在纳米晶Co—Mo／Ni复合电极上的析氢反应

采用复合电镀的方法将不同球磨时间制备的高催化活性的纳米晶Ｃｏ－Ｍｏ合金粉直接镀在电极表面，用稳态极化曲线及交流阻抗技术测试了这些电极析氢的电化学活性，并用Ｘ射线衍射，透射电镜及Ｘ射线光电子能谱，扫描电镜监测了Ｃｏ－Ｍｏ合金粉的物相结构，晶粒尺寸和复合镀的成份，形貌，实验结果表明，Ｃｏ－Ｍｏ纳米晶合金粉有较高的析氢催化活性，球磨使钴钼粉合金化成为纳米晶，一方面增加了复合镀层的真实表面积，另一方面由于     

球磨形成的Ni-Mo纳米晶复合镀层上的析氢反应

采用复合电镀的方法将不同球磨时间制备的高催化活性的纳米晶，Ｎｉ－Ｍｏ合金粉直接镀于电极表面，并用稳态极化曲线及交流阻抗技术测试了这些电极析氢的电化学活性，同时用Ｘ射线衍射，透射电镜及扫描电镜监测了Ｎｉ－Ｍｏ合金粉的物相结构，晶粒尺寸及复合电极表面的形貌，并初步探讨了这些复合电极的析氢机理，实验结果表明，球磨不仅可使镍钼粉合金化成为纳米晶，同时随着球磨时间的增加，纳米晶晶粒继续细化，电极的析氢催化活     

纳米晶Ni-Mo合金复合镀层中钼含量对析氢反应的影响

本文利用复合电镀的方法, 将用高能机械球磨制备的纳米晶Ni-Mo合金粉制成对析氢反应有高催化性的电极。用X射线衍射仪、X射线光电子能谱仪测试了这些纳米晶的大小及复合镀层的组成, 用稳态极化曲线及交流阻抗技术测试了这些电极析氢的电化学特性。实验结果表明: 在本文研究的范围内镀层中钼含量的增加可以提高电极析氢的催化活性, 电化学脱附是这些电极上析氢反应速度的决定步骤。     

Ni—Mo合金复合镀层上的析氢反应

用稳态极化曲线及交流阻抗等电化学技术研究了不同沉积条件（沉积温度、沉积时间、沉积电流、镀液组成）所得纳米晶Ｎｉ－Ｍｏ合金复合镀层上的析氢反应，并用扫描电镜及Ｘ光能谱监测了电极表面的形貌及镀层组成，实验结果表明：沉积温度３０℃、沉积７２００ｓ，较大的沉积电流及含钼镀液对析氢更为有利     

Co—WC电极

从钴镀液中添加ＷＣ微粒复合电沉积制备Ｃｏ－ＷＣ镀层，ＷＣ微粒的加入，加快了阴极电化学反应。Ｃｏ－ＷＣ复合电极在碱性溶液中具有优越的电催化析氢性能，并经受了长期间断电解的试验，电极性能稳定。     

Ni—WC复合电极的结晶结构及其电化学性能的研究

本文在优选的工艺条件下制备了Ｎｉ－ＷＣ复合电极。其ＳＥＭ观察和ＸＲＤ测试结果表明：复合电极中的Ｎｉ是以比Ｎｉ电极的Ｎｉ更微小的晶粒存在。复合电沉积过程中，导电性的ＷＣ微粒的存在，对基质金属Ｎｉ的电沉积方式产生了影响，使基质金属Ｎｉ几乎无择优取向性。采用循环伏安法对其电化学性能进行研究，实验结果表明：Ｎｉ－ＷＣ复合电极在碱性水溶液析氢反应中与Ｈ质子之间的吸附作用及吸附量高于Ｎｉ电极，对硝基苯的电还原反应具有比Ｎｉ电极更良好的催化活性。     

机械合金化Mg/MmNi5-x(CoAlMn)x复合储氢合金的组织结构与吸氢特性

运用Ｘ射线衍射、扫描电及粒度分析等方法表征了机械合金化制备Ｍｇ／ＭｎＮｉ５－ｘ（ＣｏＡｌＭｎ）ｘ复合储氢合金的结构,通过ＰＣＴ曲线研究了基储氢性能。结果表明,在适当的球磨条件下能够获得纳米晶结构的Ｍｇ／ＭｎＮｉ５－ｘ（ＣｏＡｌＭｎ）ｘ复合储氢合金,ＭｍＮｉ５－ｘ（ＣｏＡｌＭｎ）ｘ合金相彘,复合储氢合金的活化性能及储氢量有明显提高。此外,还考察了Ｍｇ含量对复合储氢合金的组织结构及储氢性能的影响。     

Co-WC电极

从钴镀液中添加ＷＣ微粒复合电沉积制备Ｃｏ－ＷＣ镀层,ＷＣ微粒的加入,加快了阴极电化学反应．Ｃｏ－ＷＣ复合电极在碱性溶液中具有优越的电催化析氢性能,并经受了长期间断电解的试验,电极性能稳定     

LaNi5-xMx高温氢化的歧化行为

采用Ｘ射线衍射、差热分析及电化学方法，研究了吸氢合金ＬａＮｉ５－ｘ－Ｍｘ（Ｍ＝Ｍｎ，Ｃｏ，Ｆｅ，Ｃｒ，Ａｌ）在高温氢化反应时的歧化行为及其反应产物的电化学性能。ＬａＮｉ５－ｘＭｘ在２．５ＭＰａ氢压和５５０℃以上保温一地间后可发生明显的歧化反应，并析出纳米相镍。歧化反应的程度与加热温度、时间、第三组元Ｍ及合金的生成焓关系密切。电化学交换电流密度测定表明，经歧化反应得到的含纳米相镍的复相组织与原始合金     

镍铜合金立方体纳米晶的脉冲电沉积及电催化析氢性能

以泡沫镍(NF)为基体, 采用常规脉冲伏安法合成了独立分相的金属Ni, Cu为主晶相、 平均粒径为70 nm的规则立方体结构镍铜合金电催化剂(NiCu/NF). 在电催化析氢反应中, NiCu/NF表现出优良的催化活性和优异的催化稳定性, 在电流密度为10 mA/cm ²时, 在1.0 mol/L KOH溶液中需要的析氢过电位仅为86 mV, 催化24 h的电位波动仅为12 mV. 二级复合纳米立方体结构使NiCu/NF展现出15.5倍于空白NF的电化学活性面积(ECSA), 为电催化反应提供了大量催化活性位点, 也为电极表面的电荷传输、 物质传递提供了充足的通道; Cu的引入以及NiO/Ni异质结的形成改善了邻近Ni原子的活性, 使镍基材料本征析氢活性得以改善, 三者协同促进了NiCu/NF电催化活性的提升. NiCu/NF电极在析氢过程中遵循Volmer-Heyrovsky机理, 反应速率由电极表面吸附氢原子的电化学脱附过程决定.     

电沉积纳米镍合金在海水溶液中的析氢性能

采用电沉积法获得Ni、Ni-Fe和Ni-Fe-C合金镀层电极, 在90 °C模拟海水(0.5 mol·L-1 NaCl, pH=12)的稳态极化曲线表明Ni-Fe-C合金电极具有最好的析氢催化性能. 通过扫描电子显微镜(SEM)观察电极表面形貌、X射线衍射(XRD)与透射电子显微镜(HRTEM)分析合金的晶体结构, 发现电极材料的晶粒尺寸影响析氢催化性能, 晶粒尺寸越小析氢催化活性越好. 用电化学阻抗方法(EIS)研究电极析氢催化性能的本质原因, 结果表明电极表面活性点数目和电极的本质电催化活性对合金电极析氢催化活性有重要的影响.     

Ni-Co-LaNi5复合电极材料在碱性介质中的电催化析氢性能

电催化析氢反应是电能向化学能转化的一个有效途径,是电化学科学中一个非常值得深入研究的课题。阴极析氢超电势的降低,是提高析氢活性,降低电解能耗的关键。为了提高电极的电催化活性,一是可通过提高电极表面的真实表面积,来降低电解过程中电极表面的真实电流密度,达到降低析氢超电势的目的;另一发展方向是提高电极材料本身的电化学活性,即寻找高催化活性的新型析氢材料犤1犦。由于过渡金属具有特殊的d电于结构,是目前公认的电化学活性最好的电极材料,而在过渡金属中,Ni及Ni合金将是研究的主要方向,其中多元合金复合材料将成为该技术发展…     

Ni–Mo alloy nanostructures as cathodic materials for hydrogen evolution reaction during seawater electrolysis

In the case of hydrogen production involving seawater electrolysis, one of the main targets is to develop more active cathodic materials, to optimize the efficiency of hydrogen evolution reaction (HER) and, by doing so, enhance the overall energy efficiency of electrolysis. Thus, to develop suitable HER electrocatalysts either an increase of the electrode active surface area or a design of a material having high intrinsic catalytic activity should be taken into consideration, both of them decreasing the HER overpotential. In the present work, various Ni–Mo alloy nanostructures (10–40 wt% Mo) have been prepared involving electrochemical deposition from aqueous and deep eutectic solvent (DES)-based electrolytes as potential cathodic materials suitable for hydrogen evolution reaction during water electrolysis. The electrocatalytic activity of the obtained layers has been investigated using real seawater electrolyte. The determined Tafel slopes suggested that the electrodeposited Ni–Mo alloy coatings follow an HER mechanism controlled by the Volmer reaction step. The EIS results indicated that the use of choline chloride-based ionic liquids as electrolytes facilitated Ni–Mo alloy coatings showing a significant increase in surface roughness. Studies of the intrinsic activity showed that the main contribution towards the apparent activity comes from the increase of the real surface area, although a slight increase of the intrinsic electrocatalytic activity in the case of Ni–Mo alloy coatings electrodeposited on Ni foam was also noticed. These results showed that Ni–Mo alloy coatings electrodeposited from the novel electrolytes based on choline chloride–urea–citric acid ternary mixtures associated with a porous substrate may represent a promising technological approach to build cathodic materials suitable for seawater electrolysis.     

电沉积Ni－La合金上的阴极析氢行为

在电解水制氢工业中,为降低能耗人们在研制电催化活性高的析氢电极材料方面做了大量工作,主要有纯金属电极、合金电极及复合电极等.Arul Raj等用电沉积方法获得了Ni-Co,Ni-Zn,Ni-W及Ni-Cr等镍基合金电极,发现这些电极的析氢催化活性有很大差别.本文从电解质水溶液中制备了Ni-La合金电极,是一种理想的析氢电极材料.     

Development of nano IrO<Subscript>2</Subscript> composite-reinforced nickel–phosphorous electrodes for hydrogen evolution reaction

Electroless and electroplated nickel electrodes are extensively used for hydrogen evolution reaction (HER). In the present work, TiO₂-supported IrO₂ mixed oxide composite was prepared and used to reinforce Ni–P electroless plates to be used as catalytic electrodes for HER. The electrodes exhibited high electrocatalytic activity when the electrodes were used for HER. All the parameters including particle size of the catalyst, surface roughness, and surface active sites were studied. The particle size of the IrO₂ catalyst in the mixed oxide was found to have high influence on the catalytic activity of the electrodes. Low overpotential as low as 70 mV at a current density of 200 mA cm⁻² was achieved with the mixed oxide-reinforced Ni–P electrodes.     

The Study on Electrochemical Stability of Amorphous Ni-S Alloy Electrode

Development of cathode material which has low HER (hydrogen evolution reaction) overpotential and high durability is significant to electrolysis industry and antifouling with electrolyzing seawater. The amorphous Ni-S alloy electrode was prepared by means of electrodeposition. Its electrocatalytic activity and stability for HER in 5 mol/L NaOH solution at 353 K was investigated. The result showed that the amorphous Ni-S alloy in which sulphur content is 29.4%, has high electrocatalytic activity and excellent stability. In addition, the morphology and phase structure of the NiS_x alloy electrode before and after electrolysis were studied by SEM (scanning electron microscope) and XRD (X-ray diffraction).     

贮氢合金表面分析和金属氢化物电极电催化活性

贮氢合金表面状态和组成是影响金属氢化物(MH)电极电催化活性的重要因素, MH电极的表面改性处理是改善电极性能的有效方法。用XPS, ICP, BET方法分析了处理后贮氢合金表面组成和状态的变化。讨论了化学还原处理对MH电极电催化活性的影响, 结果表明: 化学还原处理大大提高了MH电极反应的交换电流密度和减低了电极反应活化能。     

Ball-milling MoS_2/carbon black hybrid material for catalyzing hydrogen evolution reaction in acidic medium

Replacing platinum for catalyzing hydrogen evolution reaction(HER) in acidic medium remains great challenges. Herein, we prepared few-layered Mo S2 by ball milling as an efficient catalyst for HER in acidic medium. The activity of as-prepared Mo S2 had a strong dependence on the ball milling time. Furthermore,Ketjen Black EC 300 J was added into the ball-milled Mo S2 followed by a second ball milling, and the resultant Mo S2/carbon black hybrid material showed a much higher HER activity than Mo S2 and carbon black alone.The enhanced activity of the Mo S2/carbon black hybrid material was attributed to the increased abundance of catalytic edge sites of Mo S2 and excellent electrical coupling to the underlying carbon network.