然而,由于氧化还原活性基团的利用率有限,电导率较差,目前报道的COF-基正极的容量和倍率性能都不理想。基于此,山东理工大学周朋飞副教授等人报道了利用原位缩聚法制备了一种具有丰富氧化还原活性基团的新型TP-OH-COF,并与碳纳米管结合(TP-OH-COF@CNT50)。作为钠离子电池(SIBs)正极,TP-OH-COF@CNT50在0.1...
然而,由于氧化还原活性基团的利用率有限,电导率较差,目前报道的COF-基正极的容量和倍率性能都不理想。基于此,山东理工大学周朋飞副教授等人报道了利用原位缩聚法制备了一种具有丰富氧化还原活性基团的新型TP-OH-COF,并与碳纳米管结合(TP-OH-COF@CNT50)。作为钠离子电池(SIBs)正极,TP-OH-COF@CNT50在0.1 A g-1...
基于此,山东理工大学周朋飞副教授等人报道了利用原位缩聚法制备了一种具有丰富氧化还原活性基团的新型TP-OH-COF,并与碳纳米管结合(TP-OH-COF@CNT50)。作为钠离子电池(SIBs)正极,TP-OH-COF@CNT50在0.1 A g-1时具有256.4 mAh g-1的高比容量,超长循环稳定性(在2 A g-1下循环3000次后保持100%)和优异的倍率...
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