| LiNH2-MgH2-LiH体系储氢性能及其机理研究 |
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| 引用本文: | 马星宇,王二锐,邱树君,褚海亮,邹勇进,向翠丽,闫二虎,徐芬,孙立贤. LiNH2-MgH2-LiH体系储氢性能及其机理研究[J]. 材料导报, 2016, 30(Z2): 206-209 |
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| 作者姓名: | 马星宇 王二锐 邱树君 褚海亮 邹勇进 向翠丽 闫二虎 徐芬 孙立贤 |
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| 作者单位: | 桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004;南开大学先进能源材料化学教育部重点实验室, 天津 300071,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004,桂林电子科技大学广西信息材料重点实验室,广西新能源材料结构与性能协同创新中心, 桂林 541004 |
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| 基金项目: | 国家自然科学基金 (51401059;51361006;51461010;51361005;51371060;51461011;U1501242);广西自然科学基金(2014GXNSFAA118043;2014GXNSFAA118333;2015GXNSFBA139208);桂林电子科技大学研究生教育创新计划资助项目(2016YJCX22) |
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| 摘 要: | 基于2LiNH_2-MgH_2二元体系,利用机械球磨法制备了3LiNH_2-MgH_2-2LiH三元体系,并研究了其放氢性能和机理。结果表明,LiH的添加明显改善了材料的微观结构,抑制了样品颗粒团聚,进而使放氢温度降低了30℃。与二元体系相比,在300℃下放氢量增加了21%,同时成功抑制了副产物氨气的释放。对三元体系添加KH进行催化改性,使得材料的放氢温度进一步降低。此外,对材料的放氢性能与固体样品的热扩散性能之间建立了关联,阐述了随热扩散系数的增加,材料的放氢性能随之提高的机理。
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| 关 键 词: | 储氢材料 Li-Mg-N-H 导热性能 动力学 脱氢 |
Hydrogen Storage Properties and Mechanism of the LiNH2-MgH2-LiH System |
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| MA Xingyu,WANG Errui,QIU Shujun,CHU Hailiang,ZOU Yongjin,XIANG Cuili,YAN Erhu,XU Fen and SUN Lixian. Hydrogen Storage Properties and Mechanism of the LiNH2-MgH2-LiH System[J]. Materials Review, 2016, 30(Z2): 206-209 |
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| Authors: | MA Xingyu WANG Errui QIU Shujun CHU Hailiang ZOU Yongjin XIANG Cuili YAN Erhu XU Fen SUN Lixian |
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| Affiliation: | Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004;Key Laboratory of Advanced Energy Materials Chemistry Ministry of Education, Nankai University, Tianjin 300071,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004,Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004 and Guangxi Key Laboratory of Information Materials, Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials, Guilin University of Electronic Technology, Guilin 541004 |
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| Abstract: | |
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| Keywords: | hydrogen storage materials Li-Mg-N-H thermal conductivity kinetics dehydrogenation |
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