar Dutta, Saikat |
Issue Date: | 1-Jan-2023 | Source: | Energy Advances | Abstract: | Enhanced faradaic capacitance can be achieved by using a metallic heterostructure as a result of the intrinsic activity of the electrodes. Optimizing the multimetallic heterostructure is key to improving the intrinsic activity of the electrodes. Herein, a consolidated strategy of a multimetallic design with predominantly nickel, cobalt, and zinc centers on multiwalled nanotubes was developed via pyrolysis of a trimetallic metal-organic framework at 800 °C. The resulting C-ZIF-800 material offers a multiwalled nanotube-like structure that facilitates the encapsulation of multimetallic sites with predominantly nickel and cobalt centers on a nanotube-like N-C interface. XRD, HRTEM, XPS, and EXAFS spectroscopic analysis support the metallic valence state of the Ni and Co centers encapsulated in the N-C nanotubes. C-ZIF-800 offers an outstanding specific capacitance of 849.47 F g−1 at a current density of 1 A g−1. Based on three-electrode electrochemical measurements, an asymmetric supercapacitor (ASC) device (C-ZIF-800//AC) was fabricated with a wide potential window of 1.7 V. The device offers an excellent specific capacity of 599.7 C g−1 at 0.25 A g−1 with an exceptional energy density of 141.59 W h kg−1 at a power density of 212.5 W kg−1, and remaining 4250 W kg−1 after retaining 81.93 W h kg−1 of energy density. The as-fabricated device demonstrated its excellent potential for future energy storage applications by illuminating a red LED light for 60 min by combining two devices in series. |
URI: | https://scholars.lib.ntu.edu.tw/handle/123456789/635789 | DOI: | 10.1039/d3ya00206c |
Appears in Collections: | 化學工程學系 |
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