浸渍还原法制备Pd基二元纳米合金催化剂的工艺研究
毕业论文关键词: Pd-Ni合金;浸渍还原法;XRD曲线;催化活性
Study on Preparation Process of Pd-based Binary Alloy Nano-catalyst by Impregnated Reduction Method
Abstract: In this paper, we prepared Pd-Ni binary alloy nano-catalyst by the impregnation-reduction method. The structure of catalysts were characterized by XRD curve. The effects of different factors, such as Pd -Ni reduction sequence, reduction time of Pd, NaOH and H2O2 concentrations and test temperatures, on electro-catalytic properties were measured through cyclic voltammetry(CV) and linear sweep voltammetry(LSV). The results showed that palladium-nickel alloy catalysts have better catalytic performance when we reduced palladium before nickel. The appropriate time of Palladium reduction is 2 to 3 hours. The palladium-nickel alloy exhibit the best catalytic effect at working condition of 35OC, 0.5mol/L NaOH and 0.06mol/L H2O2 concentration.
Keywords:Pd-Ni alloy; impregnation-reduction method; XRD curve; catalytic performance
目 录
1 绪论 1
1.1 燃料电池的概述 1
1.2 燃料电池的发展 1
1.3 DBHFC阴极催化剂 2
1.3.1 DBHFC阴极催化剂的研究现状 2
1.3.2 DBHFC阴极催化剂的种类 2
1.3.3 DBHFC阴极催化剂的制备方法 4
1.4 电极表面电催化反应的测试 5
1.4.1 电催化反应与电极电势之间的关系 5
1.4.2 X射线衍射(XRD) 5
1.4.3 循环伏安测试(CV) 6
1.4.4 线性扫描伏安测试(LSV) 6
1.5 本文研究的目的、意义和主要内容 6
1.5.1 研究的目的、意义 6
1.5.2 研究的主要内容 6
2 实验材料与研究方法..7
2.1 实验药品与设备 7
2.1.1 实验材料 7
2.1.2 实验药品 7
2.1.3 实验设备 8
2.2 催化剂制备 8
2.2.1 碳载体的预处理 8
2.2.2 Pd/C催化剂的制备 8
2.2.3 Ni/C催化剂的制备 9
2.2.4 Pd基二元纳米合金催化剂的制备 9
2.3 电极的制备 10
2.3.1 碳纸的预处理 10
2.3.2 电极的制备 10
2.4 电极电化学测试 10
2.4.1 电化学测试 10
2.4.2 循环伏安测试(CV) 11
2.4.3 线性扫描伏安测试(LSV) 12
3 浸渍还原法制备Pd基二元纳米合金催化剂的催化性能...............13
3.1 不同比例Pd-Ni合金催化剂对催化性能的影响 13
3.1.1 X-射线衍射(XRD)分析 13
3.1.2 循环伏安测试(CV) 14
3.2 Pd和Ni还原顺序对合金催化剂的催化性能影响 15
3.2.1 Pd10%-Ni10%/C与Ni10%-Pd10%/C催化剂的性能比较 15
3.2.2 Pd15%-Ni15%/C与Ni15%-Pd15%/C催化剂的性能比较 17