Electronic structure, chemical bond and thermal stability of hydrogen absorber Li_2MgN_2H_2 被引量：2

Electronic structure, chemical bond and thermal stability of hydrogen absorber Li_2MgN_2H_2

导出

摘要 The lowest total energy crystal structure of Li2MgN2H2 was identified by the first principle calculation with RPBE exchange-correlation function. Furthermore, the fine structure parameters of this crystal structure were calculated with PBE and PW91 exchange-correlation function. In a further step, the density of states, electron density, charge density difference on (0 0 1) plane and heat of formation of Li2MgN2H2 hydrogenation were computed with PW91 exchange-correlation function. Consequently, the electronic structures and chemical bonds in this compound were analyzed and discussed, and then the thermodynamic character of Li2MgN2H2 for hydrogen storage was evacuated. The lowest total energy crystal structure of Li2MgN2H2 was identified by the first principle calculation with RPBE exchange-correlation function. Furthermore, the fine structure parameters of this crystal structure were calculated with PBE and PW91 exchange-correlation function. In a further step, the density of states, electron density, charge density difference on （0 0 1） plane and heat of formation of Li2MgN2H2 hydrogenation were computed with PW91 exchange-correlation function. Consequently, the electronic structures and chemical bonds in this compound were analyzed and discussed, and then the thermodynamic character of Li2MgN2H2 for hydrogen storage was evacuated.

作者 WANG Qiang CHEN YunGui WU ChaoLing TAO MingDa GAI JingGang

机构地区 School of Material Science and Engineering State Key Laboratory of Polymer Materials Engineering

出处《Chinese Science Bulletin》 SCIE EI CAS 2009年第3期497-503,共7页

关键词电子结构化学结合热稳定性氢吸收第一原则晶体结构 first principle, exchange-correlation function, crystal structure, electron density of states, nature of chemical bond

分类号 O44 [理学—电磁学]

引文网络
相关文献

参考文献10

1Xiong Z T,Hu J J,Chen P, et al.Hydrogen absorption and desorption in Mg―Na―N―H system[].Journal of Alloys and Compounds.2005
2Liu Y F,Xiong Z T,Hu J J, et al.Hydrogen absorption/desorption behaviors over a quaternary Mg―Ca―Li―N―H system[].Journal of Power Sources.2006
3Liu Y F et al.Investigations on hydrogen desorption from the mixture of Mg(NH2)2 and CaH2[].Journal of Alloys and Compounds.2007
4Isobe S,Ichikawa T,Kojima Y, et al.Characterization of titanium based catalysts in the Li―N―H hydrogen storage system by X-ray absorption spectroscopy[].Journal of Alloys and Compounds.2007
5Ichikawa T,Tokoyoda K,Leng H Y, et al.Hydrogen absorption proper- ties of Li―Mg―N―H system[].Journal of Alloys and Compounds.2005
6Yang J,Sudik A,Wolverton C J.Activation of hydrogen storage ma- terials in the Li―Mg―N―H system: effect on storage properties[].Journal of Alloys and Compounds.2007
7Aoki M,Noritake T,Nakamori Y, et al.Dehydriding reaction of Mg(NH2)2―LiH system under hydrogen pressure[].Journal of Alloys and Compounds.2007
8Job Rijssenbeek,Yan Gao et al.Crystal structure determination and reaction pathway of amide-hydride mixtures[].Journal of Alloys and Compounds.2007
9Nakagawa T,Ichikawa T.Observation of hydrogen absorption/de- sorption reaction processes in Li―Mg―N―H system by in situ X-ray diffractmetry[].Journal of Alloys and Compounds.2007
10Wang Y,Chou M Y.First-principles study of cation and hydrogen arrangements in the Li―Mg―N―H hydrogen storage system[].Physical Review B Condensed Matter and Materials Physics.2007

同被引文献31

1Luo W. JAlloy Compd[J]. 2004, 381:284.
2Orimo S, Nakamori Y, Kitahara Get al. Appl Phys A[J]. 2004, 79:1765.
3Barison S, Agresti F, Russo L Set al. J Alloy Compd[J]. 2008, 459:343.
4Yang Jun, Sudik Andrea, Wolverton C. J Alloy Compd[J]. 2007, 430:334.
5Chen Yong, Wang Ping et al. Int J Hydrogen Energy[J]. 2007, 32:1262.
6Rapha-el Janot, Jean-Bruno Eymery et al. J Power Source [J]. 2007, 164:496.
7Lohstroh W, Fichtner M. J Alloy Compd[J]. 2007, 446-447: 332.
8Tippawan Markmaitree, William Osborn, Leon L Shaw. lnt J Hydrogen Energy[J]. 2008, 33:3915.
9Xiong Zhitao, Hu Jianjiang, Wu Guotao et al. J Alloy Compd[J]. 2005, 398:235.
10Chen P, Xiong, Z, Yang L et al. J Phys Chem B[J]. 2003, 107:10 967.

引证文献2

1王强,陈志谦,于文斌,陈云贵.氢分子在贮氢材料Li_2MgN_2H_2表面的吸附与解离[J].稀有金属材料与工程,2012,41(11):1975-1979.
2闫敏艳,宫长伟,张鹤,张敏刚.Ti掺杂对Li-Mg-N-H材料储氢性能影响的第一性原理研究[J].人工晶体学报,2022,51(2):297-303. 被引量：2

二级引证文献2

1侯茵茵,马良财.Li原子和Ca原子修饰VO_(2)单层储氢性能的第一性原理研究[J].人工晶体学报,2023,52(11):2014-2023.
2田志辉,李博,刘冰璐,焦红,冯一帆.Li-Mg-N-H体系储氢材料的研究进展[J].化工管理,2024(3):155-159.

1董成.Structural classification and a binary structure model for superconductors[J].Chinese Physics B,2006,15(12):3005-3013.
2Xinmin Huang,Yu Chen.Characteristics of the Origin of High Tc Copper Oxidized Cooper Pairs[J].材料科学与工程（中英文B版）,2014,4(4):129-133. 被引量：1
3全国第二届分析力学学术会议简况[J].商丘师范学院学报,1996,12(S4):60-60.
4汪信,牛均宁,陈汉文,忻新泉,戴安邦,张毓昌.MSSBAUER SPECTRA OF K_4[Fe(CN)_6]·3H_2O IN MAGNETIC FIELD[J].Chinese Science Bulletin,1985,30(2).
5Li Jin chai, Lu Xian feng, Zhang Zi hong, Guo Huai xi, Ye Ming sheng School of Physics and Technology, Wuhan University, Wuhan 430072, China.The Preparation and Characterization of Amorphous SiCN Thin Films[J].Wuhan University Journal of Natural Sciences,2001,6(3):665-669.
6YuriTs．Oganessian,VladimirK．Vtyonkov,KentonJ．Moody,曹书朝,郭凯声.航行到超重岛[J].科学（中文版）,2000(5):15-18.
7LIU ZhiBo,ZHANG XiaoLiang,YAN XiaoQing,CHEN YongSheng,TIAN JianGuo.Nonlinear optical properties of graphene-based materials[J].Chinese Science Bulletin,2012,57(23):2971-2982. 被引量：10
8唐孝威,李士,王克斌.AN ESTIMATION OF THE UPPER LIMIT OF PHOTON MAGNETIC MOMENT[J].Chinese Science Bulletin,1981,26(9).
9杨春,李言荣,薛卫东,李金山,刘永华.ZnO在Al_2O_3(0001)表面的吸附与成键[J].中国科学（G辑）,2004,34(3):300-310. 被引量：7
10郑斌,朱永法,姚文清,王鹤泉,曹立礼,胡为民.金刚石薄膜的表面金属化及与Ti薄膜的界面扩散反应的AES研究[J].材料工程,1998,26(8):16-19. 被引量：7

Chinese Science Bulletin

2009年第3期

浏览历史

内容加载中请稍等...

Electronic structure, chemical bond and thermal stability of hydrogen absorber Li_2MgN_2H_2 被引量：2

参考文献10

同被引文献31

引证文献2

二级引证文献2

相关作者

相关机构

相关主题

浏览历史