纳米颗粒修饰提高固体氧化物燃料电池阴极与电解质性能的研究任务书

 2021-10-23 21:44:30

1. 毕业设计(论文)的内容和要求

毕业论文内容:燃料电池是一种高效的电化学能量转化装置,可以直接将储存在燃料和氧化剂中的化学能高效、环境友好地转化成电能。

作为燃料电池的一种重要类型,固体氧化物燃料电池(SOFC)在过去30年中受到了全世界的关注。

SOFC可以直接使用碳氢化合物作为燃料的特点,其大规模应用可促使我国煤、天然气和生物质的高效、清洁利用。

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2. 参考文献

[1] 衣宝廉. 燃料电池[M] . 北京:化学工业出版社,2000. [2] 韩敏芳, 彭亦萍. 固体氧化物燃料电池材料及制备[M].北京:科学出版社, 2004. [3] Lu M Y, Scipioni R, Park B K, et al. Mechanisms of PrOx performance enhancement of oxygen electrodes for low and intermediate temperature solid oxide fuel cells[J]. Materials Today Energy, 2019: 100362.[4] Vohs J M, Gorte R J. High-performance SOFC cathodes prepared by infiltration[J]. Advanced Materials, 2009, 21(9): 943-956.[5] Cao X, Hong T, Yang R, et al. Insights into the Catalytic Activity of Barium Carbonate for Oxygen Reduction Reaction[J]. The Journal of Physical Chemistry C, 2016, 120(40): 22895-22902.[6] Hong T, Brinkman K S, Xia C. Barium Carbonate Nanoparticles as Synergistic Catalysts for the Oxygen Reduction Reaction on La0.6Sr0.4Co0.2Fe0.8O3δ Solid-Oxide Fuel Cell Cathodes[J]. ChemElectroChem, 2016, 3(5): 805-813.[7] Ding D, Li X, Lai S Y, et al. Enhancing SOFC cathode performance by surface modification through infiltration[J]. Energy Environmental Science, 2014, 7(2): 552-575.[8] Paige J M, Cheng Y, Pepin P A, et al. Surface modification of SOFC cathodes by Co, Ni, and Pd oxides[J]. Solid State Ionics, 2019, 341: 115051.[9] Choi H J, Bae K, Grieshammer S, et al. Surface Tuning of Solid Oxide Fuel Cell Cathode by Atomic Layer Deposition[J]. Advanced Energy Materials, 2018, 8(33): 1802506.[9] Huang Y L, Hussain A M, Wachsman E D. Nanoscale cathode modification for high performance and stable low-temperature solid oxide fuel cells (SOFCs)[J]. Nano Energy, 2018, 49: 186-192.[10] Chen Y, Choi Y M, Yoo S, et al. A highly efficient multi-phase catalyst dramatically enhances the rate of oxygen reduction[J]. Joule, 2018, 2(5): 938-949.[11] Chen Y, Yoo S, Zhang W, et al. Effective Promotion of Oxygen Reduction Reaction by in situ Formation of nano-structured Catalyst[J]. ACS Catalysis, 2019, 9(8): 7137-7142

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