英语翻译Furthermore,hole mediated ferromagnetic ordering in bulkZnO by introducing Mn as dopant has been predicted theoretically 20 and reported recentlyVanadium doped n-type ZnO films also demonstrate a Curie temperature above roomtemperature.Ba

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英语翻译Furthermore,holemediatedferromagneticorderinginbulkZnObyintroducingMnasdopanthasbeenpredictedthe

英语翻译Furthermore,hole mediated ferromagnetic ordering in bulkZnO by introducing Mn as dopant has been predicted theoretically 20 and reported recentlyVanadium doped n-type ZnO films also demonstrate a Curie temperature above roomtemperature.Ba
英语翻译
Furthermore,hole mediated ferromagnetic ordering in bulk
ZnO by introducing Mn as dopant has been predicted theoretically 20 and reported recently
Vanadium doped n-type ZnO films also demonstrate a Curie temperature above room
temperature.Based on these remarkable physical properties and the motivation of device
miniaturization,large effort has been focused on the synthesis,characterization and device
applications of ZnO nanomaterials.An assortment of ZnO nanostructures,such as nanowires,
nanotubes,nanorings,and nano-tetrapods have been successfully grown via a variety of
methods including chemical vapor deposition,thermal evaporation,and electrodeposition,etc.
These nanostructures have been subjected to electrical transport,UV emission,gas
sensing,and ferromagnetic doping studies,and considerable progresses have been achieved.
This review presents recent advances on ZnO nanostructures.Issues of synthesis methods,
structural,electrical,optical,magnetic and gas sensing properties are summarized.

英语翻译Furthermore,hole mediated ferromagnetic ordering in bulkZnO by introducing Mn as dopant has been predicted theoretically 20 and reported recentlyVanadium doped n-type ZnO films also demonstrate a Curie temperature above roomtemperature.Ba
翻译:
此外,空穴影响着大量的磁性排序.
Mn掺杂的ZnO已有理论上的预测,最近也有相应报道.钒掺杂的n型ZnO薄膜也显露出了高于室温的居里温度.基于这些显著的物理特性以及器件小型化的目的,大量的工作投入到了ZnO纳米材料的合成方法、特性和器件应用上.纳米线、纳米管、纳米环和四脚型纳米等多类ZnO纳米结构,都已成功通过多种方法生长出来,包括化学气相沉积、热蒸发和电沉积等.这些纳米结构被用来做电学传输、紫外线发射、气体传感和磁性掺杂的研究,并取得了相当大的进展.本文介绍了近期ZnO纳米结构的发展.总结了合成方法,结构,电学、光学、磁性和气敏特性等问题.
纯手打,可能有些出入,望采纳.