Constructing volcanic -like mesoporous hard carbon with fast electrochemical kin

作者:Liu, Y (Liu, Yang)1 ] Ru, Q (Ru, Qiang)1 ] Gao, YQ (Gao, Yuqing)1 ] An, QY (An, Qinyou)2 ] Chen, FM (Chen, Fuming)1 ] Shi, ZL (Shi, Zhenglu)1 ] Zheng, MH (Zheng, Minhui)1 ] Pan, ZK (Pan, Zikang)1 ]

APPLIED SURFACE SCIENCE

卷: 525

文献号: 146563

出版年: SEP 30 2020

文献类型:Article


关键词

KeyWords Plus:POROUS CARBONANODE MATERIALHIGH-POWERGRAPHENEFABRICATIONELECTRODESNANOSHEETSTEMPLATESTORAGESULFUR


摘 要】Mesoporous hard carbon is synthesized by pyrolyzing N/O-rich polymer precursor. • Carbon anodes afford the excellent performance of potassium-ion batteries. • A promising performance of potassium-ion hybrid capacitor has been provided. • It shows the promotion of conductivities, active sites and capacitance effects. Potassium-ion batteries are considered as one of safe and low-cost alternatives to the traditional lithium-ion batteries. However, the sluggish potassium ion kinetics, drastic volume variation and inferior cyclic reversibility hinder the further development for the commercial applications. Herein, a new type of polyimide-inspired volcanic rock-like carbon is synthesized by pyrolyzing N/O-rich polymer precursor of polymeric 1, 4, 5, 8-Naphthalenetetracarboxylic dianhydride (PNTCDA). The synergetic effect of the mesoporous construction, the prominent capacitance and the ameliorated conductivity endows PNTCDA@900 with boosted potassium-ion electrochemical properties. As anodes for PIBs, the discharge capacity of 185.3 mAh g−1 can be achievable after 100 cycles at a current density of 0.05 A g−1, and the superior reversible capacity of 81 mAh g−1 is obtained even after 4000 cycles at a high current density of 2 A g−1. The cell can be operated in a reliable environmental adaptability with 115–205 mAh g−1 from −5 °C~70 °C at 0.1 A g−1. Furthermore, when applied to potassium-ion hybrid capacitors with active carbon as cathode, PNTCDA@900 delivers a reversible capacity of 53.5 mAh g−1 after 800 cycles at 2 A g−1. The current work will be significant for the development of potassium-ion storage.


1-s2.0-S0169433220313209-ga1_lrg.jpg

Constructing volcanic -like mesoporous hard carbon with fast electrochemical kinetics for potassium -ion batteries and hybrid capacitors Check updates.pdf