Thermodynamic Parameters of the Intercalation Reaction in Thermal and Laser Modified Nanodispersed Anatase
Thermodynamic Parameters of the Intercalation Reaction in Thermal and Laser Modified Nanodispersed Anatase
出处
《材料科学与工程(中英文B版)》
2013年第4期244-246,共3页
Journal of Materials Science and Engineering B
参考文献10
-
1S.Y. Huang, L. Kavan, I. Exnar, M. Gratzel, Rocking chair lithium battery based on nanocrystalline TiO2 (anatase), J. Electrochem. Soc. 142 (1995)L142-L144.
-
2L. Kavan, A. Atria, F. Lenzmann, Lithium insertion into zirconia stabilized mesoscopic TiO2 (anatase), J. Elecrochem. Soc. 147 (2000) 2897-2904.
-
3Y.S. Hom, S. Osmialowski, Q.C. Horn, Nano-FeSz for commercial Li/FeS2 primary batteries, J. Electrochem. Soc. 149 (11) (2002) A1499-AI502.
-
4M. Quintin, O. Devos, M.H. Delville, G. Campet, Study of the lithium insertion-deinsertion mechanism in nanocrystalline y-Fe203 electrodes by means of electrochemical impedance spectroscopy, Electrochimica Acta 51 (28) (2006) 6426-6434.
-
5M.P. Finnegan, H. Zhang, J.F. Banfield, Phase stability and transformation in titania nanoparticles in aqueous solutions dominated by surface energy, J. Phys. Chem. C. 111 (2007) 1962-1968.
-
6M.L. Sushko, K.M. Rosso, J. Liu, Mechanism of Li^+/electron conductivity in rutile and anatase TiO2 nanoparticles, J. Phys. Chem. C 114 (47) (2010) 20277-20283.
-
7V.V. Strelchuk, I.M. Budzulyak, S.I. Budzulyak, R.V. Ilnytsyy, V.O. Kotsyubynskyy, M.Ya. Segin, et al., Raman spectroscopy of the laser irradiated titanium dioxide, Semiconductor Physics, Quantum Electronics & Optoelectronics 13 (3) (2010) 309-313.
-
8A.G. Thompson, Electrochemical studies of lithium intercalation in titanium and tantalum dichalcogenides, Phys. B + C 99B (1-4) (1980) 100-105.
-
9W.R. McKinnon, R.R. Haering, Physical mechanisms of intercalation, Modem Aspects of Electrochemistry New York 15 (1983) 235-261.
-
10A.S. Nagelberg, Alkali metal intercalated transition metal disulfides: A thermodynamic model, J. Sol. State Chem. 38 (3) (1981) 321-334.
-
1陈圣云,任建国,秦子斌.金属离子与卟啉的嵌入反应动力学研究 IV.Cu(Ⅱ)T_(β-N-EAES)PyP^(4+)生成反应中的动力学盐效应[J].化学学报,1993,51(3):209-215.
-
2秦子斌,潘志权,程海斌,任建国.金属离子与卟啉的嵌入反应动力学研究——Ⅱ.汞(Ⅱ)催化锰(Ⅱ)嵌入四溴化四(N-乙酸甲酯基-3-吡啶基)卟啉的反应[J].化学学报,1990,48(4):325-329. 被引量:1
-
3董庆华,孔维和,吴秉亮.光电化学方法研究嵌入反应[J].物理化学学报,1992,8(4):555-557. 被引量:1
-
4潘志权,董平安,任建国,秦子斌.金属离子与卟啉的嵌入反应动力学研究 Ⅴ.四苯并卟啉衍生物与铜(Ⅱ)的配位反应[J].武汉大学学报(自然科学版),1993,39(3):90-96. 被引量:1
-
5刘晓辉,范家起,漆宗能.聚丙烯/蒙脱土纳米复合材料的非等温结晶动力学研究[J].高分子材料科学与工程,2001,17(6):103-105. 被引量:21
-
6潘志权,任建国,秦子斌.金属离子与卟啉的嵌入反应动力学研究(Ⅳ)──乳酸缓冲体系中四吡啶基卟啉衍生物与铜(Ⅱ)的配位反应[J].高等学校化学学报,1994,15(4):565-569. 被引量:4
-
7黄少云,潘志权,任建国.金属离子与卟啉的嵌入反应动力学研究——邻苯二甲酸缓冲溶液中溴化间-四(N-乙酸甲酯基-3-吡啶基)卟啉与Cu(Ⅱ)的配位反应[J].无机化学学报,2003,19(7):785-788. 被引量:1
-
8努丽燕娜,万传云,严曼明,庄继华,江志裕.锂在高有序热解石墨(HOPG)电极中的扩散系数[J].高等学校化学学报,2002,23(7):1375-1378. 被引量:8
-
9章福平.LiNi_(0.3)Co_(0.7)O_2的结构及其锂电池行为的研究[J].高等学校化学学报,1995,16(5):770-774. 被引量:6
-
10潘志权,董平安,任建国,秦子斌.金属离子与卟啉的嵌入反应动力学研究──Ⅶ.一元酸根催化Cu(Ⅱ)与溴化间-四(N-乙酸甲酯基-3-吡啶基)卟啉的配位反应[J].无机化学学报,1994,10(3):227-233. 被引量:3