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引用次数: 0
摘要
石墨烯基气凝胶具有石墨烯和气凝胶的综合优势,因此备受关注。然而,由于其比表面积和孔隙率相对较小,因此在实际应用中受到很大限制。本研究以二氧化碳和 KOH 为活化剂,通过对掺氮石墨烯气凝胶(NGA)进行物理和化学活化,合成了高孔隙率的多孔石墨烯材料。二氧化碳活化的石墨烯气凝胶(CNGA)保持了海绵状气凝胶结构,并呈现出包括微孔、中孔和大孔在内的分层多孔结构。值得注意的是,CNGA 具有很高的比表面积(2030 m2 g-1)和孔隙率(5.4 cm3 g-1)。鉴于其引人入胜的特性,CNGA 多孔材料在饱和蒸汽压条件下对甲苯(2625 毫克/克-1)和甲醇(2091 毫克/克-1)显示出卓越的吸附能力,使其有可能成为一种高效的气体吸附剂。此外,CNGA 作为锂硫电池的硫宿主还表现出良好的循环性能,即使在 0.5 C 的速率下循环 200 次后,其放电比容量仍能保持在 719.6 mA h g-1。
Porous graphene with high porosity derived from nitrogen-doped graphene aerogel for vapor adsorption and lithium–sulfur batteries
Graphene-based aerogels have garnered significant attention due to their combined advantages derived from both graphene and aerogels. Nevertheless, a key limitation in their practical applications arises from their relatively modest specific surface area and pore volume. In this study, porous graphene materials with high porosity are synthesized through the physical and chemical activation of nitrogen-doped graphene aerogel (NGA) using carbon dioxide and KOH as activating agents. The carbon dioxide-activated NGA (CNGA) maintains the spongy aerogel structure and exhibits a hierarchical porous structure encompassing micropores, mesopores, and macropores. Notably, CNGA exhibits a high specific surface area (2030 m2 g–1) and pore volume (5.4 cm3 g–1). Given its intriguing properties, the CNGA porous material shows exceptional adsorption capabilities for toluene (2625 mg g–1) and methanol (2091 mg g–1) under saturated vapor pressure conditions, making it possible to serve as an efficient gas adsorbent. Furthermore, the CNGA as a sulfur host for lithium–sulfur battery demonstrates good cycling performance, retaining a discharge specific capacity of 719.6 mA h g–1 even after 200 cycles at a rate of 0.5 C.
期刊介绍:
The Journal of Porous Materials is an interdisciplinary and international periodical devoted to all types of porous materials. Its aim is the rapid publication
of high quality, peer-reviewed papers focused on the synthesis, processing, characterization and property evaluation of all porous materials. The objective is to
establish a unique journal that will serve as a principal means of communication for the growing interdisciplinary field of porous materials.
Porous materials include microporous materials with 50 nm pores.
Examples of microporous materials are natural and synthetic molecular sieves, cationic and anionic clays, pillared clays, tobermorites, pillared Zr and Ti
phosphates, spherosilicates, carbons, porous polymers, xerogels, etc. Mesoporous materials include synthetic molecular sieves, xerogels, aerogels, glasses, glass
ceramics, porous polymers, etc.; while macroporous materials include ceramics, glass ceramics, porous polymers, aerogels, cement, etc. The porous materials
can be crystalline, semicrystalline or noncrystalline, or combinations thereof. They can also be either organic, inorganic, or their composites. The overall
objective of the journal is the establishment of one main forum covering the basic and applied aspects of all porous materials.
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