用于锂离子氧电池光辅助充电的 N 掺杂石墨烯光催化剂的合成

IF 4.4 4区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES
Nilay Kaçar, Ersu Lökçü, Meltem Çayirli, Reşat Can Özden, Sahin Coskun, Cigdem Toparli, İbrahim Çelikyürek, Mustafa Anik
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引用次数: 0

摘要

本研究通过化学气相沉积法在泡沫铜的一侧合成了掺氮石墨烯薄膜作为光催化剂,并在泡沫铜的另一侧负载多孔 Pd@rGO 阴极后将泡沫铜直接用作电极,对锂离子氧电池进行光辅助充电。为了从 n 型石墨烯薄膜中获得最大的光阳极电流,对作为 N 原子源的尿素(CO(NH2)2)的用量进行了优化。优化后的 N 掺杂石墨烯薄膜的光带隙和价带边电位分别为 2.00 eV 和 3.71 VLi+/Li。X 射线光电子能谱显示,石墨烯薄膜中 N 原子的原子百分比为 1.34%,石墨态、吡咯态和吡啶态 N 原子的百分比分别为 54.01%、42.20% 和 3.79%。光辅助充电测试表明,即使在 1000 mA g-1 (0.1 mA cm-2)的电流密度下,掺杂 N 的石墨烯薄膜光催化剂也能显著降低充电电位,并大大改善锂离子氧电池的循环放电-充电性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Synthesis of N-Doped Graphene Photo-Catalyst for Photo-Assisted Charging of Li-Ion Oxygen Battery

Synthesis of N-Doped Graphene Photo-Catalyst for Photo-Assisted Charging of Li-Ion Oxygen Battery

Synthesis of N-Doped Graphene Photo-Catalyst for Photo-Assisted Charging of Li-Ion Oxygen Battery

In this work, nitrogen (N)-doped graphene film is synthesized, as a photo-catalyst, on one side of the copper foam by chemical vapor deposition and the copper foam is directly used as an electrode after porous Pd@rGO cathode loading to the other side of the foam for the photo-assisted charging of the Li-ion oxygen battery. The amount of urea (CO(NH2)2), which is used as N atom source, is optimized to get maximum photo-anodic currents from the n-type graphene films. The optical band gap and the valance band edge potential of the optimized N-doped graphene film are determined as 2.00 eV and 3.71 VLi+/Li, respectively. X-ray photoelectron spectra provided that the atomic percent of N atoms in the graphene film is 1.34% and the graphitic, pyrrolic and pyridinic N atom percentages are 54.01%, 42.20% and 3.79%, respectively. The photo-assisted charging tests indicated that the N-doped graphene film photo-catalyst reduced the charging potential significantly even at 1000 mA g−1 (0.1 mA cm−2) current density and improved the cyclic discharge-charge performance of the Li-ion oxygen battery considerably.

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来源期刊
Global Challenges
Global Challenges MULTIDISCIPLINARY SCIENCES-
CiteScore
8.70
自引率
0.00%
发文量
79
审稿时长
16 weeks
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