Suling Zhang

TL;DR: In this paper, a scalable industrial method from biomass waste material, with controlling the pore size distribution and mesopores as the major contribution, was used to obtain an electrode material with ultrahigh mesopore volume of 1.85cm 3 ǫg −1.

TL;DR: In this article, the construction methods of 3D cross-linked materials, and the effects of different fabrication methods toward the structure and EMI shielding and/or microwave absorption properties are discussed.

TL;DR: In this article, an entirely carbon-based material, bulk three-dimensional cross-linked graphene (3DG), has been developed as a photocatalyst for hydrogen production.

TL;DR: The detailed structure data of the prepared mesoporous activated carbon materials with ultrahigh mesopore volume and effective specific surface area and the electrochemical performance of the corresponding supercapacitors are described.

TL;DR: 3D interconnected activated carbons with controlled and optimized morphologies and porous structures prepared from accessible carbon source and graphene oxide by a hydrothermal carbonization and following an activation method offer a practical method to prepare the desired carbon electrode materials with controlled morphology and structure for high efficiency electrochemical energy storage devices.