氧化锌水热法边缘选择性生长在纳米器件方面的应用
he application of selective edge growth of ZnO nanorod via hydrothermal approach in nanodevice
通过在ZnO种子层上沉积一层钝化层,这样水热法所制备的纳米杆只会生长于边缘,来得到边缘选择性生长的ZnO纳米杆阵列。该方法能够生长出密度可调的ZnO纳米杆阵列及准平行的ZnO纳米杆阵列。具有适当密度的ZnO纳米杆阵列可以用来制备性能优良的场发射电子源,而准平行的ZnO纳米杆阵列可以用来制备各种纳米器件,例如紫外探测器。水热法边缘选择性生长在纳米器件方面具有较大的应用前景。
With an inactive layer covering on the ZnO seed layer, the selective edge growth of ZnO nanorod arrays can be achieved via hydrothermal approach. This approach can produce ZnO nanorod array with tunable density and quasi-laterally aligned ZnO nanorod array. ZnO nanorod array with appropriate density can be a good field emission electron source. Additionally, quasi-laterally aligned ZnO nanorod array can be used to fabricated a series of nanodevice, UV photodetector for example. Selective edge growth via hydrothermal approach has great prospect in the application of nanodevice.
刘逆霜、方国家、赵兴中
半导体技术电子元件、电子组件光电子技术
应用物理学氧化锌水热法场发射紫外探测器
pplied PhysicsZnOHydrothermal ApproachField EmissionUV Photodetector
刘逆霜,方国家,赵兴中.氧化锌水热法边缘选择性生长在纳米器件方面的应用[EB/OL].(2011-02-18)[2025-08-05].http://www.paper.edu.cn/releasepaper/content/201102-260.点此复制
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