Abstract:Research trend of LiAlH4 and compound system of LiAlH4 in both home and abroad is summarized. Study on hydrogen storage capacity of LiAlH4 and compound system of LiAlH4, such as, LiAIH4- LiNH2, LiAlH4- MgH2 and LiAlH4/NH4Cl was detailedly introduced. The current major problem existed in study on LiAlH4 and compound system of LiAlH4 was summarized.
郑雪萍,鲁卓睿,刘敏,张唯玮,刘胜林. LiAlH4及其复合体系储氢性能的研究进展[J]. , 2015, 22(5): 37-40.
ZHENG Xue- ping, LU Zhuo- rui, LIU Min, ZHANG Wei- wei, LIU Sheng- lin. Research progress on hydrogen storage capacity of LiAlH4 and compound system of LiAlH4. , 2015, 22(5): 37-40.
Liu XF, McGrady GS, Langmi HW, Jensen CM. Facile cycling of Ti-doped LiAlH4 for high performance hydrogen storage[J].J Am Chem Soc, 2009,131:5032-5033.
[2]
Blanchard D, Brinks H W, Hauback B C, Norby P. Desorption of LiAlH4 with Ti- and V-based additives[J]. Mat Sci Eng, 2004, B108: 54-59.
[3]
Resan M, Hampton M D, Lomness J K, Slattery D K. Effects of various catalysts on hydrogen release and uptake characteristies of LiAlH4[J]. Int J Hydrogen Ener, 2005, 30: 1413-1416.
[4]
Huajun Zhang, Yook Si Loo, Hans Geerlings, Jianyi Lin, Wee Shong Chin. Hydrogen production from solid reactions between MAlH4 and NH4Cl[J].Int J hydrogen energy, 2010, 35: 176-180.
[5]
Shu-Sheng Liu, Li-Xian Sun, Yao Zhang, Fen Xu, Jian Zhang, Hai-Liang Chu,Mei-Qiang Fan, Tao Zhang, Xiao-Yan Song, Jean Pierre Grolier. Effect of ball milling time on the hydrogen storage properties of TiF3-doped LiAlH4[J]. Int J Hydrogen Energy, 2009, 34: 8079-8085.
[6]
Hima Kumara L, Viswanathan B, Srinivasa Murthy S. Dehydriding behaviour of LiAlH4—the catalytic role of carbon nanofibres[J]. Int J Hydrogen Energy, 2008, 33: 366-373.
[7]
Robert A. Varin, Leszek Zbroniec, Tomasz Czujko, Zbigniew S. Wronski .The effects of nanonickel additive on the decomposition of complex metal hydride LiAlH4 (lithium alanate) [J]. Int J Hydrogen Energy, 2011, 36: 1167-1176.
[8]
Weifang Luo, Donald Cowgill, Ken Stewart, Vitalie Stavila.High capacity hydrogen generation on-demand from (NH3 + LiAlH4) [J].J Alloys and Compd, 2010, 497: L17-L20.
[9]
Easton D. S., Schneibel J. H., Speakman S. A.. Factors affecting hydrogen release from lithium alanate (LiAlH4)[J] . J Alloys Compd, 2005, 398(1-2): 245-248
[10]
Balema V. P., Wiench J. W., Dennis K. W., Pruski M., Pecharsky V. K.. Titanium catalyzed solid-state transformations in LiAlH4 during high-energy ball-milling[J] . J Alloys Compd, 2001, 329(1-2): 108-114
[11]
Brinks H. W., Fossdal A., Fonnel?p J. E., Hauback B. C.. Crystal structure and stability of LiAlH4 with TiF3 additive[J] . J Alloys Compd, 2005, 397(1-2): 291-295
[12]
Lu J., Fang Z. Z.. Dehydrogenation of a Comblned LiAlH4/LiNH2 System[J], J. Phys. Chem. B, 2005, 109(44):20830-20834
[13]
Xiong Z.T., Wu G.T., Hu J.J., Chen P.. Investigation on chemical reaction between LiAIH4 and LiNH2[J] . J. power Sources, 2006, 159(l):167-170
Xiong Z.T., Wu G.T., Hu J. J., Liu Y. F., Chen P., Luo W. F., Wang J.. Reversible hydrogen storage by a Li-AI-N-H complex[j] . Adv. Funct. Mater, 2007, 17(7):1137-1142
[16]
Shu-Sheng Liu, Li-Xian Sun, Jian Zhang, Yao Zhang, Fen Xu, Yong-Heng Xing. Hydrogen storage properties of destabilized MgH2–Li3AlH6 system[J]. Int J hydrogen energy, 2010, 35: 8122-8129.
[17]
Sridechprasat, Yindee Suttisawat, Pramoch Rangsunvigit,Boonyarach Kitiyanan, Santi Kulprathipanja.Catalyzed LiBH4 and MgH2 mixture for hydrogen storage. Int J hydrogen energy, 2011, 36: 1200-1205.
[18]
Jason R Hattrick-Simpers, James E Maslar, Michael U Niemann, ChunChiu, Sesha S Srinivasan, Elias K Stefanakos, Leonid A Bendersky. Raman spectro scopic observation of dehydrogenation in ball-milled LiNH2–LiBH4–MgH2 nanoparticles [J]. Int J hydrogen energy, 2010, 35: 6323-6331.
[19]
Andrew W Vittetoe, Michael U Niemann, Sesha S Srinivasan, Kimberly McGrathc, Ashok Kumar, D Yogi Goswami, Elias K Stefanakos, Sylvia Thomas. Destabilization of LiAlH4 by nanocrystalline MgH2[J]. Int J Hydrogen Energy, 2009, 34: 2333–2339.
[20]
Zheng Xueping, Xiao Guo, Ma Qiuhua, Liu Shenglin, Li Tao, Feng Xin, Zheng Jiaojiao.Hydrogen release capacity of the LiAlH4-MgH2 system[J].Journal of Power Sources, 231 (2013) 173-176.
[21]
Xueping Zheng*,Jiaojiao Zheng,Qiuhua Ma,Shenglin Liu,Xin Feng,Xiaobin Lin,Guo Xiao、Study on dehydrogenation properties of the LiAlH4–NH4Cl system,Journal of Alloys and Compounds,第551卷,第25期,508-511页, 2013