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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/71638

    Title: RP-層狀結構Lan+1Nin(1-x)ConxO3n+1+δ(n=1~3)之質子與氧離子之傳輸性質及其用於P-SOFC陰極之可行性研究;On the transportation of proton and oxygen ions of RP series, Lan+1Nin(1-x)ConxO3n+1+δ(n=1~3) and their potential use as the cathode of P-SOFCs
    Authors: 葉青峰;Ye,Qing-Feng
    Contributors: 材料科學與工程研究所
    Keywords: 質子傳導型固態氧化物燃料電池(P-SOFC);陰極;三載子導體氧化物;Ruddlesden-Popper層狀結構;Proton-transferred solid oxide fuel cell (P-SOFC);Cathode materials;Ruddlesden-Popper series;Glycine-nitrate process;Co-doped
    Date: 2016-08-31
    Issue Date: 2016-10-13 13:24:05 (UTC+8)
    Publisher: 國立中央大學
    Abstract: 本研究使用甘胺酸-硝酸鹽類燃燒反應法製備具有奈米級孔洞之Ruddleson-Popper (RP)層狀結構Lan+1Nin(1-x)ConxO1+3n+δ (n =1, 2, 3)(LNOnCox)陰極粉末。經由調整前驅物水溶液pH值觀察燃燒後與煆燒後的結晶結構與表面形貌;調整不同RP層狀結構之鈣鈦礦層數觀察其電化學、材料熱性質;再以有最佳RP層狀結構之鈣鈦礦層數摻雜不同含量之Co元素觀察結晶結構及電化學性質。評估具有三載子導體氧化物(TCO)此RP層狀結構作為質子傳導型固態燃料電池陰極材料之可行性。實驗結果所示La2NiO4+δ (LNO1)、La3Ni2O7+δ (LNO2)及La4Ni3O10+δ (LNO3)試樣在調整前驅物水溶液pH值經煆燒後由X光繞射分析儀(XRD)前驅物具RP層狀結構之繞射峰(La2O3),由掃描式電子顯微鏡(SEM) 觀察其顆粒尺寸約200 nm~500 nm;由熱重損失分析儀(TGA)分析可發現LNO2有最高的氧空缺氧空缺變化量△δ=-0.114;LNO3摻雜Co元素由XRD分析觀察發現Co含量愈多LNO3的繞射峰往高角度偏移;由四點式量測直流電(Four-Probe DC)測量其粉體導電率,當La4Ni2.1Co0.9O10+δ (LNO3Co0.2)在400 °C時有最高導電率140.5 S/cm。將此成分製備成陰極測量極化曲線測試在700 °C時測得最高功率密度為14.4 mW/cm2;由電化學阻抗頻譜分析儀(EIS)可測得全電池之歐姆阻抗與極化阻抗。歐姆阻抗17.6 Ω/cm2,極化阻抗為2.04 Ω/cm2,總阻抗為19.6 Ω/cm2。;With a framework of alternating layers between perovskite and rock-salt structure, Ruddlesden-Popper (RP) oxides, La(n+1)NinO3n+1+δ (n = 1,2 and 3, LNO) accommodate a range of hyper stoichiometry (i.e., denoted as δ) to be considered as a potential candidate of cathodes used in the solid oxide fuel cells (SOFC) operated at lower-temperature. In the present work, combustion process was investigated to prepare the precursors of Lan+1Nin(1-x)ConxO3n+1+δ (n =1, 2, 3) via mixing glycine with the a solution of La, Ni and Co nitrates with specific concentration. The precursors resulted from combustion were calcinated to powders. Examination through scanning electron microscope (SEM), the powders depicted a porous morphology and they belonged to mixed crystals of perovskite and rock-salt resultant from by x-ray diffractometer (XRD). Both crystal structure and surface morphology of the powders change and were determined by the pH values of the nitrate solutions in the process of their mixing with glycine. The XRD of the Co-doped La4Ni3O10+δ (LNO3) displayed a small shift of character peaks to higher angle. This fact implied a lattice contraction with Co-doping. Thermal gravimetric analysis (TGA) concluded that powder LNO2 containing the highest concentration of oxygen vacancies (i.e., △δ = -0.114). The powders were then formulated into pastes, which were screen-printed on a piece of home-made electrolyte of proton-transferred solid oxide fuel cell (P-SOFC) supported with NiO-anode. After drying, the single cell was subject to electrochemical tests. The electrochemical behavior of the cathodes made of different powders various in n-values were compared to find out the best RP structure of Lan+1Nin(1-x)ConxO3n+1+δ (n =1, 2, 3). The measurement of electrical conductivity by means of four-point probe indicated the cathode made of La4Ni2.1Co0.9O10+δ (LNO3Co0.2) powder depicted the highest conductivity (i.e., 140.5 S / cm) in air at 400℃. The measurements of Power density by means of polarization curve indicated the cell the highest power density (i.e., 14.4 mW/cm2) at 700 ℃. The measurements of Polarization resistance and Ohmic resistance by means of Eelectrochemical impedence spectrum (EIS) analysis indicated the ohmic resistance of cell (i.e., 17.6 Ω/cm2) and polarization resistance of cell (i.e., 2.04Ω/cm2) at 700 ℃.
    Appears in Collections:[材料科學與工程研究所 ] 博碩士論文

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