... 半导体层、半电导电层 semi-conductor layer 半导体带 semi-conducting tape 半导体丁基橡胶带 semi-conducting butyl tape ...
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半导体带隙能量 semiconductor bandgap energies of
半导体带电粒子探测器 semiconductor charged-particle detectors
窄禁带半导体 narrow bandgap semiconductor
宽禁带半导体 wide bandgap semiconductor ; Wide-bandgap semiconductors
半导体能带隙 SCBG
半导体丁基橡胶带 semi-conducting butyl tape
半导体磁带基摆 Tape Substrate
半导体包装载带成型机 Blister Tape Machine
讨论窄禁带半导体带间光吸收跃迁的理论和实验。
The theoretical and experimental aspects of inter-band optical transitions are discussed for narrow gap semiconductors.
捕获高于半导体带隙的光子的能量会导致太阳能电池的效率超过传统的效率极限。
Harvesting excess energy from above-bandgap photons could lead to solar cells which exceed conventional efficiency limits.
然而,与半导体硅不同,石墨烯的价带和导带之间没有带隙。
However, unlike the semiconductor silicon, graphene has no gap between its valence and conduction bands.
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