Potassium ion hybrid
capacitors (KICs) have drawn tremendous attention
for large-scale energy storage applications because of their high
energy and power densities and the abundance of potassium sources.
However, achieving KICs with high capacity and long lifespan remains
challenging because the large size of potassium ions causes sluggish
kinetics and fast structural pulverization of electrodes. Here, we
report a composite anode of VO2–V2O5 nanoheterostructures captured by a 3D N-doped carbon network
(VO2–V2O5/NC) that exhibits
a reversible capacity of 252 mAh g–1 at 1 A g–1 over 1600 cycles and a rate performance with 108
mAh g–1 at 10 A g–1. Quantitative
kinetics analyses demonstrate that such great rate capability and
cyclability are enabled by the capacitive-dominated potassium storage
mechanism in the interfacial engineered VO2–V2O5 nanoheterostructures. The further fabricated
full KIC cell consisting of a VO2–V2O5/NC anode and an active carbon cathode delivers a high operating
voltage window of 4.0 V and energy and power densities up to 154 Wh
kg–1 and 10 000 W kg–1,
respectively, surpassing most state-of-the-art KICs.
A novel electrochemical method has been developed towards cholesterol detection based on competitive host-guest interaction by selecting methylene blue (MB) and calix[6]arene functionalized graphene (CX6-Gra) as the "reporter pair". In the presence of cholesterol, the MB molecules are displaced by cholesterol in the CX6-Gra.MB complex, leading to a "switch off" electrochemical response. A linear response range of 0.50 to 50.00 μM for cholesterol with a low detection limit of 0.20 μM (S/N = 3) was obtained by using the proposed method. This method could be successfully utilized to detect cholesterol in serum samples, and may be expanded to the analysis of other non-electroactive species. Besides, the host-guest interaction between cholesterol and CX6 was studied by molecular modeling calculations, which revealed that the complexation could reduce the energy of the system and the complex of a 1 : 1 host-guest stoichiometry had the lowest binding free energy of -8.01 kcal mol(-1). In addition, the constructed electrochemical sensing platform is important as it does not use any enzyme or antibody for the detection of cholesterol efficiently and selectively over common interfering species.
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