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Their chemical stability, high specific surface area, and electric conductivity enable porous carbon materials to be the most commonly used electrode materials for electrochemical capacitors (also known as supercapacitors). To further increase the energy and power density, engineering of the pore structures with a higher electrochemical accessible surface area, faster ion‐transport path and a more‐robust...
Two‐dimensional porous carbon is a new class of carbon nanomaterial. Its high aspect ratio, hierarchical pore structures, and short ion‐transport length make it advantageous in many applications, such as energy storage, adsorption, separation, catalysis, and sensing. J. Luo, Q.‐H. Yang, and co‐workers present a conceptual review on the synthesis of porous carbon sheets along with their improved electrochemical...
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