氢能作为一种高能量密度、清洁的绿色新能源,已受到人们的极大重视.传统的储氢材料存在吸放氢动力学差和释氢温度高的缺点,不利于使用.综述了纳米结构和离子束技术对储氢合金性能的影响,指出纳米化以及离子束改性是改善储氢合金动力学特性和释氢温度的有效途径.
参考文献
| [1] | WillemsJJG .MetalhydrideelectrodesstabilityofLaNi5-relatedcompounds[J].Philips Journal of Research,1984,39(01):98. |
| [2] | FetcenkoMA;Ovshinshy S R;Young K et al.HighcatalyticactivitydisorderedVTiZrNiCrCoMnAlSnhydrogenstoragealloysfornickel-metalhydridebatteries[J].Journal of Alloys and Compounds,2002,330-332:752. |
| [3] | UeharaI;Sakai T;Isbikawa H .StateofresearchanddevelopmentforapplicationsofmetalhydridesinJapan[J].Journal of Alloys and Compounds,1997,635:253-254. |
| [4] | Sandrock G .Panoramic overview of hydrogen storage alloys from a gas reaction point of view[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1999(0):877-888. |
| [5] | GLEITERH .Nanocrystallinematerials[J].Progress in Materials Science,1989,33:223. |
| [6] | OrimoS;Fuji H .EffectsofnanometerscalestructureonhydridingpropertiesofMg-Nialloys:areview[J].Intermetallics,1998,6:185. |
| [7] | Jung;Kim J H;Lee K S .ElectrodecharacteristicsofnanostructuredTiFeandZrCr2typemetalhydridepreparedbymechanicalalloying[J].Nano-Structured Materials,1997,9:579. |
| [8] | JananS;Natter H;Hempelmann R et al.HydrogendiffusioninnanocrystallinePdbymeansofquasielasticneutronscattering[J].Nano-Structured Materials,1997,8:1093. |
| [9] | ZaluskiL;Zaluska A et al.Nanocrystallinemetalhydride[J].Journal of Alloys and Compounds,1997,253-254:70. |
| [10] | rydenKJ;Ying J Y .Electrodepositionsynthesisandhydrogenabsorptionpropertiesofnanostructrespalladiumironalloys[J].Nano-Structured Materials,1997,9:485. |
| [11] | LiangGuoxian;Wang Erde;Fang Shoushi .HydrogenabsorptionanddesorptioncharactericsofmechanicallymilledMg-35wt%FeTipowders[J].Journal of Alloys and Compounds,1995,223:111. |
| [12] | ZaluskiL;Zaluska A;Tessier P et al.HydrogenabsorptioninnanocrystallineMg2Niformedbymechanicalalloying[J].Journal of Alloys and Compounds,1995,217:245. |
| [13] | Liang G.;Huot J.;Van Neste A.;Schulz R.;Boily S. .Mechanical alloying and hydrogen absorption properties of the Mg-Ni system[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1998(1/2):302-306. |
| [14] | LiangG;Huot J;Boily S et al.HydrogenstoragepropertiesofthemechanicallymilledMgH2-Vnanocomposite[J].Journal of Alloys and Compounds,1999,291:295. |
| [15] | LiangG;Huot J;Boily S et al.CatalyticeffectoftransitionmetalsonhydrogensorptioninnanocrystallineballmilledMgH2-TmTm=Ti,V,Mn,FeandNisystems[J].Journal of Alloys and Compounds,1999,292:247. |
| [16] | OrimoS;Fujii H .HydridingpropertiesoftheMg2Ni-Hsystemsynthesizedbyreactivemechanicalgrinding[J].Journal of Alloys and Compounds,1996,232:L16. |
| [17] | OrimoS;Fujii H;Ikeda K et al.Hydridingpropertiesofanano-/a,morphous-structuredMg-Ni-Hsystem[J].Journal of Alloys and Compounds,1997,253-254:94. |
| [18] | Spassov T.;Koster U. .Thermal stability and hydriding properties of nanocrystalline melt-spun Mg63Ni30Y7 alloy[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1998(2):279-286. |
| [19] | SpassovT;Koster U .HydrogenationofamorphousandnanocrystallineMg-basedalloys[J].Journal of Alloys and Compounds,1999,287:243. |
| [20] | TanakaK;Kanda Y et al.Improvementofhydrogenstoragepropertiesofmelt-spunMg-Ni-REalloysbynanocrystallization[J].Journal of Alloys and Compounds,1999,293-295:521. |
| [21] | ZaluskiL;Zaluska A;Tessier P et al.CatalyticeffectofPdonhydrogenabsoptioninmechanicallyalloyMg2Ni,LaNi5andFeTe[J].Journal of Alloys and Compounds,1995,217:295. |
| [22] | DavidsonDJ;Raman S et al.Investigation on the synthesis, characterization and hydrogenation behaviour of new Mg-based composite materials Mg-x wt% MmNi46 Fe0[J].Aprepared through mechanical alloying(J),1999:292:194. |
| [23] | Liang G.;Huot J.;Van Neste A.;Schulz R.;Boily S. .Hydrogen absorption properties of a mechanically milled Mg-50wt%LaNi5 composite[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,1998(1/2):302-307. |
| [24] | Liang G.;Huot J. .Hydrogen storage in mechanically milled Mg-LaNi_5 and MgH_2-LaNi_5 composites[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2000(1/2):261-265. |
| [25] | Wang P.;Aimin Wang;Haifeng Zhang;Bingzhe Ding;Zhuangqi Hu .Hydriding properties of a mechanically milled Mg-50 wt. percent ZrFe_(1.4)Cr_(0.6)[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2000(1/2):240-245. |
| [26] | 张红兵,李道火.纳米储氢合金制备方法的研究进展[J].中国粉体技术,2000(06):21-25. |
| [27] | SandrockG;Thomas G .IEA/DEO/SNL Hydrides Database[OL].http://hydparkca:sandiagov |
| [28] | DillonAC;Jones K M;Bekkedahi T A et al.Storageofhydrogeninsingle-walledcarbonnanotubes[J].Nature,1997,385:377. |
| [29] | Y. Ye;C. C. Ahn;C. Wltham;B. Fultz;J. Liu;A. G. Rinzler;D. Colbert;K. A. Smith;R. E. Smalley .Hydrogen adsorption and cohesive energy of single-walled carbon nanotubes[J].Applied physics letters,1999(16):2307-2309. |
| [30] | Lee S. M.;Park K. S. .Hydrogen adsorption and storage in carbon nanotubes[J].Synthetic Metals,2000(3):209-216. |
| [31] | ChenP;Wu X;Lin J et al.HighH2uptakebyalkalidopedcarbonnanotubesunderambientpressureandmoderatetemperatures[J].Science,1999,285:91. |
| [32] | RalphTYang .Hydrogenstoragebyalkalidopedcarbonnanotubesrevisited[J].Carbon,2000,38:623. |
| [33] | LiuC;Fan Y Y;Cong H T et al.Hydrogenstorageinsingle-walledcarbonnanotubesatroomtemperature[J].Science,1999,286:1127. |
| [34] | MaY;Xia Y;Zhao M et al.Effectivehydrogenstorageinsingle-wallcarbonnanotubes[J].Physical Review B,2001,63:115422. |
| [35] | Darkrim Farida .High Adsorptive Property of Opened Carbon Nanotubes at 77 K[J].The journal of physical chemistry. B, Materials, Surfaces, Interfaces & Biophysical,2000(29):6773-6776. |
| [36] | FanL;Hu N;Wu Z .Hydorgen storage properties of Ti/Ni/La ion implanted electrodes[J].Journal Beijing Normal University(Natural Science),1998,34(02):224. |
| [37] | AeH;Itoha H.ImprovementofhydrogenabsorptionrateofPdbyionirradiation[J].Nuclear Instruments and Methods in Physics Research B:Beam Interaction with Materials and Atoms |
| [38] | Takanori Suda;Masaki Ohkawa;Shougo Sawada .Effect of Surface Modification by Ion Implantation on Hydrogenation Property of TiFe Alloy[J].Materials transactions,2002(11):2703-2705. |
| [39] | Aline L;Emile J K;Jacques H.Magnesium film implanted with vanadium ions for hydrogen storage[A].,2001:105. |
| [40] | Suda T;Yonezawa T;Arashima H.Improvement of hydriding property in ZrNi alloy by means of implantation[A].,1999:227. |
| [41] | NoileA;Wermer J R;Walters R T .AgingeffectsinpalladiumandLaNi425Al075tritides[J].Fusion Technology,1992,21:769. |
| [42] | ZhangW;Cimato J;Goudy A J .ThehydridinganddehydridingkeneticsofsomeLaNi5-xAlxalloys[J].Journal of Alloys and Compounds,1993,201:175. |
| [43] | ThieautS;Paul-Boncour V et al.StructuralchangesinPdRh,Ptsolidsolutionsdueto3Heformationduringtritiumstorage[J].Physical Review B,1998,57(17):10379. |
| [44] | AellGC;Matson L K;Steinmeyer R H et al.Heliumreleasefromagedpalladiumtritide[J].Physical Review B,1990,41(02):1220. |
| [45] | EmigJA;Garza R G;Christensen L D et al.Heliumreleasefrom19-year-oldpalladiumtritide[J].Journal of Nuclear Materials,1992,187:209. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%