期刊
WASTE AND BIOMASS VALORIZATION
卷 12, 期 4, 页码 1699-1724出版社
SPRINGER
DOI: 10.1007/s12649-020-01109-y
关键词
Carbonization; Activation; Hierarchical porous carbon; Structured material; Non-structured material; Beneficial use
资金
- National Key R&D Program of China [2018YFD1100600]
Hierarchical porous carbon materials with organized pores of different scales exhibit high performance in various applications due to the functional combination of hierarchical pores. This paper reviews the preparation of HPC from waste and biomass, as well as their potential applications, discussing the influences of activating agents and conditions on the specific surface area and pore volume. Novel technologies for preparing HPC from non-structured raw materials and advanced applications in energy storage, deionization, adsorption and catalysis are also summarized.
Hierarchical porous carbon (HPC) materials contain organized pores having different scales of diameters. These materials exhibit surprisingly high performance in various applications due to the functional combination of hierarchical pores. This paper reviews the preparation of HPC from waste and biomass, and their potential applications. Biomass with naturally organized hierarchical structure, such as wood, grass and nut shell, have been widely used as raw materials, from which, hierarchical porosity can be formed through simple pyrolysis-activation. Influences of the types and dosages of activating agent, as well as the pyrolysis/activation conditions on the specific surface area, pore volume and hierarchical porous structure of the structured biomass-based HPC are discussed. For non-structured raw materials such as sucrose, pitch and plastics, novel technologies have been developed to prepare HPC; these include hard-/soft-template methods, hydrothermal carbonization, chemical vapor deposition, spray pyrolysis and autogenic pressure carbonization. The approaches to design or control the structures and properties of HPC made from non-structured materials are also reviewed. Moreover, advanced applications of HPC in energy storage, deionization, adsorption and catalysis are summarized. [GRAPHICS] .
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