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Electrodeposition and Characterization of Nanocrystalline Ni-Mo Catalysts for Hydrogen Production

机译：纳米晶体Ni-Mo催化剂的电沉积和表征氢气生产

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Ni-Mo nanocrystalline deposits (7–43 nm) with a nodular morphology were prepared by electrodeposition using direct current from citrate-ammonia solutions. They exhibited a single Ni-Mo solid solution phase. The size of the nodules increased as electroplating current density increased. The molybdenum content—estimated using EDX analysis—in the deposits decreased from about 31 to 11 wt% as the current density increased from 5 to 80 mA·cm−2. The highest microhardness value (285 Hv) corresponded to nanodeposits with 23% Mo. The highest corrosion resistance accompanied by relatively high hardness was detected for electrodeposits containing 15% Mo. Mo content values between 11 and 15% are recommended for obtaining better electrocatalytic activity for HER.

机译：使用来自柠檬酸氨溶液的直流电，通过电沉积制备具有结节形态的Ni-Mo纳米晶沉积物（7-43nm）。它们表现出单一的Ni-Mo固溶液相。随着电镀电流密度的增加，结节的尺寸增加。使用EDX分析 - 在沉积物中估计的钼含量从约31至11wt％降低，因为电流密度从5-80mA·cm-2增加。最高的微硬度值（285HV）对应于具有23％Mo的纳米脂素。在含有15％Mo的电沉积物中检测到伴随相对高硬度的最高耐腐蚀性。建议在11至15％之间进行11和15％的电催化剂来获得更好的电催化活性她。

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J. Halim; R. Abdel-Karim; S. El-Raghy; M. Nabil; A. Waheed;
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年度 2012
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正文语种 eng
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1. Electrodeposition and Characterization of Nanocrystalline Ni-Mo Catalysts for Hydrogen Production [J] . J.Halim, R.Abdel-Karim, S.El-Raghy, Journal of nanomaterials . 2012,第1期

机译：用于产氢的纳米晶Ni-Mo催化剂的电沉积和表征
2. Characterization of active sites over reduced Ni-Mo/Al2O3 catalysts for hydrogenation of linear aldehydes [J] . Wang XQ, Ozkan US The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2005,第5期

机译：还原型Ni-Mo / Al2O3催化剂上用于线性醛加氢的活性位的表征
3. Characterization of active sites over reduced Ni-Mo/Al2O3 catalysts for hydrogenation of linear aldehydes [J] . Wang XQ, Ozkan US The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2005,第5期

机译：还原型Ni-Mo / Al2O3催化剂上用于线性醛加氢的活性位的表征
4. Structural And Microstructural Characterization Of Nanocrystalline (CuIn)_(0.1)Zn_(1.8)S_(2) Photocatalysts For Solar Hydrogen Production [C] . D.T. Silipas, E. Indrea, R. Banica, Processes in Isotopes and Molecules . 2012

机译：纳米晶（Cuin）_（0.1）Zn_（1.8）S_（2）光催化剂的结构和微观结构表征用于太阳能氢气的光催化剂
5. Gas-phase photoelectron spectroscopy and computational studies of [iron-iron]-hydrogenase-inspired-catalysts for hydrogen production [D] . Lockett, L. Tori 2009

机译：气相光电子能谱法和[铁-铁]-加氢酶启发的制氢催化剂的计算研究
6. Enhancing hydrogenation activity of Ni-Mo sulfide hydrodesulfurization catalysts [O] . Manuel F. Wagenhofer, Hui Shi, Oliver Y. Gutiérrez, 2020

机译：提高Ni-Mo硫化物加氢脱硫催化剂的加氢活性
7. Design of Complete Hydrogenation of Diesel Fuel. Part 1. Multiple Hydrogenation Using Ni-Mo Catalyst. [O] . Kenya SAKANISHI, Satoshi ABE, Isao MOCHIDA 1991

机译：柴油燃料完全氢化的设计。第1部分使用Ni-Mo催化剂多重氢化。

Electrodeposition and Characterization of Nanocrystalline Ni-Mo Catalysts for Hydrogen Production

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