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La2NiO4

 

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阴极材料名称
材料牌号 材料类型 信息来源
Grade Type Information Source
La0.6Sr1.4NiO4 陶瓷 V.V.Kharton,A.A.Yaremchenko,E.N.Naumovich,J Solid State Electrochem (1999) 3: 303-326
La1.5Ba0.5NiO4 陶瓷 V.V.Kharton,A.A.Yaremchenko,E.N.Naumovich,J Solid State Electrochem (1999) 3: 303-326
La1.5Sr0.5NiO4 陶瓷 V.V.Vashook et al,Solid State Ionic,1998(110)245
La1.6Sr0.4NiO4 陶瓷 V.V.Vashook et al,Solid State Ionic,1998(110)245;M. Al Daroukh et al.Solid State Ionics,2003 (158)141.
La1.7Sr0.3NiO4 陶瓷 V.V.Vashook et al,Solid State Ionic,1998(110)245;M. Al Daroukh et al.Solid State Ionics,2003 (158)141.
La1.8Sr0.2NiO4 陶瓷 V.V.Vashook et al,Solid State Ionic,1998(110)245
La1.95NiO5 陶瓷 H.Zhao,F.Mauvy,C.Lalanne,et al,Solid State Ionics 179 (2008) 2000?2005
La1.9Sr0.1NiO4 陶瓷 Chunwen Sun, Rob Hui, Justin Roller.J Solid State Electrochem.2010(14)1126;Zhao F, Wang XF,Wang ZY,Peng RR, Xia CR,Solid State Ionics.2008(179)1450;S. J. Skinner, J.A. Kilner,Solid State Ionics 2000 (135) 709
La2Cu0.5Ni0.5O4 陶瓷 F.Mauvy,J.M.Bassat,E.Boehm,et al,Solid State Ionics 158 (2003) 395? 407
La2NiO4 陶瓷 Chunwen Sun, Rob Hui, Justin Roller.J Solid State Electrochem.2010(14)1125
LaBaNiO4 陶瓷 V.V.Kharton,A.A.Yaremchenko,E.N.Naumovich,J Solid State Electrochem (1999) 3: 303-326
LaSrNiO4 陶瓷 V.V.Kharton,A.A.Yaremchenko,E.N.Naumovich,J Solid State Electrochem (1999) 3: 303-326
Nd1.2Sr0.8NiO4 陶瓷 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.4Sr0.6NiO4 陶瓷 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.6Sr0.4NiO4 陶瓷 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
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化学成分
牌号 La Nd Sr Ba Ni Cu O
La0.6Sr1.4NiO4
La1.5Ba0.5NiO4
La1.5Sr0.5NiO4
La1.6Sr0.4NiO4
La1.7Sr0.3NiO4
La1.8Sr0.2NiO4
La1.95NiO5
La1.9Sr0.1NiO4
La2Cu0.5Ni0.5O4
La2NiO4
LaBaNiO4
LaSrNiO4
Nd1.2Sr0.8NiO4
Nd1.4Sr0.6NiO4
Nd1.6Sr0.4NiO4
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性能
材料牌号 热膨胀系数(×10-6K-1) 电导率(Scm-1) 离子电导率(Scm-1) 氧扩散系数(cm2s-1 氧表面交换系数(cm2s-1 ASR(Ωcm2) 信息来源
Grade Thermal expansion coefficients Conductivity(Scm-1) Ionic conductivity(Scm-1) Oxygen diffusion coefficients(cm2s-1 Oxygen surface exchange coefficients(cm2s-1 ASR(Ωcm2) Information Source
La1.5Sr0.5NiO4
La1.6Sr0.4NiO4 13.2(30-1000℃)
La1.7Sr0.3NiO4 11.3(30-1000℃)
La1.8Sr0.2NiO4
La1.95NiO5 H.Zhao,F.Mauvy,C.Lalanne,et al,Solid State Ionics 179 (2008) 2000?2005
La1.9Sr0.1NiO4 6.08×10-9(640℃) 7.13×10-8(640℃)
La2Cu0.5Ni0.5O4 50(500℃),42(600℃),40(700℃),35(800℃)[1]
1.3×10-3(500℃),3.5×10-3(600℃),8×10-3(500℃),1.5×10-2(500℃)[1]
2.2×10-9(500℃),1.6×10-8(600℃),7.5×10-8(500℃),3.6×10-7(500℃)[1] 		1×10-8(500℃),9.8×10-8(600℃),5.0×10-87(500℃),2.0×10-6(500℃)[1] [1]F.Mauvy,J.Bassat,E.Boehm, et al,Journal of the European Ceramic Society 24 (2004) 1265?1269
La2NiO4 12.4-13.7×10-6K-1 82(400℃);55-65(500-750℃)[2] 2.71×10-8(640℃);3.3×10-9(500℃)[2] 1.81×10-7(640℃) 4-8(800℃) [2]A.Chroneos,R.V.Vovk,I.L.Goulatis,et al,Journal of Alloys and Compounds 494 (2010) 190?195
Nd1.2Sr0.8NiO4 14.4×10-6K-1(50-900℃) L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.4Sr0.6NiO4 13.1×10-6K-1(50-900℃) L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.6Sr0.4NiO4 13×10-6K-1(50-900℃) L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.8Sr0.2NiO4 12.8×10-6K-1(50-900℃) L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.95NiO4 C.Lalanne,F.Mauvy,E.Siebert,et al,Journal of the European Ceramic Society 27 (2007) 4195?4198
Nd2NiO4 F.Chauveau, J.Mougin,J.M.Bassat,et al,Journal of Power Sources 195 (2010) 744?749
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生产工艺
材料牌号 原材料 制备方法 信息来源
Grade Raw materials Preparation Processes Information Source
La0.6Sr1.4NiO4
La1.5Ba0.5NiO4
La1.5Sr0.5NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
La1.6Sr0.4NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
La1.7Sr0.3NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
La1.8Sr0.2NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
La1.95NiO5 Pechini 法 H.Zhao,F.Mauvy,C.Lalanne,et al,Solid State Ionics 179 (2008) 2000?2005
La1.9Sr0.1NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
La2Cu0.5Ni0.5O4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48;F.Mauvy,J.M.Bassat,E.Boehm,et al,Solid State Ionics 158 (2003) 395? 407
La2NiO4 金属硝酸盐,柠檬酸 硝酸盐-柠檬酸法
LaBaNiO4
LaSrNiO4
Nd1.2Sr0.8NiO4 Nd(NO3)3,硝酸锶,硝酸镍,硝酸钕,甘氨酸, 硝酸盐-甘氨酸法 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.4Sr0.6NiO4 Nd(NO3)3,硝酸锶,硝酸镍,硝酸钕,甘氨酸, 硝酸盐-甘氨酸法 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.6Sr0.4NiO4 Nd(NO3)3,硝酸锶,硝酸镍,硝酸钕,甘氨酸, 硝酸盐-甘氨酸法 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
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电池性能
材料牌号 电池类型 极化电阻(Ωcm2         电流密度(mA) 开路电压(mV) 功率密度(mWcm-2) 信息来源
Grade type of SOFC Polarization Resistance(Ωcm2 Current Intensity(mA) Open voltage(mV) Power density(mWcm-2) Information Source
La0.6Sr1.4NiO4
La1.5Ba0.5NiO4
La1.5Sr0.5NiO4
La1.6Sr0.4NiO4
La1.7Sr0.3NiO4
La1.8Sr0.2NiO4
La1.9Sr0.1NiO4
La2Cu0.5Ni0.5O4
La2NiO4 Ni-Sm0.1Ce0.9O3?Sm0.1Ce0.9O3?La2NiO4
1.64(800℃) 		500(500℃) M.J.Escudero, A.Aguadero,J.A.Alonso,L.Daza,Journal of Electroanalytical Chemistry 611 (2007) 107?116
LaBaNiO4
LaSrNiO4
Nd1.2Sr0.8NiO4 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.4Sr0.6NiO4 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.6Sr0.4NiO4 电解质为CGO L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
Nd1.8Sr0.2NiO4 L.Sun, Q.Li,H.Zhao,et al,Journal of Power Sources 183 (2008) 43?48
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