大部分的太阳能电池是用硅制造的,它是一种用于生产计算机核心部件的半导体材料。
Most solar cells are made from silicon-the same semiconductor material that is at the heart of computers.
制造集成电路需要将如半导体和金属等多层材料放置在硅片上。
Making integrated circuits involves depositing layers of materials such as semiconductors and metals on a silicon wafer.
研究者正把这项设计应用到制造太阳能电池的半导体材料上,这样他们希望在节省材料成本的同时仍可以提供高效率的能量转换。
Researchers are applying the design to semiconductor materials to make solar cells that they hope will save money on materials costs while still offering high power-conversion efficiency.
你可以使用一块太阳能电池板从硅等半导体材料中释放电子来直接制造电流,。
You can use a panel of solar cells to create the current directly, by liberating electrons from a semiconducting material such as silicon.
数字逻辑门电路作为集成电路被制造:所有组成的晶体管和电阻建立在一块半导体材料上。
Digital logic gate circuits are manufactured as integrated circuits: all the constituent transistors and resistors built on a single piece of semiconductor material.
它直接反映了材料的质量和器件特性。能够准确的得到这个参数,对于半导体器件制造具有重要意义。
It reflects the quality of materials and performance of devices, so it is necessary to get this parameter accurately.
提供一种利用材料、单元工艺、和工艺顺序的改变分析和优化半导体制造技术的方法。
A method for analyzing and optimizing fabrication techniques using variations of materials, unit processes, and process sequences is provided.
LCD屏幕和半导体芯片与太阳能电池拥有同样的材料和制造过程,许多工厂都从生产一种产品转向了生产另一种。
LCD screens and semiconductor chips share the same materials and manufacturing processes as solar photo-voltaic cells; many factories have simply been converted from one to the other.
集成电路和各种半导体器件制造中所用的材料,目前主要是硅、锗和砷化镓等单晶体,其中又以硅为最多。
Silicon, germanium and gallium arsenide are popular materials used in ICs and semi-conduct devices, while silicon is the most popular one.
本发明提供氧化物半导体材料和其制造方法、电子装置和场效应晶体管。
Provided are an oxide semiconductor material, a method for manufacturing such oxide semiconductor material, an electronic device and a field effect transistor.
本发明公开了一种制造至少一个半导体光生伏打电池或模块以及用于对半导体材料进行分类的方法(300)。
Disclosed is a method (300) of manufacturing at least one semiconductor photovoltaic cell or module and for classifying semiconductor material.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
用有机半导体、导体材料制造出各种电子器件、光电器件、光学器件的梦想正在逐步变为现实。
The dream of using semiconducting and metallic polymers for fabricating novel photonic devices, electronic devices, and optical devices is becoming reality.
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