| 一例铟基MOF的合成、结构及其甲烷存储 |
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| 引用本文: | 张玉凤,裴浩楠,樊小青,周洁,刘腾龙,薛东旭.一例铟基MOF的合成、结构及其甲烷存储[J].精细化工,2024,41(5). |
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| 作者姓名: | 张玉凤 裴浩楠 樊小青 周洁 刘腾龙 薛东旭 |
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| 作者单位: | 太原科技大学 化学工程与技术学院,太原科技大学 化学工程与技术学院,太原科技大学 化学工程与技术学院,陕西师范大学 化学化工学院,陕西师范大学 化学化工学院,陕西师范大学 化学化工学院 |
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| 基金项目: | 国家自然科学基金(No. 22301212, 21871170);山西省基础研究计划青年项目(No.202203021222194),太原科技大学博士科研启动金项目(No. 20222066),来晋优秀博士奖励项目(No.20232061) |
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| 摘 要: | 研究旨在合成一种新型铟基有机骨架材料,用于甲烷存储,以应用于清洁能源领域。研究使用In(NO3)3.4H2O和H3BTB,醋酸作模板剂,采用溶剂热法来实现材料的合成,所得材料表现出较高的比表面积2487 m2 g-1,和永久孔隙结构,孔体积为1.07 cm3 g-1。在273 K、80 bar条件下,甲烷重量工作能力达到397 cm3 g-1(0.29 g g-1)。这些结果表明了该材料在甲烷存储方面的潜在应用。值得注意的是,本研究的创新之处在于成功合成具有优异甲烷吸附性能的铟基MOF材料,为高性能气体吸附材料的开发提供了新方向。因此,本文为清洁能源技术的发展提供了新的思路。此外,该材料还表现出良好的可重复性,为其在实际应用中的长期可持续性提供了有力支持。
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| 关 键 词: | 铟基有机骨架材料 甲烷存储 清洁能源 模板剂 比表面积中图分类号:O614 文献标识码: A 文章编号:1003-5214 (2020) 01-0000-00 |
| 收稿时间: | 2023/12/20 0:00:00 |
| 修稿时间: | 2024/2/27 0:00:00 |
Synthesis, structure, and methane storage of an indium-based Organic Framework |
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| ZHANG Yu-feng,PEI Hao-nan,FAN Xiao-qing,ZHOU Jie,LIU Teng-long and XUE Dong-xu.Synthesis, structure, and methane storage of an indium-based Organic Framework[J].Fine Chemicals,2024,41(5). |
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| Authors: | ZHANG Yu-feng PEI Hao-nan FAN Xiao-qing ZHOU Jie LIU Teng-long and XUE Dong-xu |
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| Affiliation: | College of Chemical Engineering and Technology, Taiyuan University of Science and Technology,College of Chemical Engineering and Technology, Taiyuan University of Science and Technology,College of Chemical Engineering and Technology, Taiyuan University of Science and Technology,School of Chemistry & Chemical Engineering, Shaanxi Normal University,School of Chemistry & Chemical Engineering, Shaanxi Normal University,School of Chemistry & Chemical Engineering, Shaanxi Normal University |
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| Abstract: | The study aimed to synthesize a novel indium-based organic framework material with potential applications in clean energy, particularly in methane storage for vehicular transportation. The researchers utilized In(NO3)3.4H2O and H3BTB, acetic acid as template agents, and employed a solvothermal method to achieve material synthesis. The resulting material exhibited a high specific surface area of 2487 m2 g-1 and permanent porous structure, with a pore volume of 1.07 cm3 g-1. And demonstrated a methane working capacity of 397 cm3 g-1 (0.29 g g-1) at 273 K and 80 bar. These results indicate the potential application of this material for methane storage. The innovation of this study lies in the successful synthesis of indium-based MOF material with excellent methane adsorption performance, providing a new direction for the development of high-performance gas adsorption materials. Therefore, this paper presents a new perspective for the advancement of clean energy technology. Additionally, the material also exhibits good repeatability, providing strong support for its long-term sustainability in practical applications. |
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| Keywords: | Indium-based organic framework methane storage clean energy template agents surface area |
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