Self-catalytic synthesis, structure and properties of ultra-fine luminescent ZnO nanostructures for field emission applications

Gupta B.K.; Haranath D.; Chawla S.; Chander H.; Singh V.N.; Shanker V.

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Self-catalytic synthesis, structure and properties of ultra-fine luminescent ZnO nanostructures for field emission applications

机译：用于场发射应用的超细发光ZnO纳米结构的自催化合成，结构和性能

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A facile method to produce high-quality ZnO nanostructures; either tetrapod (TP), nanotetraneedle (NTN) or multipod (MP) with a high degree of homogeneity for advanced field emission (FE) applications is presented. Among these nanostructures, NTN has been successfully employed to demonstrate enhanced current densities (2.6mAcm~(- 2)), turn-on field (1.5Vνm ~(- 1)) and field-enhancement factors (6930) over conventional multiwalled carbon nanotubes (MWCNTs), TP, MP and ZnO-spheroids. A comparative study of FE from various ZnO nanostructures, morphologies and site densities has lead to the conclusion that diameter of the tip is one of the vital parameters in enhancing the overall FE properties.

机译：一种生产高质量ZnO纳米结构的简便方法;提出了具有高度均匀性的四脚架（TP），纳米四针（NTN）或多脚架（MP），用于高级场发射（FE）应用。在这些纳米结构中，NTN已成功用于证明比传统的多壁碳纳米管具有更高的电流密度（2.6mAcm〜（-2）），开启场（1.5Vνm〜（-1））和场增强因子（6930）。（MWCNT），TP，MP和ZnO椭球。从各种ZnO纳米结构，形态和位点密度对有限元进行的比较研究得出的结论是，尖端的直径是增强整体有限元性能的重要参数之一。

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《Nanotechnology》 |2010年第22期|共8页
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Gupta B.K.; Haranath D.; Chawla S.; Chander H.; Singh V.N.; Shanker V.;
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1. Self-catalytic synthesis, structure and properties of ultra-fine luminescent ZnO nanostructures for field emission applications [J] . Gupta B.K., Haranath D., Chawla S., Nanotechnology . 2010,第22期

机译：用于场发射应用的超细发光ZnO纳米结构的自催化合成，结构和性能
2. A novel method for synthesis of well-aligned hexagonal cone-shaped ZnO nanostructures in field emission applications [J] . J. Rouhi, M. Alimanesh, S. Mahmud, Materials Letters . 2014,第juna15期

机译：在场发射应用中合成取向良好的六角形锥形ZnO纳米结构的新方法
3. Self-catalytic synthesis and photoluminescence of ZnO nanostructures on ZnO nanocrystal substrates [J] . W. D. Yu, X. M. Li, X. D. Gao Applied Physics Letters . 2004,第14期

机译：ZnO纳米晶体基底上ZnO纳米结构的自催化合成和光致发光
4. Influence of synthesis temperature on field emission properties of ZnO nanostructures [C] . Kai Hou, Wei Lei, Xiaobing Zhang, International Vacuum Nanoelectronics Conference . 2007

机译：合成温度对ZnO纳米结构的场发射性能的影响
5. The effects of residual gases on the field emission properties of ZnO, GaN, ZnS nanostructures, and the effects of light on the resistivity of graphene. [D] . Mo, Yudong. 2014

机译：残留气体对ZnO，GaN，ZnS纳米结构的场发射特性的影响，以及光对石墨烯电阻率的影响。
6. Synthesis and field emission properties of different ZnO nanostructure arrays [O] . Yaoguo Fang, Kin Mun Wong, Yong Lei 2012

机译：不同ZnO纳米结构阵列的合成及场发射特性
7. Synthesis of Ni doped ZnO nanostructures by low temperature wet chemical method and their enhanced field emission properties [O] . Rana, Amit Kumar, Bankar, Prashant, Kumar, Yogendra, 2017

机译：低温湿化学法合成Ni掺杂ZnO纳米结构方法及其增强的场发射特性

Self-catalytic synthesis, structure and properties of ultra-fine luminescent ZnO nanostructures for field emission applications

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