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| 1 |
Andreasen A. Effect of Ti-doping on the dehydrogenation kinetic parameters of lithium aluminum hydride[J]. Journal of Alloys and Compounds, 2006, 419(1-2): 40-44. |
| 2 |
Sun T, Huang CK, Wang H, et al. The effect of doping NiCl2 on the dehydrogenation properties of LiAlH4[J]. International Journal of Hydrogen Energy, 2008, 33(21): 6216-6221. |
| 3 |
"Fernandez JRA, Aguey-Zinsou F, Elsaesser M, et al. Mechanical and thermal decomposition of LiAlH4 with metal halides[J]. International Journal of Hydrogen Energy, 2007. 32(8): 1033-1040." |
| 4 |
Bogdanovi B, Schwickardi M. Ti-doped alkali metal aluminium hydrides as potential novel reversible hydrogen storage materials[J], Journal of Alloys and Compounds, 1997, 253-254(20): 1-9. |
| 5 |
Bogdanovic Borislav, Brand Richard A.,Marjanovic Ankica et al. Metal-doped sodium aluminium hydrides as potential new hydrogen storage materials[J]. Journal of Alloys and Compounds, 2000, 302(1-2): 36-58. |
| 6 |
Genma R., Uchida H. H.,Okada N. et al. Hydrogen reactivity of Li-containing hydrogen storage materials[J].Journal of Alloys and Compounds, 2003, 356: 358-362. |
| 7 |
Li CX, Xiao XZ, Chen LX et al. Synthesis of calcium alanate and its dehydriding performance enhanced by FeF3 doping[J]. Journal of Alloys and Compounds, 2011, 509(3): 590-595. |
| 8 |
Rafi-ud-din, Lin Z, Li P et al. Catalytic effects of nano-sized TiC additions on the hydrogen storage properties of LiAlH4[J]. Journal of Alloys and Compounds, 2010, 508(1): 119-128. |
| 9 |
Varin RA, Zbroniec L. The effects of nanometric nickel (n-Ni) catalyst on the dehydrogenation and rehydrogenation behavior of ball milled lithium alanate (LiAlH4)[J]. Journal of Alloys and Compounds, 2010, 506(2): 928-939. |
| 10 |
Ismail M, Zhao Y,Yu XB et al. Effects of NbF5 addition on the hydrogen storage properties of LiAlH4[J]. .International Journal of Hydrogen Energy, 2010, 35(6): 2361-2367. |
| 11 |
Hudson MSL, Raghubanshi H, Pukazhselvan D et al. Effects of helical GNF on improving the dehydrogenation behavior of LiMg(AlH4)(3) and LiAlH4[J]. .International Journal of Hydrogen Energy, 2010, 35(5): 2083-2090. |
| 12 |
Mao JF, Guo ZP.,Liu HK et al. Reversible hydrogen storage in titanium-catalyzed LiAlH4-LiBH4 system[J]. Journal of Alloys and Compounds, 2009, 487(1-2): 434-438. |
| 13 |
Naik MUD, Rather SU, So CS et al. Thermal decomposition of LiAlH4 chemically mixed with Lithium amide and transition metal chlorides[J]. International Journal of Hydrogen Energy, 2009, 34(21): 8937-8943. |
| 14 |
Liu SS, Sun LX, Zhang Y et al. Effect of ball milling time on the hydrogen storage properties of TiF3-doped LiAlH4[J]. .International Journal of Hydrogen Energy, 2009, 34(19): 8079-8085. |
| 15 |
Blanchard D, Shi Q,Boothroyd CB et al. Reversibility of Al/Ti Modified LiBH4[J]. Journal of physical chemistry C, 2009, 113(31): 14059-14066. |
| 16 |
Ares JR, Aguey-Zinsou KF, Leardini F et al. Hydrogen Absorption/Desorption Mechanism in Potassium Alanate (KAlH4) and Enhancement by TiCl3 Doping[J]. Journal of physical chemistry C, 2009, 113(16): 6845-6851. |
| 17 |
Shi Q, Yu X,Feidenhans'LR et al. Destabilized LiBH4-NaAlH4 Mixtures Doped with Titanium Based Catalysts[J]. Journal of physical chemistry C, 2008, 112(46): 18244-18248. |
| 18 |
Chater PA, Anderson PA, Prendergast JW et al. Synthesis and characterization of amide-borohydrides: New complex light hydrides for potential hydrogen storage[J]. Journal of Alloys and Compounds, 2007, 446(Sp. Iss. SI): 350-354. |
| 19 |
Naik MUD, Rather SU, So CS et al. Thermal decomposition of LiAlH4 chemically mixed with Lithium amide and transition metal chlorides[J]. .International Journal of Hydrogen Energy, 2009, 34(21): 8937-8943. |
| 20 |
Mao JF, Guo ZP.,Liu HK et al. Reversible hydrogen storage in titanium-catalyzed LiAlH4-LiBH4 system[J]. Journal of Alloys and Compounds, 2009, 487(1-2): 434-438. |
| 21 |
Shi Q, Yu X,Feidenhans'LR et al. Destabilized LiBH4-NaAlH4 Mixtures Doped with Titanium Based Catalysts[J]. Journal of physical chemistry C, 2008, 112(46): 18244-18248. |
| 22 |
Xugang ZHANG et al.Hydrogen storage properties of the CeH2 doped Li-Mg-N-H/NaAlH4 system[J]. Journal of Rare Earths, 29 (2011) 599-603. |
| 23 |
Rugan Chen et al.Hydrogen absorption/desorption properties of Li-Al-N-H composite[J].Materials Chemistry and Physics, 126 (2010) 989-992. |
| 24 |
"M. Ismail et al.Effect of different additives on the hydrogen storage properties of theMgH2-LiAlH4 destabilized system[J].The Royal Society of Chemistry.2011, 1, 408¨C414" |
| 25 |
Jianfeng Mao et al.Enhanced hydrogen storage performance of LiAlH4-MgH2-TiF3 composite[J]..International Journal of Hydrogen Energy, 36 (2011) 5369-5374. |
| 26 |
Shu-Sheng Liu et al.Hydrogen storage properties of destabilized MgH2-Li3AlH6 system[J].International Journal of Hydrogen Energy, 35 (2010) 8122-8129. |
| 27 |
Yongfeng Liu et al.Reversible hydrogenation/dehydrogenation performances of the Na2LiAlH6-Mg(NH2)2 system[J]..International Journal of Hydrogen Energy, 35 (2010) 8343-8349. |
| 28 |
Shu-Sheng Liu et al.The dehydrogenation performance and reaction mechanisms of Li3AlH6 with TiF3 additive[J].Journal of Hydrogen Energy, 35 (2010): 4554 ¨C 4561. |
| 29 |
Dongan Liu et al.Hydrogen Storage Properties of 3Mg(NH2)2- 2Li3AlH6[J]. Journal of physical chemistry C. 2012, 116, 1485¨C1492. |
| 30 |
"Zheng Xueping et al.Effect of catalyst LaCl3 on hydrogen storage propertiesof lithium alanate (LiAlH4)[J].International Journal of Hydrogen Energy , 32 (2007): 4957 ¨C 4960" |
| 31 |
"Xiulin Fan et al.Thermodynamics, Kinetics, and Modeling Investigation on theDehydrogenation of CeAl4-Doped NaAlH4 Hydrogen Storage Material[J].The Journal of Physical Chemistry C.2011, 115, 22680¨C22687." |
| 32 |
"Jianfeng Mao et al.Improved hydrogen sorption performance of NbF5-catalysedNaAlH4l[J].International Journal of Hydrogen Energy, 36 (2011) 14503-14511." |
| 33 |
Joseph A. Teprovich Jr.et al.Catalytic effect of fullerene and formation of nanocomposites with complex hydrides: NaAlH4 and LiAlH4l[J].Journal of Alloys and Compounds, 509 (2010) S562-S566. |
| 34 |
Xiulin Fan.Hydriding-dehydriding kinetics and the microstructure of La- and Sm-doped NaAlH4 prepared via direct synthesis method[J].International Journal of Hydrogen Energy, 36 (2011) 10861-10869. |
| 35 |
"Rafi-ud-din.et al.Hydrogen Sorption Improvement of LiAlH4 Catalyzed by Nb2O5and Cr2O3 Nanoparticles[J]..Journal of physical chemistry C 2011, 115, 13088¨C13099" |
| 36 |
M. Ismail.et al.The hydrogen storage properties and reaction mechanism of the MgH2-NaAlH4 composite system[J].International Journal of Hydrogen Energy, 36 (2011) 9045-9050. |
| 37 |
Jun Ma.et al.Co-effects of Tm2O3 and porous silica on reversible hydrogen storage in NaAlH4[J].International Journal of Hydrogen Energy, 36 (2011) 9091-9097. |
| 38 |
M. Ismail.et al.Significantly improved dehydrogenation of LiAlH4 catalysed with TiO2 nanopowder[J].International Journal of Hydrogen Energy, 36 (2011) 8327-8334. |
| 39 |
Zheng Xueping.et al.Microstructure and desorption properties study of catalyzed NaAlH4[J].Journal of Alloys and Compounds, 509 (2011) 5873-5876. |
| 40 |
"Yindee Suttisawat.et al.Catalytic effect of Zr and Hf on hydrogen desorption/absorption ofNaAlH4 and LiAlH4[J].International Journal of Hydrogen Energy 32 (2007) 1277 ¨C 1285." |
| 41 |
Jae-Hyeok Shim.et al.Thermal decomposition of Li3AlH6 with TiAl3 catalyst[J].Catalysis Today 120 (2007) 292¨C297. |
| 42 |
Xiaocheng Wu.et al.Hydrogen storage properties of LiBH4¨CLi3AlH6 composites[J].Journal of Alloys and Compounds, 517 (2011) 127-131. |
| 43 |
Dongan Liu.et al.Studies of the effects of TiCl3 in LiBH4/CaH2/TiCl3 reversible hydrogen storage system[J].Journal of Alloys and Compounds, 514 (2011) 103-108. |
| 44 |
"Yifan Zhou.et al.Improved Hydrogen Storage Properties of LiBH4 Destabilized by inSitu Formation of MgH2 and LaH3[J].Journal of physical chemistry C 2012, 116, 1588¨C1595." |
| 45 |
Huaqin Kou.et al.Effects of fluoride additives on dehydrogenation behaviors of 2LiBH4+MgH2 system[J].International Journal of Hydrogen Energy, 37 (2012) 1021-1026. |
| 46 |
"Kun Jiang.et al.A Novel Li Ca B H Complex Borohydride: Its Synthesis andHydrogen Storage Properties[J].Journal of physical chemistry C 2011, 115, 19986¨C19993" |
| 47 |
"Angeloclaudio Nale.et al.On the decomposition of the 0.6LiBH4-0.4Mg(BH4)2 eutecticmixture for hydrogen storage[J].International Journal of Hydrogen Energy.36 (2011) 13676-13682." |
| 48 |
Ying Jiang.et al.Dehydrogenation kinetics of 2LiBH4 + MgH2 enhanced by hydrogen back pressure and a CuCl2 catalyst[J].Journal of Alloys and Compounds, 509 (2011) 9055-9059. |
| 49 |
"Jianfeng Mao.et al.Improved Hydrogen Storage Properties of NaBH4 Destabilizedby CaH2 and Ca(BH4)2[J].Journal of physical chemistry C 2011, 115, 9283¨C9290." |
| 50 |
"Elisa Gil Bardaj¨ª.et al.LiBH4 Mg(BH4)2: A Physical Mixture of Metal Borohydrides asHydrogen Storage Material[J].Journal of physical chemistry C 2011, 115, 6095¨C6101." |
| 51 |
Pei Pei Yuan.et al.Reversible Hydrogen Storage Composite Based on 6LiBH4+CaF2[J].Journal of physical chemistry C 2011, 115,7067¨C7065. |
| 52 |
Young Li,.et al.Promotional Effect of Aluminum on MgH2+LiBH4 Hydrogen Storage Materials[J].Materials Transactions, 52 (2011) 641 -646. |
| 53 |
F.C. Gennari.et al.Reversible hydrogen storage from 6LiBH4-MCl3 (M=Ce, Gd) composites by in-situ formation of MH2[J].International Journal of Hydrogen Energy, 36 (2011) 563-570. |
| 54 |
B.C. Weng.et al.Improved dehydrogenation performance of LiBH4/MgH2 composite with Pd nanoparticles addition[J].Journal of Alloys and Compounds, 503 (2009) 345-349. |
| 55 |
Jianfeng Mao.et al.Reversible Hydrogen Storage in Destabilized LiAlH4-MgH2-LiBH4 Ternary-Hydride System Doped with TiF3[J].Journal of physical chemistry C 2010, 114, 11643¨C11649. |
| 56 |
F.C. Gennari.et al.Enhanced hydrogen sorption kinetics of Mg50Ni¨CLiBH4 composite by CeCl3 addition[J].Journal of Power Sources 195 (2010) 3266¨C3274. |
| 57 |
Pei-Jun Wang.et al.Effect of carbon addition on hydrogen storage behaviors of Li¨CMg¨CB¨CH system[J].International Journal of Hydrogen Energy. 35( 2010 ) 3072 ¨C 3075. |
| 58 |
Zhan-Zhao Fang.et al.Unexpected dehydrogenation behavior of LiBH4/Mg(BH4)2 mixture associated with the in situ formation of dual-cation borohydride[J].Journal of Alloys and Compounds 491 (2010) L1¨CL4. |
| 59 |
"Jae-Hyeok Shim.et al.Effect of Hydrogen Back Pressure on DehydrogenationBehavior of LiBH4-Based Reactive Hydride Composites[J].Journal of physical chemistry Lett 2010, 1, 59¨C63" |
| 60 |
J.F. Maoa,et al.Reversible hydrogen storage in titanium-catalyzed LiAlH4¨CLiBH4 system[J].Journal of Alloys and Compounds 487 (2009) 434¨C438. |
| 61 |
Yao Zhang,et al.The Dehydrogenation Reactions and Kinetics of 2LiBH4-Al Composite[J].Journal of physical chemistry C 2009, 113, 18424¨C18430. |
| 62 |
Ñî¾´¿û.Li-Al-N-H¸´ºÏÌåϵ´¢ÇâÌØÐÔÑо¿£¨Ñ§Î»ÂÛÎÄ£©.2010Äê1Ô |
| 63 |
Ñî¾´¿û,Íõлª,±´ÑÅÒ«µÈ.LiAlH4_LiNH2+Ti_TiF3¸´ºÏÎïµÄ´¢ÇâÐÔÄÜ.2010Äê9Ô |
| 64 |
ÖÓ¿,ÐÂÐÍLi-Mg-N-H¸´ºÏ´¢Çâ²ÄÁϵÄÖƱ¸¡¢½á¹¹¼°´¢ÇâÐÔÄÜ(ѧλÂÛÎÄ).Õã½£ºÕã½´óѧ,2008Äê5Ô |
| 65 |
Jianjiang Hu,Yongfeng Liu,Guotao. WuImprovement of Hydrogen Storage Properties of the Li¨CMg¨CN¨CH,2008 |
| 66 |
"Liu Yi,Tang Sheng 1ong,Fang Yu-hu,Liu Huai Fei.Hydrogen sorption properties of nanocrystalline Mg2FeH6 based complex and catalytic effect of TiO2." |
| 67 |
Ðì¹âÁÁ,þÄø´¢ÇâºÏ½ðµÄÇ⻯ȼÉÕÖƱ¸¼¼Êõ¼°²ôÔÓ¸ÄÐÔÑо¿(ѧλÂÛÎÄ),ËÄ´¨£ºËÄ´¨´óѧ |
| 68 |
"I.Yu.Zavaliy,A.B.Riabov,V.A.Yartys.Hydrogen absorption and phase structural characteristics ofoxygen-containing Zr-V alloys substituted by Hf, Ti, Nb, Fe.Journal of Alloys and Compounds 219 (1995) 34-37" |
| 69 |
"ÓÚ´óÁú.Li-N-Hϵ½ðÊôÂçºÏÎï´¢Çâ²ÄÁÏ΢¹Û½á¹¹ÓëÐÔÄܵÄÑо¿£¨Ñ§Î»ÂÛÎÄ£©.À¼ÖÝ:À¼ÖÝÀí¹¤´óѧ,2009" |
