科学家们通过一种名为“原子层沉积”的化学方法在普通的蜘蛛丝上镀上锌原子、钛原子或者铝原子。
The scientists used a process called atomic layer deposition to coat some spider silk with zinc, titanium or aluminum.
它的系统可以让化学品进行原子层沉积,由此生成的晶体是生产芯片和发光二极管的必需品。
Itss systems can deposit layers of chemicals just atoms thick that grow the crystals needed to make chips and light-emitting diodes.
这种方法被称作“原子级的沉积”,即在银器表面覆盖氧化物保护层,这层氧化物仅有一粒原子那么厚。
The method, called Atomic level Deposition, coats silver objects with a protective oxide film in layers just a single atom thick.
侧重于从溅射原子的沉积过程来分析边缘效应对膜层横向均匀性的影响。
The influence that the marginal effect ACTS on the horizontal uniformity of the film is analysed through the depositing procedure of sputtering atom.
研究了原子层沉积制备氧化铝薄膜的光学性能。
The optical properties of Al2O3 films grown by atomic layer deposition were investigated.
使用原子层沉积物在一个微小的表面对只有一个原子这么厚的材料进行喷涂,可是一个费力、耗时的过程。
It's an arduous, time-consuming process, using atomic layer deposition to spray material that's an atom thick, on a microscopic surface.
使用原子层沉积物在一个微小的表面对只有一个原子这么厚的材料进行喷涂,可是一个费力、耗时的过程。
It's an arduous, time-consuming process, using atomic layer deposition to spray material that's an atom thick, on a microscopic surface.
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