Exact(4)
Compared with other NiO composites on nickel foam, these results indicate that NiO/Ni3S2 directly grown on Ni foam opens up the potential application for energy-storage devices with high area capacity and high cycling performance.
The NiO/Ni3S2 electrode can deliver a high area capacity of 2.28C cm−2 at 2 mA cm−2, along with outstanding cycling stability (102% capacity retention after 10000 cycles).
Thus the architecture delivers a high area capacity of 0.511 mAh cm−2 at a current density of 0.2 mA cm−2 and a stable capacity retention of 83.3% after 200 cycles at 1 mA cm−2.
It is found that with a thinner electrode of 7 μm the volumetric capacity could reach up to 920 mAh cm−3 but a poor area capacity of 0.7 mAh cm−2, while a thicker one of 33 μm enables to provide a high area capacity up to 1.5 mAh cm−2 and gives a volumetric capacity less than 500 mAh cm−3.
Similar(56)
When the anodization processing time is 600 min, the TiO2/Ti mesh anode materials showed good capacity retention and high specific area capacity, without the need for a current collector or binder, due to their high surface area, high substrate utilization, and large active material loading rate per unit area.
Firstly, the nitrogen-doped carbon nanotubes onto the carbon paper were studied and a high footprint area capacity of 2.1 mAh cm−2 at 0.1 mA cm−2 was obtained.
The relative difference between ROS area with and without ABAP was considered a measure of antioxidant capacity, with high area difference meaning low antioxidant capacity, since high fluorescence levels were obtaining after adding ABAP, meaning low competence to neutralize peroxyl radicals.
The sorbent needed for this process must have high reactive surface area, high CO2 capacity, be able to tolerate required operating conditions (as high as 1000 °C and 40 bar), and must have a long lifetime.
With great specific surface area, high adsorption capacity, low cost, and strong stability, biochar has been widely applied to remediate polluted environments.
Thus, the resulting product owed the high specific surface area, high adsorption capacity and ultra-fast adsorption rate.
Advantages of using titanium dioxide as an adsorbent are high surface area, high adsorption capacity, stability, non-toxicity, biological and chemical inertness, and high affinity for inorganic and organic pollutants [10 12].
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