Development of Flexible High-Efficient Aluminum ion Supercapacitors With 2D Niobium MXene Electrode

Energy Storage Pub Date : 2024-08-06 DOI:10.1002/est2.70012
Latha Malyala, Sampath Karingula, Thirupathi Bhookya, Gobi K Vengatajalabathy
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Abstract

A high-performance aluminum-ion supercapacitor is fabricated using 2D few-layered Nb2CTx MXene, as an active electrode material and Al2(SO4)3 electrolyte for efficient energy storage. Nb2CTx MXene has been synthesized from Nb2AlC MAX phase using HF. Nb2CTx MXene coated on carbon cloth (Nb@CC) displays a capacitance of 307 F g−1 with 90% coulombic efficiency. The specific capacitance of Nb@CC in Al2(SO4)3 electrolyte is exceptionally high compared to those (≤32.2 F g−1) in H2SO4, Na2SO4, and MgSO4 electrolytes. Both symmetric and asymmetric aluminum ion supercapacitors are fabricated with Nb@CC electrode. The Nb@CC//Nb@CC symmetric device exhibits a capacitance of 122 F g−1 with a high energy density (Ed) of 33.2 Wh kg−1 at 1.41 kW kg−1 power density (Pd). An asymmetric supercapacitor device (ASC), Nb@CC//CNT@CC, with carbon nanotube (CNT@CC) cathode delivers a maximum Ed of 24.7 Wh kg−1 at 3.41 kW kg−1 Pd and excellent stability with 90% capacitance retention after 4000 cycles. A remarkably high Pd of 34 kW kg−1 is maintained with 13.2 Wh kg−1 Ed, and the rate capability is 53% for a 10-fold increase in current density. These results offer the feasibility of efficient aqueous supercapacitors with Al-ion as guest species, presenting new possibilities for supercapacitors.

Abstract Image

利用二维铌 MXene 电极开发柔性高效铝离子超级电容器
使用二维少层 Nb2CTx MXene 作为活性电极材料,并使用 Al2(SO4)3 电解质制造了一种高性能铝离子超级电容器,用于高效储能。Nb2CTx MXene 是用高频从 Nb2AlC MAX 相合成的。涂覆在碳布(Nb@CC)上的 Nb2CTx MXene 的电容为 307 F g-1,库仑效率为 90%。与在 H2SO4、Na2SO4 和 MgSO4 电解质中的比电容(≤32.2 F g-1)相比,Nb@CC 在 Al2(SO4)3 电解质中的比电容特别高。对称和不对称铝离子超级电容器都是用 Nb@CC 电极制造的。Nb@CC//Nb@CC 对称器件的电容为 122 F g-1,在 1.41 kW kg-1 功率密度(Pd)条件下,能量密度(Ed)高达 33.2 Wh kg-1。采用碳纳米管(CNT@CC)阴极的非对称超级电容器器件(ASC)--Nb@CC//CNT@CC--在 3.41 kW kg-1 Pd 条件下的最大 Ed 值为 24.7 Wh kg-1,且稳定性极佳,4000 次循环后电容保持率为 90%。在 13.2 Wh kg-1 Ed 的条件下,Pd 可保持在 34 kW kg-1 的极高水平,在电流密度增加 10 倍的情况下,速率能力提高了 53%。这些结果提供了以铝离子为客体的高效水性超级电容器的可行性,为超级电容器提供了新的可能性。
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