材料科学
多孔性
化学工程
纳米技术
图层(电子)
复合材料
工程类
作者
Gurwinder Singh,Jang Mee Lee,Rohan Bahadur,Ajay Karakoti,Jiabao Yi,Ajayan Vinu
标识
DOI:10.1016/j.cej.2021.134464
摘要
Porous carbon materials with tunable micro and mesoporous structure, graphitic wall structure, and enhanced layer spacing are considered attractive materials for several applications, including adsorption and energy storage and conversion. However, it is challenging to design porous carbon with all these properties in a single system. Here, we present a facile and rational synthesis route to fabricate graphitized porous biocarbon nanosheets from a low-cost precursor through a simple integration of simultaneous “activation and graphitization” process using iron acetate and potassium acetate at a high temperature. The prepared materials show tunable micro and mesoporosity with an enhanced layer spacing and high crystallinity. These sophisticated materials exhibit a smooth switch over the micro and mesopores for either low (5.9 mmol g−1/ 0 °C/ 1 bar) or high pressure (16.7 mmol g−1/ 0 °C/ 30 bar) CO2 capture. The careful manipulation of the porous texture and the graphitization degree also allows for enhanced performance as LIB anodes (646 mAh g−1), which show good cycling and surpass the specific capacity of conventional graphite anode (372 mAh g−1). These findings exemplify the importance of designing intriguing materials for addressing climate change by reducing greenhouse gases as well as providing low-cost alternative energy storage resources.
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