WANG Meng-ya, LI Shi-you, GAO Can-kun, FAN Xiao-qi, QUAN Yin, LI Xiao-hua, LI Chun-lei, ZHANG Ning-shuang. The production of electrodes for microsupercapacitors based on MoS2-modified reduced graphene oxide aerogels by 3D printing[J]. New Carbon Mater., 2024, 39(2): 283-296. DOI: 10.1016/S1872-5805(24)60823-1
Citation: WANG Meng-ya, LI Shi-you, GAO Can-kun, FAN Xiao-qi, QUAN Yin, LI Xiao-hua, LI Chun-lei, ZHANG Ning-shuang. The production of electrodes for microsupercapacitors based on MoS2-modified reduced graphene oxide aerogels by 3D printing[J]. New Carbon Mater., 2024, 39(2): 283-296. DOI: 10.1016/S1872-5805(24)60823-1

The production of electrodes for microsupercapacitors based on MoS2-modified reduced graphene oxide aerogels by 3D printing

  • Micro-supercapacitors (MSCs) are of interest because of their high power density and excellent cycling performance, offering a broad array of potential applications. However, preparing electrodes for the MSCs with an extremely high areal capacitance and energy density remains a challenge. We constructed MSC electrodes with an ultra-high area capacitance and a high energy density, using reduced graphene oxide aerogel (GA) and MoS2 as the active materials, combined with 3D printing and surface modification. Using 3D printing, we obtained electrodes with a stable macrostructure and a GA-crosslinked micropore structure. We also used a solution method to load the surface of the printed electrode with molybdenum disulfide nanosheets, further improving the electrochemical performance. The surface capacitance of the electrode reached 3.99 F cm2, the power density was 194 W cm2, and the energy density was 1997 mWh cm2, confirming its excellent electrochemical performance and cycling stability. This work provides a simple and efficient method for preparing MSC electrodes with a high areal capacitance and energy density, making them ideal for portable electronic devices.
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