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11.
Ben-Lin He 《Journal of solid state chemistry》2005,178(3):897-901
The cathode materials, LiMn2O4, LiAl0.05Mn1.95O4 and LiAl0.05Mn1.95O3.95F0.05 were firstly prepared by a simple solution-based gel method using the mixture of acetate and ethanol as the chelating agent. The synthesized samples were investigated by X-ray diffraction, scanning electronic microscope and differential and thermal analysis. The as-prepared powders were used as positive materials for lithium-ion battery, whose discharge capacity and cycle voltammogram properties were examined. The results revealed that LiAl0.05Mn1.95O3.95F0.05 synthesized by the solution-based gel method had higher initial capacity than LiAl0.05Mn1.95O4 and better capacity retention rate (92%) than that of LiAl0.05Mn1.95O4 and LiMn2O4, which revealed that Al and F dual-doped LiMn2O4 could gain better electrochemical properties of LiMn2O4 than only the Al-doped LiMn2O4. 相似文献
12.
E.?BertoloEmail author J.?A.?Kilner M.?Sahibzada 《Journal of Solid State Electrochemistry》2004,8(9):585-591
18O/16O isotope exchange depth profiling (IEDP) combined with secondary ion mass spectrometry (SIMS) has been used to measure the oxygen tracer diffusivity of SrCe0.95Yb0.05O3– between 800 °C and 500 °C at a nominal pressure of 200 mbar. The values of D* (oxygen tracer diffusion coefficient) and k (surface exchange coefficient) increase steadily with increasing temperature, and the activation energies are 1.13 eV and 0.96 eV, respectively. Oxygen ion conductivities have been calculated using the Nernst–Einstein equation. The transport number for oxide ions at 769 °C, the highest temperature studied, is only ~0.05. Moreover, SrCe0.95Yb0.05O3– has been studied using impedance spectroscopy under dry O2, wet O2 and wet H2 (N2/10% H2) atmospheres, over the range 850–300 °C. Above ~550 °C, SrCe0.95Yb0.05O3– shows higher conductivity in dry O2 than in wet O2 or wet H2; below that temperature the results obtained for the three atmospheres are comparable. Dry O2 shows the highest activation energy (0.77 eV); the activation energies for wet O2 and wet H2 are identical (0.62 eV).Abbreviations HTPC high-temperature proton conductor - IEDP isotope exchange depth profiling - SIMS secondary ion mass spectrometryPresented at the OSSEP Workshop Ionic and Mixed Conductors: Methods and Processes, Aveiro, Portugal, 10–12 April 2003 相似文献
13.
14.
Wen-Jia Zhou Shu-Juan Bao Yan-Yu Liang Ben-Lin He Hu-Lin Li 《Journal of Solid State Electrochemistry》2006,10(5):277-282
Pure-phase and well-crystallized spinel LiMn2O4 powders were successfully synthesized by a simple rheological phase method. The thermal behavior and structure properties
of the powders prepared by the rheological phase method compared with the solid-state reaction were investigated by thermogravimetry,
powder X-ray diffraction , scanning electron microscopy and transmission electron microscopy. According to the results of
the electrochemical tests, it is obvious that the sample resulting from the rheological phase method shows higher discharge
capacity and better cycling stability than one formed in the solid-state reaction. The cyclic voltammogram and columbic efficiency
curves also confirm that the product by the rheological phase method has a good cycling performance due to its fine cubic
spinel structure and morphology. 相似文献
15.
本文以多种聚醚为软段,二异氰酸酯(MDI和TDI)为硬段,合成了多嵌段聚醚聚氨酯,以此聚氨酯为基材,与NaH及1,3-丙碳酸内酯反应,进一步合成了一系列不同离子化程度的阴离子型碳化聚氨酯离聚物,用交流阻抗谱仪测定了样品的阻抗谱,由此计算出样品的离子电导率。研究结果表明其他条件相同时,以聚乙二醇(PEG)为软段的样品具有较高的离子电导率;以聚环氧丙烷(PPO)为软段的样品次之,以聚四氢呋喃(PTMO)为软段的样品最低,对于离子化程度不同的聚氨酯离聚物以金属离子和烷氧单元之比为0.05时导电性能最好。阳离子为Li+和Na+的样品具有相近的离子电导率。 相似文献
16.
金属有机导体、半导体和超导体 总被引:2,自引:0,他引:2
本文综述了三类金属有机固体化合物的合成、结构与导电性能。这三类化合物是金属有机电荷转移盐,金属酞菁和会属卟啉络合物,以及金属有机夹层化合物。 相似文献
17.
在氧离子导体La2Mo1.7W0.3O9的基础上,采用固相法合成了La位掺杂的Ca系列新型氧化物La2-xCaxMo1.7W0.3O9-δ(0≤x≤0.2)。通过XRD、Raman和XPS等手段对化合物结构进行表征,交流阻抗谱测试其电性能。结果表明:掺杂离子Ca2+的半径小于基质离子La3+的半径导致晶格收缩;Ca的掺杂在La2Mo1.7W0.3O9自身内置氧空位的基础上增加了额外的氧空位,提高了氧离子导体的电导率,550 ℃电导率由0.79 × 10-4 S·cm-1 (x=0.0)增加到1.5 × 10-4 S·cm-1 (x=0.16,0.2),电导率增加89.9%。 相似文献
18.
Ceramic BaCe0.8Ho0.2O3-α with orthorhombic perovskite structure was prepared by conventional solid state reaction, and its conductivity and ionic transport number were measured by ac impedance spectroscopy and gas concentration cell methods in the temperature range of 600-1000 ℃ in wet hydrogen and wet air, respectively. Using the ceramics as solid electrolyte and porous platinum as electrodes, the hydrogen-air fuel cell was constructed, and the cell performance at temperature from 600-1000 ℃ was examined. The results indicate that the specimen was a pure protonic conductor with the protonic transport number of 1 at temperature from 600-900 ℃ in wet hydrogen, a mixed conductor of proton and electron with the protonic transport number of 0.99 at 1000 ℃. The electronic conduction could be neglected in this case, thus the total conductivity in wet hydrogen was approximately regarded as protonic conductivity. In wet air, the specimen was a mixed conductor of proton, oxide ion and electron hole. The protonic transport numbers were 0.01-0.09, and the oxide-ionic transport numbers were 0.27-0.32. The oxide ionic conductivity was increased with the increase of temperature, but the protonic conductivity displayed a maximum at 900 ℃, due to the combined increase in mobility and depletion of the carriers. The fuel cell could work stably. At 1000 ℃, the maximum short-circuit current density and power output density were 346 mA/cm^2 and 80 mW/cm^2, respectively. 相似文献
19.
利用湿法反应制备的LiV3O8的锂离子扩散特性 总被引:4,自引:0,他引:4
利用V2O5•nH2O湿凝胶和Li2CO3作原料,通过溶液反应和低温焙烧的方法合成了用于锂离子电池正极的LiV3O8.对其前驱体和产品分别进行DTA-TG、XRD表征.LiV3O8用作锂离子电池正极的电化学性能利用恒电流充放电测试进行研究.实验表明活性材料LiV3O8具有较高的充放容量和良好的循环性能.LiV3O8电极的锂离子化学扩散系数由恒电位间歇滴定技术(PITT)来确定,其值依据Li1+xV3O8中x值的不同在10-8~10-10 cm2•s-1的变化范围内.获得的锂离子的扩散活化能为:Ea=25~42 kJ•mol-1(x=0.18~2.5).认为锂离子扩散的最大活化能是由锂离子在Li4V3O8相中的扩散决定的. 相似文献
20.
Transition metal oxide doped lanthanum gallates, La0.9Sr0.1Ga0.8M0.2O3 (where M=Co, Mn, Cr, Fe, or V), are studied as mixed ionic-electronic conductors (MIECs) for electrode applications. The
electrochemical properties of these materials in air and in H2 are characterized using impedance spectroscopy, open cell voltage measurement, and gas permeation measurement. Three single
cells based on La0.9Sr0.1Ga0.8 Mg0.2O3 (LSGM) electrolyte (1.13 to 1.65 mm thick) but with different electrode materials are studied under identical conditions
to characterize the effectiveness of the lanthanum gallate-based MIECs for electrode applications. At 800 °C, a single cell
using La0.9Sr0.1- Ga0.8Co0.2O3 as the cathode and La0.9Sr0.1Ga0.8Mn0.2O3 as the anode shows a maximum power density of 88 mW/cm2, which is better than that of a cell using Pt as both electrodes (20 mW/cm2) and that of a cell using La0.6Sr0.4CoO3 (LSC) as the cathode and CeO2-Ni as the anode (61 mW/cm2) under identical conditions. The performance of LSGM-based fuel cells with MIEC electrodes may be further improved by reducing
the electrolyte thickness and by optimizing the microstructures of the electrodes through processing.
Received: 9 January 1998 / Accepted: 1 May 1998 相似文献