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Coordination tuning of catalysts is a highly effective strategy for activating and improving the intrinsic activity. Herein, a Co‐engineered FeOOH catalyst integrated on carbon fiber paper (Co‐FeOOH/CFP) is reported, which realized a great improvement of the oxygen evolution activity by tuning the coordination geometry of the Fe species with an electrochemically driven method. Experiments and theoretical...
The emerging phosphate species on the surface or near‐surface of electrode materials are versatile and have an intriguing ability for dramatically enhanced electrochemical performance. Unfortunately, the distribution/dispersion of phosphate species still keeps at levels on the exterior not within the interior surface of materials, and the micro‐/nanoscale tuning is commonly rarely concerned and its...
The high‐performance electrode materials with tuned surface and interface structure and functionalities are highly demanded for advanced supercapacitors. A novel strategy is presented to conFigure high‐stacking‐density, superior‐roughness nickel manganese layered double hydroxide (LDH) bridged by vertically aligned graphene (VG) with nickel foam (NF) as the conductive collector, yielding the LDH‐NF@VG...
In article number 1701288, by Chang Yu, Jieshan Qiu, and co‐workers, high‐stacking‐density, superior‐roughness layered double hydroxide (LDH) bridged with vertically aligned graphene (VG) is rationally designed and successfully configured. The VG nanosheets are capable of promoting mass and electron transfer, and high‐stacking‐density LDH induces a superior hydrophilic behavior, thus leading to a...
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