Easy Synthesis of Hierarchical Carbon Spheres with
Superior Capacitive Performance in Supercapacitors
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Abstract
An easy template-free approach to
the fabrication of pure carbon
microspheres has been achieved via direct pyrolysis of as-prepared
polyaromatic hydrocarbons including polynaphthalene and polypyrene.
The polyaromatics were synthesized from aromatic hydrocarbons (AHCs)
using anhydrous zinc chloride as the Friedel–Crafts catalyst
and chloromethyl methyl ether as a cross-linker. The experimental
results show that the methylene bridges between phenyl rings generate
a hierarchical porous polyaromatic precursor to form three-dimensionally
(3D) interconnected micro-, meso-, and macroporous networks during
carbonization. These hierarchical porous carbon aggregates of spherical
carbon spheres exhibit faster ion transport/diffusion behavior and
increased surface area usage in electric double-layer capacitors.
Furthermore, micropores are present in the 3D interconnected network
inside the cross-linked AHC-based carbon microspheres, thus imparting
an exceptionally large, electrochemically accessible surface area
for charge accumulation