Construction of T-Nb2O5 nanoparticles on/in N-doped carbon hollow tubes for Li-ion hybrid supercapacitors

Abstract

In recent years, hybrid supercapacitors (HSCs) with good characteristics of both lithium batteries (LIBs) and supercapacitors (SCs) have become a hot research topic to meet the growing market demand for electric and hybrid electric vehicles. The key for high-performance HSCs is the reaction kinetics imbalance between the slow faradaic intercalation anode and fast non-faradaic physical adsorption/desorption cathode. Herein, we simultaneously grow ultrafine Nb2O5 nanoparticles on the inner walls and outer surface of hollow heteroatomic (N) carbon tube, giving a unique hierarchical hybrid nanostructure materials named T-Nb2O5@NC. The LIB test show its excellent high-rate capability and long-term cyclic stability. At current density of 0.25C (1.0–3.0 V, vs Li/Li+), the reversible specific capacity of this material is up to 194 mAh g−1. Importantly, the HSC device, assembled by T-Nb2O5@NC as anode and commercial activated carbon as cathode with an organic electrolyte, exhibits good electrochemical performance, including high energy density (49.7 Wh kg−1) and power density (8750 W kg−1), obviously superior to traditional HSC electrode materials. The results prove that T-Nb2O5@NC can be used as a promising HSC anode material.