bandgap engineering
带隙工程
bandgap energy
带隙能
direct bandgap material
直接带隙材料
indirect bandgap semiconductor
间接带隙半导体
tunable bandgap
可调谐带隙
bandgap narrowing
带隙缩小
zero bandgap material
零带隙材料
large bandgap semiconductor
大带隙半导体
bandgap widening
带隙扩大
optical bandgap
光学带隙
the bandgap of a semiconductor determines its electrical conductivity.
半导体的带隙决定了其电导率。
researchers are studying how to engineer the bandgap for better solar cells.
研究人员正在研究如何设计带隙以改善太阳能电池。
a wider bandgap can lead to higher breakdown voltages in materials.
更宽的带隙可以导致材料的更高击穿电压。
changing the temperature can affect the bandgap of certain materials.
改变温度会影响某些材料的带隙。
graphene has a zero bandgap, making it an excellent conductor.
石墨烯的带隙为零,使其成为优秀的导体。
understanding the bandgap is crucial for developing new electronic devices.
理解带隙对开发新电子设备至关重要。
different materials have unique bandgap values that influence their applications.
不同材料具有独特的带隙值,影响其应用。
the bandgap can be engineered by altering the material's composition.
通过改变材料的成分可以设计带隙。
in insulators, the bandgap is typically large, preventing electrical flow.
在绝缘体中,带隙通常较大,阻止电流流动。
narrowing the bandgap can enhance the absorption of light in photodetectors.
缩小带隙可以增强光电探测器对光的吸收。
bandgap engineering
带隙工程
bandgap energy
带隙能
direct bandgap material
直接带隙材料
indirect bandgap semiconductor
间接带隙半导体
tunable bandgap
可调谐带隙
bandgap narrowing
带隙缩小
zero bandgap material
零带隙材料
large bandgap semiconductor
大带隙半导体
bandgap widening
带隙扩大
optical bandgap
光学带隙
the bandgap of a semiconductor determines its electrical conductivity.
半导体的带隙决定了其电导率。
researchers are studying how to engineer the bandgap for better solar cells.
研究人员正在研究如何设计带隙以改善太阳能电池。
a wider bandgap can lead to higher breakdown voltages in materials.
更宽的带隙可以导致材料的更高击穿电压。
changing the temperature can affect the bandgap of certain materials.
改变温度会影响某些材料的带隙。
graphene has a zero bandgap, making it an excellent conductor.
石墨烯的带隙为零,使其成为优秀的导体。
understanding the bandgap is crucial for developing new electronic devices.
理解带隙对开发新电子设备至关重要。
different materials have unique bandgap values that influence their applications.
不同材料具有独特的带隙值,影响其应用。
the bandgap can be engineered by altering the material's composition.
通过改变材料的成分可以设计带隙。
in insulators, the bandgap is typically large, preventing electrical flow.
在绝缘体中,带隙通常较大,阻止电流流动。
narrowing the bandgap can enhance the absorption of light in photodetectors.
缩小带隙可以增强光电探测器对光的吸收。
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