换阴极保护用的锌棒。
垂直排列的氧化锌棒中筒纳米结构阵列是通过两个步骤制备而得的,其中包括一个初始水热反应以及超声增长反应。
Vertically aligned hierarchical ZnO rod-in-tube nano-architecture arrays are produced via a two-step process including an initial hydrothermal reaction followed by ultrasonication growth.
此外,锌,磷添加剂的高度,使其理想用于街道棒,肌肉车和平面凸轮挺杆其他车辆。
In addition, its high levels of zinc and phosphorus additives make it ideal for street rods, muscle cars and other vehicles with flat-tappet cams.
以水合醋酸锌和水合肼为反应物,在不使用任何表面活性剂的条件下,采用一种简单温和的液相法制备了氧化锌纳米棒束。
ZnO nanorod bundles were synthesized by employing zinc acetate dihydrate and hydrazine hydrate as reactants via a simple mild solution method without using any surfactant.
以喷金的聚碳酸酯模板为工作电极,采用电沉积法从氯化锌和氯化钾溶液中制得氧化锌纳米棒。
Using gold-sprayed polycarbonate template as working electrode, ZnO nanorods were prepared by electro-deposition from a solution of ZnCl2 and KCl.
氧化锌纳米棒阵列最初是在FTO玻璃上通过水热法制备出基体后通过超声波生长出棒中筒纳米结构。
The ZnO nanorod arrays grow firstly on FTO glass through a hydrothermal process and then act as templates for the fabrication of rod-in-tube nano-architectures during ultrasonication.
氧化锌纳米棒阵列最初是在FTO玻璃上通过水热法制备出基体后通过超声波生长出棒中筒纳米结构。
The ZnO nanorod arrays grow firstly on FTO glass through a hydrothermal process and then act as templates for the fabrication of rod-in-tube nano-architectures during ultrasonication.
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