角分辨傅里叶成像光谱法测定三维波长尺度结构的内表面积

Oceans Pub Date : 2023-06-26 DOI:10.1109/CLEO/Europe-EQEC57999.2023.10232486

N. M. Palakkool, M. Taverne, D. Rezaie, H. Awachi, Y.-S. J. Chen, J. G. Rarity, C.-C. Huang, Y. D. Ho

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引用次数: 0

摘要

燃料电池和电池的面能量密度与电化学活性材料的质量负荷成正比。可以预期的是，3D电极的发展为实现燃料电池[1]和电池[2]的高效能量和动力能力提供了希望。尽管已经有了一些概念验证的例子，但目前还没有同时具有尺寸相容性、高质量活性和高电化学性能的3D电极。这个问题阻碍了能源应用的成功实施。因此，成功开发具有所有这些特征的3D电极对于进一步推进能源应用至关重要。

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Determination of the Inner Surface Area of 3D Wavelength Scale Structures by Using Angle-resolved Fourier Image Spectroscopy

The areal energy density of fuel cells and batteries is proportional to the mass loading of the electrochemically active materials. As can be expected, the development of 3D electrodes holds promise for the implementation of highly efficient energy and power capabilities of fuel cells [1] and batteries [2]. Despite the development of some proof-of-concept examples, currently there are no 3D electrodes that simultaneously possess dimensional compatibility, high mass activity, and high electrochemical performance. This problem is hindering successful implementation of energy applications. Hence, successful development of 3D electrodes with all these features is essential for further advancement of energy applications.

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来源期刊

Oceans

CiteScore

3.10

自引率

0.00%

发文量