电子元件与材料
電子元件與材料
전자원건여재료
Electronic Components & Materials
2015年
10期
1-5,13
,共6页
镁掺杂%制备方法%综述%紫外光电探测%氧化锌纳米材料%相分离%激光液相烧蚀
鎂摻雜%製備方法%綜述%紫外光電探測%氧化鋅納米材料%相分離%激光液相燒蝕
미참잡%제비방법%종술%자외광전탐측%양화자납미재료%상분리%격광액상소식
Mg doping%fabrication methodologies%review%ultraviolet detectors%zinc oxide nanomaterials%phase separation%laser ablation in liquid
近年来,镁掺杂氧化锌半导体纳米材料在透明电子元件、气体传感、光催化等领域有着广泛的应用。主要总结概括了 MgxZn1–xO 纳米材料的制备方法,并探究了其制备过程中可能存在的问题和解决方法。最后展望了MgxZn1–xO纳米材料在紫外光电探测方面的应用前景。
近年來,鎂摻雜氧化鋅半導體納米材料在透明電子元件、氣體傳感、光催化等領域有著廣汎的應用。主要總結概括瞭 MgxZn1–xO 納米材料的製備方法,併探究瞭其製備過程中可能存在的問題和解決方法。最後展望瞭MgxZn1–xO納米材料在紫外光電探測方麵的應用前景。
근년래,미참잡양화자반도체납미재료재투명전자원건、기체전감、광최화등영역유착엄범적응용。주요총결개괄료 MgxZn1–xO 납미재료적제비방법,병탐구료기제비과정중가능존재적문제화해결방법。최후전망료MgxZn1–xO납미재료재자외광전탐측방면적응용전경。
In recent years, extensive application of magnesium doping zinc oxide semiconductor nanomaterials is in transparent electronics, gas sensors, photocatalysis, etc. The fabrication methodologies of MgxZn1–xO nanomaterials are summarized, primarily. Subsequently, the possible problems in preparation process are investigated and solutions are put forth. Finally, there is an outlook about the application prospect of MgxZn1–xO nanomaterials in ultraviolet photoelectric detectors.