析氢电极材料，中文例句，英文例句-词都网

1.

The electrochemical method is one of the most frequently used and simple methods for the preparation of electrode materials for hydrogen evolutioin.

电化学方法是制备析氢电极材料最常用、最简单的方法之一。

2.

The Electrochemical Characterization of the Low Overpotential Nickel and Cobalt Based Functional Materials for Hydrogen Evolution Reaction;

低析氢超电势镍、钴基多元合金功能电极材料电化学性能的研究

3.

Study of LPC Hydrogen Storage Alloy with Technique of Quenching and Annealing; 点击朗读

快淬及热处理LPC贮氢电极材料的研究

4.

The Study of Preparation and Modification of Electrode Material Ni(OH)_2; 点击朗读

氢氧化镍电极材料的制备及改性研究

5.

Reaction mechanism and preparation of nickel hydroxide electrode materials 点击朗读

氢氧化镍材料的反应机理和电极制备

6.

Electrochemical Capacitance Performance of Cobalt/Nickel (Hydroxide) Oxides Electrodes; 点击朗读

（氢）氧化钴/镍电极材料的电化学电容行为

7.

Preparation and Electrochemical Performance of Nickel Hydroxide for Ni/MH Battery; 点击朗读

镍氢电池正极材料氢氧化镍的制备及电化学性能

8.

Researches on the Application of Carbon Nanotubes for Negative Material of Ni/MH Battery; 点击朗读

纳米碳管在镍氢电池负极材料中的应用研究

9.

The Preparation of Cathode Material LiFePO_4 for Lithium Ion Battery by the Hydrogen Thermal Reduction Method;

氢热还原法制备锂离子电池正极材料LiFePO_4

10.

Effect of Additive and Binder on the Properties of Metal-Hydride Electrode; 点击朗读

添加剂和粘结材料对镍氢电池负极性能的影响

11.

Studies on Surface Modification of La-Mg-Ni System A_2B_7-type Hydrogen Storage Electrode Alloys;

La-Mg-Ni系A_2B_7型贮氢合金电极材料表面改性研究

12.

The Research of High Performance Ni-MH Battery and Its New Positive Materials; 点击朗读

高性能镍氢电池及其新型正极材料的研究

13.

New research progress in investigation of AB_5 rare earth-based hydrogen storage alloys in Ni-MH battery

稀土系AB_5型贮氢合金电极材料研究进展

14.

In particular, the potential developments and the application on the cathode of the high temperature steam electrolysis are put forward.

对阳极材料在高温电解制氢领域阴极上的应用前景进行了展望。

15.

Studies on Zinc Electrode of High-Energy Mercury-Free Green Alkaline Manganese Batteries--Research on Functional Film of High Hydrogen Over-Potential;

高能无汞绿色碱锰电池电极的研究——高氢超电势材料功能膜的研究

16.

Structure and Electrochemical Performance of Mg-Based Hydrogen Storage Alloy Used as Negative Electrode Material in MH/Ni Battery;

镍氢电池负极材料-Mg基合金结构和电化学性能研究

17.

Studies of Interaction between Metal Ions and Dihydroartemisinin at Nano-material Modified Electrode;

纳米材料修饰电极上金属离子对双氢青蒿素的作用研究

18.

Quantum Chemical Study on the Doping of Anode Material for Lithium-ion Battery and on the Reaction Mechanism of the Isomerization: HNC→HCN;

锂离子电池掺杂正极材料的量化计算及氢氰酸协同反应机理研究



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	您的位置：首页 -> 句库 -> 析氢电极材料 1. The electrochemical method is one of the most frequently used and simple methods for the preparation of electrode materials for hydrogen evolutioin. 电化学方法是制备析氢电极材料最常用、最简单的方法之一。 2. The Electrochemical Characterization of the Low Overpotential Nickel and Cobalt Based Functional Materials for Hydrogen Evolution Reaction; 低析氢超电势镍、钴基多元合金功能电极材料电化学性能的研究 3. Study of LPC Hydrogen Storage Alloy with Technique of Quenching and Annealing; 快淬及热处理LPC贮氢电极材料的研究 4. The Study of Preparation and Modification of Electrode Material Ni(OH)_2; 氢氧化镍电极材料的制备及改性研究 5. Reaction mechanism and preparation of nickel hydroxide electrode materials 氢氧化镍材料的反应机理和电极制备 6. Electrochemical Capacitance Performance of Cobalt/Nickel (Hydroxide) Oxides Electrodes; （氢）氧化钴/镍电极材料的电化学电容行为 7. Preparation and Electrochemical Performance of Nickel Hydroxide for Ni/MH Battery; 镍氢电池正极材料氢氧化镍的制备及电化学性能 8. Researches on the Application of Carbon Nanotubes for Negative Material of Ni/MH Battery; 纳米碳管在镍氢电池负极材料中的应用研究 9. The Preparation of Cathode Material LiFePO_4 for Lithium Ion Battery by the Hydrogen Thermal Reduction Method; 氢热还原法制备锂离子电池正极材料LiFePO_4 10. Effect of Additive and Binder on the Properties of Metal-Hydride Electrode; 添加剂和粘结材料对镍氢电池负极性能的影响 11. Studies on Surface Modification of La-Mg-Ni System A_2B_7-type Hydrogen Storage Electrode Alloys; La-Mg-Ni系A_2B_7型贮氢合金电极材料表面改性研究 12. The Research of High Performance Ni-MH Battery and Its New Positive Materials; 高性能镍氢电池及其新型正极材料的研究 13. New research progress in investigation of AB_5 rare earth-based hydrogen storage alloys in Ni-MH battery 稀土系AB_5型贮氢合金电极材料研究进展 14. In particular, the potential developments and the application on the cathode of the high temperature steam electrolysis are put forward. 对阳极材料在高温电解制氢领域阴极上的应用前景进行了展望。 15. Studies on Zinc Electrode of High-Energy Mercury-Free Green Alkaline Manganese Batteries--Research on Functional Film of High Hydrogen Over-Potential; 高能无汞绿色碱锰电池电极的研究——高氢超电势材料功能膜的研究 16. Structure and Electrochemical Performance of Mg-Based Hydrogen Storage Alloy Used as Negative Electrode Material in MH/Ni Battery; 镍氢电池负极材料-Mg基合金结构和电化学性能研究 17. Studies of Interaction between Metal Ions and Dihydroartemisinin at Nano-material Modified Electrode; 纳米材料修饰电极上金属离子对双氢青蒿素的作用研究 18. Quantum Chemical Study on the Doping of Anode Material for Lithium-ion Battery and on the Reaction Mechanism of the Isomerization: HNC→HCN; 锂离子电池掺杂正极材料的量化计算及氢氰酸协同反应机理研究

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