參考文獻 |
1﹒B.D. Solomon and A. Banerjee, A Global Survey of Hydrogen Energy Research,
Development and Policy , Energy Policy, Vol.34, pp.781-792, 2006.
2﹒L.M. Das,“On-Board Hydrogen Storage Systems for Automotive Application”,
Int. J. Hydrogen Energy, Vol.21, pp.789-800, 1996.
3﹒經濟部能源局,“金屬儲氫應用技術研討會”, p.4-17, 2005.
4﹒V. Guther , A. Otto,“Recent Developments in Hydrogen Storage Applications
Based on Metal Hydrides”, J. Alloys Comp., Vol.293-295, pp.889-892, 1999.
5﹒H. Suzuki, Y. Osumi, A. Kato, et al.,“Development of A Hydrogen Storage
System Using Metal Hydrides”, J. Less-Common Met., Vol.89, p.545, 1983.
6﹒Q.D. Wang, C.P. Chen, Y.Q. Lei,“The Recent Research, Development and
Industrial Applications of Metal Hydrides in the People’s Republic of
China”, J. Alloys Comp., Vol.253-254, pp.629-634, 1997.
7﹒G.L. Lu, L.S. Chen, X.R. Hu, et al.,“The Crystal Structure of New Hydrogen
Storage Mg3MNi2(M=Al,Ti)alloys”, Acta Metall Sinica, Vol.37, pp.459-62, 2001
8﹒T. Graham,“On the Relation of Hydrogen to Palladium”, J. Franklin Inst.,
Vol.87, pp.256-266, 1869.
9﹒M. Jurczyk, L. Smardz, K. Smardz, et al.,“Nanocrystalline LaNi5-type
Electrode Materials for Ni-MHx Batteries”, J. Solid State Chem., Vol.171,
p.30, 2003.
10﹒J.H.N. Vucht, F.A. Kuijpers, H.C.A.M. Bruning,“Reversible Room-Temperature
Absorption of Large Quantities of Hydrogen by Intermetallic Compounds”,
Philips Res. Repts., Vol.25, p.133, 1970.
11﹒A. Pebler and E.A. Gulbransen,“Equilibrium Studies on the Systems ZrCr2-H2,
ZrV2-H2 and ZrMo2-H2 Between 0℃ and 900℃”, Trans. Metall. Soc. AIME,
Vol.239, p.1593, 1967.
12﹒J.J. Reilly, R.H. Wiswall,“The Reaction of Hydrogen with Alloys of
Magnesium and Nickel and the Formation of Mg2NiH4”, Inorg. Chem., Vol.7,
p.2254, 1968.
13﹒J.J. Reilly, R.H. Wiswall,“Formation and Properties of Iron Titanium
Hydride”, Inorg. Chem., Vol.13, p.218, 1974.
14﹒林美姿, “儲氫合金之開發與應用”, 材料與社會, Vol.81, p.61, 1993.
15﹒廖世傑,“儲氫技術及應用簡介”, 工業材料, Vol.190, p.139, 2002.
16﹒G.G. Libowitz,“Proceedings of the Symposium on Hydrogen Storage Materials,
Batteries, and Electrochemistry”, Electrochemical Society, NJ, Vol.92-5,
p.3, 1991.
17﹒大角泰章著,“金屬氫化物的性質與應用”,吳永寬,苗艷秋譯. 北京:化學
工業出版社, pp.19-40, 1990.
18﹒G. Sandrock,“A Panoramic Overview of Hydrogen Storage Alloys From a Gas
Reaction Point of View”, J. Alloys Comp., Vol.293-295, p.877, 1999.
19﹒Q. Li, K.C. Chou, Q. Lin, et al.,“Influence of the Initial Hydrogen
Pressure on the Hydriding Kinetics of the Mg2-xAlxNi(x=0,0.1) Alloys”,
Int. J. Hydrogen Energy, Vol.29, pp.1383-1388, 2004.
20﹒S.S. Penner,“Steps Toward the Hydrogen Economy”, Energy, Vol.31, pp.33-43
2006.
21﹒D.M. Kim, K.J. Jang, J.Y. Lee,“A Review on the Development of AB2-Type Zr-
Based Laves Phase Hydrogen Storage Alloys for Ni-MH Rechargeable Batteries
In the Korea Advanced Institute of Science and Technology”, J. Alloys
Comp., Vol.293-295, pp.583-592, 1999.
22﹒T. Kodama,“Proposal for New Indexes Describing the Degree of Hysteresis
and Those Applications to the ZrMn2–H2 Systems”, J. Alloys Comp.,
Vol.278, pp.194-200, 1998.
23﹒J.M. Joubet, M. Latroche,“Hydrogen Absorption Properties of Several Inter-
metallic Compounds of the Zr---Ni System”, J. Alloys Comp., Vol.231,
pp.494-497, 1995.
24﹒M. Hara, Y. Hatano, T. Abe, et al.,“Hydrogen Absorption by Pd-Coated ZrNi
Prepared by Using Barrel-Sputtering System”, J. Nuclear Materials, Vol.320,
pp.265-271, 2003.
25﹒B.K. Singh, A.K. Singh, A.M. Imam, et al.,“On the Structural
Characteristics and Hydrogenation Behaviour of TiMn1.5 Hydrogen Storage
Material ”, Int. J. Hydrogen Energy, Vol.26, pp.817-821, 2001.
26﹒C.H. Chiang, Z.H. Chin, T.P. Perng,“Hydrogenation of TiFe by High-Energy
Ball Milling”, J. Alloys Comp., Vol.307, p.259, 2000.
27﹒G. Lee, J.S. Kim, Y.M. Koo, S.E. Kulkova,“The Adsorption of Hydrogen on B2
TiFe Surfaces”, Int. J. Hydrogen Energy, Vol.27, pp.403-412, 2002.
28﹒R. Janot, L. Aymard, A. Rougier, et al.,“Fast Hydrogen Sorption Kinetics
for Ball Milled Mg2Ni Alloys”, Journal of Physics and Chemistry of Solids,
Vol.65, pp.529-534, 2004.
29﹒K. Aoki, H. Aoyagi, A. Memezawa and T. Masumoto,“Effect of Ball Milling on
the Hydrogen Absorption Rate of FeTi and Mg2Ni Compounds”, J. Alloys
Comp., Vol.203, pp.L7-L9, 1994.
30﹒J.L. Lou, N. Cui,“Effects of microencapsulation on the electrode behavior
of Mg2Ni-based hydrogen storage alloy in alkaline solution”, J. Alloys
Comp., Vol.264, p.299, 1998.
31﹒M. Martin, C. Gommel, C. Borkhart, E. Fromm,“Absorption and Desorption
Kinetics of Hydrogen Storage Alloys”, J. Alloys Comp., Vol.238, p.193, 1996
32﹒A. Anani, A. Visintin, K. Petrov and S. Srinivasan,“Alloys for Hydrogen
Storage in Nickel/Hydrogen and Nickel/Metal Hydride Batteries”, Journal of
Power Sources, Vol.47, pp.261-275, 1994.
33﹒T.B. Flanagan and W.A. Oates,“Some Aspects of Equilibrium and Non-
Equilibrium Phenomena in Intermetallic Compound and Alloy Hydrides”,
J. Less-Common Met., Vol.100, p.299, 1984.
34﹒R.C. Bowman,“Preparation and Properties of Amorphous Hydrides”, Materials
Science Forum, Vol.31, p.197, 1988.
35﹒K. Aoki, T. Masumoto and J. Kamachi,“Hydrogen Absorption and Desorption
Properties of Amorphous Ti---Ni and Hf---Ni Alloys”, J. Less-Common Met.,
Vol.113, p.33, 1985.
36﹒A. Zuttel,“Materials for Hydrogen Storage”, Materials Today, Vol.6, p.24,
2003
37﹒C.E. Lundin and F.E. Lynch,“in Record of the tenth Intersociety Energy
Conversion Engineering Conference”, p.1380, 1975.
38﹒K. Aoki, M. Kamachi, T. Masumoto,“Thermodynamics of Hydrogen Absorption
in Amorphous Zr-Ni Alloys”, J. Non-Cryst. Solids, Vol.61-62, p.679, 1984.
39﹒V.K. Sinha and W.E. Wallace,“The Hyperstoichiometric ZrMn1+xFe1+y−H2
System II: Hysteresis Effect”, J. Less-Common Met., Vol.91, p.239, 1983.
40﹒M.N. Mungole and R. Balasubramaniam,“Effect of Hydrogen Cycling on the
Hydrogen Storage Properties of MmNi4.2Al0.8”, Int. Hydrogen Energy,
Vol.25, p.55, 2000.
41﹒F.G. Eisenberg, P.D. Goodell,“Cyclic Response of Reversible Hydriding
Alloys in Hydrogen Containing Carbon Monoxide”, J. Less-Common Met.,
Vol.89, p.55, 1983.
42﹒M.J. Benham and D.K. Ross,“Inelastic Neutron Scattering Studies of Multiply
Cycled Lanthanum-Nickel Hydride”, Zeitschrift fur Physikalische Chemie,
Vol.147, p.219, 1986.
43﹒V.Z. Mordkovich, N.N. Korostyshevsky, Y.K. Baychtok, et al.,“Degradation
of LaNi5 by Thermobaric Cycling in Hydrogen and Hydrogen-Nitrogen Mixture”,
Int. Hydrogen Energy, Vol.15, p.723, 1990.
44﹒林文德,廖世傑,“儲氫系統設計”, 工業材料, Vol.190, p.155, 2002.
45﹒J.J. Sheridan, F.G. Eisenberg, E.J. Greskovich, et al.,“Hydrogen
Separation From Mixed Gas Streams Using Reversible Metal Hydrides”, J.
Less-Common Met., Vol.89, p.447, 1983.
46﹒M. Kawamura, S. Ono, Y. Mizuno,“Dynamic Characteristics of a Hydride Heat
Storage System”, J. Less-Common Met., Vol.89, p.365, 1983.
47﹒大角泰章著,“金屬氫化物的性質與應用”,吳永寬,苗艷秋譯. 北京:化學
工業出版社, p.240, 1990.
48﹒G. Anevi, L. Jansson, D. Lewis,“Dynamics of Hydride Heat Pumps”, J. Less-
Common Met., Vol.104, p.341, 1984.
49﹒M. Ron,“A Hydrogen Heat Pump as a Bus Air Conditioner”, J. Less-Common
Met., Vol.104, p.259, 1984.
50﹒E. Tuscher, P. Weinzierl, J. Eder,“Dynamic Hydrogen Sorption And Its
Influence on Metal Hydride Heat Pump Operation”, Int. Hydrogen Energy,
Vol.9, p.783, 1984.
51﹒M.S. Vreeke, D.T. Mah, C.M. Doyle,“Report of the Electrolytic Industries
for the Year 1997”, J. Electrochem. Soc., Vol.145, p.3684, 1998.
52﹒鍾俐娟,“電動車的發展概況”, 材料與社會, Vol.80, p.123, 1993.
53﹒D.F. Gosden,“Battery Requirements for Electric Vehicles”, Journal of
Power Sources, Vol.45, pp.61-71, 1993.
54﹒F. Zhan, L.J. Jiang, B.R. Wu, et al.,“Characteristics of Ni/MH Power
Batteries and Its Application to Electric Vehicles”, J. Alloys Comp.,
Vol.293-295, p.804, 1999.
55﹒H. Imai, T. Tagawa, K. Nakamura,“Catalytic Activities of Hydrogen Storage
Alloys for Decompositon of Alcohols”, Appl. Catal., Vol.62, p.348, 1990.
56﹒T. Takeshita, W.E. Wallace, R.S. Craig,“Rare Earth Intermetallics as
Synthetic Ammonia Catalysts”, J. Catal., Vol.44, p.236, 1976.
57﹒J.S. Benjamin,“Dispersion Strengthened Superalloys by Mechanical
Alloying”, Metallurgical Transactions, Vol.10, p.2943, 1970.
58﹒H. Sakaguchi, T. Sugioka and G.Y. Adachi,“Hydrogen Absorption
Characteristics of Crystalline LaNi5 Prepared by Mechanical Alloying”,
Chemistry Letters, Vol.7, p.561, 1995.
59﹒C. Suryanarayana,“Mechanical Alloying and Milling”, Prog. Mater. Sci.,
Vol.46 p.1, 2001.
60﹒R.K. Ibrasheva, T.A. Solomina, G.I. Leonova, et al.,“Role of Active
Surface in Processes of Hydrogen Sorption-Desorption by Intermetallic
Compounds”, Int.J. Hydrogen Energy, Vol.18, pp.505-510, 1993.
61﹒C. Suryanarayana,“Does a disordered γ-TiAl phase exist in mechanically
alloyed Ti---Al powders? ”, Intermetallics, Vol.3, pp.153-160, 1995.
62﹒A. Calka and J.S. Williams,“Synthesis of Nitrides by Mechanical Alloying”,
Materials Science Forum, Vol.88-90, p.787, 1992.
63﹒Y. Chen and J. Williams,“Hydriding Reaction Induced by Ball Milling”,
Materials Science Forum, Vol.225-227, p.881, 1996.
64﹒J.H. Woo, C.B. Jung, J.H. Lee, and K.S. Lee,“Electrochemical
Characteristics of Nanocrystalline ZrCr2 and Mg2Ni Type Metal Hydrides
Prepared by Mechanical Alloying”, J. Alloys Comp., Vol.293-295, pp.556-
563, 1999.
65﹒J. Chen, P. Yao, D.H. Bradhurst, et al.,“Mg2Ni-Based Hydrogen Storage
Alloys for Metal Hydride Electrodes”, J. Alloys Comp., Vol.293-295,
p.675, 1999.
66﹒T. Kohno, M. Yamamoto, and M. Kanda,“Electrochemical Properties of Mecha
nically Ground Mg2Ni Alloy”, J. Alloys Comp., Vol.293-295, p.643, 1999.
67﹒A. Gasiorowski, W. Iwasieczko, D. Skoryna, et al.,“Hydriding Properties of
Nanocrystalline Mg2−xMxNi Alloys Synthesized by Mechanical Alloying (M=Mn,
Al)”, J. Alloys Comp., Vol.364, pp.283-288, 2004.
68﹒L. Zaluski, A. Zaluska, J.O. Strom-Olsen,“Hydrogen Absorption in Nano-
crystalline Mg2Ni Formed by Mechanical Alloying”, J. Alloys Comp.,
Vol.217, p.245, 1995.
69﹒T. Kohno and M. Kanda,“Effect of Partial Substitution on Hydrogen Storage
Properties of Mg2Ni Alloy”, J. Electrochem. Soc., Vol.144, p.2384, 1997.
70﹒H. Aoyagi, K. Aoki, T. Masumoto,“Effect of Ball Milling on Hydrogen
Absorption Properties of FeTi, Mg2Ni and LaNi5”, J. Alloys Comp., Vol.231,
p.804, 1995.
71﹒M. Bououdina, Z.X. Guo,“Comparative Study of Mechanical Alloying of
(Mg+Al) and (Mg+Al+Ni) Mixtures for Hydrogen Storage”, J. Alloys Comp.,
Vol.336, p.222, 2002.
72﹒L. Zaluski, A. Zaluska and J.O. Strom-Olsen,“Nanocrystalline Metal
Hydrides”J. Alloys Comp., Vol.253-254, p.70, 1997.
73﹒T. Spassov, P. Solsona, S. Surinach, M.D. Baro,“Optimisation of the Ball-
Milling and Heat Treatment Parameters for Synthesis of Amorphous and
Nanocrystalline Mg2Ni-Based Alloys”, J. Alloys Comp., Vol.349, p.242, 2003.
74﹒M.Y. Song, M. Pezat, B. Darriet, P. Hagenmuller,“A Kinetic Study on the
Reaction of Hydrogen with Mg2Ni”, J. Solid State Chem., Vol.56, p.191,
1985.
75﹒R. Kirchheim, F. Sommer, and G. Schluckebier,“Hydrogen in Amorphous Metals
”, Acta Metall., Vol.30, p.1059, 1982.
76﹒T. Sato, H. Blomqvist, D. Noreus,“Attempts to Improve Mg2Ni Hydrogen
Storage by Aluminium Addition”, J. Alloys Comp., Vol.356-357, p.494, 2003.
77﹒L.B. Wang, J.B. Wang, H.T. Yuan, et al.,“An Electrochemical Investigation
of Mg1-xAlxNi (0≦x≦0.6)Hydrogen Strorage Alloys”, J. Alloys Comp.,
Vol.385, p.304, 2004. |