An electroluminescence device for printable electronics using coprecipitated ZnS:Mn nanocrystal ink

Toyama T; Hama T; Adachi D; Nakashizu Y; Okamoto H

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An electroluminescence device for printable electronics using coprecipitated ZnS:Mn nanocrystal ink

机译：使用共沉淀ZnS：Mn纳米晶体墨水的可印刷电子设备的电致发光器件

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Electroluminescence (EL) devices for printable electronics using coprecipitated ZnS:Mn nanocrystal (NC) ink are demonstrated. The EL properties of these devices were investigated along with the structural and optical properties of ZnS: Mn NCs with an emphasis on their dependence on crystal size. Transmission electron microscopy and x-ray diffraction studies revealed that the NCs, with a crystal size of 3-4 nm, are nearly monodisperse; the crystal size can be controlled by the Zn2+ concentration in the starting solution for coprecipitation. The results of optical studies indicate the presence of quantum confinement effects; in addition, the NC surfaces are well passivated, regardless of the crystal size. Finally, an increase in the luminance of EL devices with a decrease in crystal size is observed, which suggests the excitation mechanism of ZnS:Mn NC EL devices.

机译：演示了使用共沉淀ZnS：Mn纳米晶体（NC）墨水的可印刷电子设备的电致发光（EL）器件。研究了这些器件的EL特性以及ZnS：Mn NCs的结构和光学特性，重点是它们对晶体尺寸的依赖性。透射电子显微镜和X射线衍射研究表明，晶体大小为3-4 nm的NCs几乎是单分散的。可以通过共沉淀起始溶液中Zn2 +的浓度来控制晶体尺寸。光学研究的结果表明存在量子约束效应。此外，无论晶体大小如何，NC表面都可以很好地钝化。最后，观察到EL器件的亮度随晶体尺寸的减小而增加，这表明ZnS：Mn NC EL器件的激发机理。

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来源
《Nanotechnology》 |2009年第5期|共5页
作者
Toyama T; Hama T; Adachi D; Nakashizu Y; Okamoto H;
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正文语种 eng
中图分类一般工业技术;
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1. An electroluminescence device for printable electronics using coprecipitated ZnS:Mn nanocrystal ink [J] . Toyama T, Hama T, Adachi D, Nanotechnology . 2009,第5期

机译：使用共沉淀ZnS：Mn纳米晶体墨水的可印刷电子设备的电致发光器件
2. Thin-film electroluminescence device utilizing ZnS : Mn nanocrystals as emission layer [J] . Toyama T., Adachi D., Fujii M., Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2002,第Pta2期

机译：利用ZnS：Mn纳米晶体作为发射层的薄膜电致发光器件
3. Fabrication of Cu$_2$ZnSn(S,Se)$_4$ thin film solar cell devices based on printable nano-ink [J] . XINFENG ZHENG, YUFENG LIU, NA ZHANG, Bulletin of materials science . 2019,第2期

机译：基于可印刷纳米墨水的Cu $ _2 $ ZnSn（S，Se）$ _ 4 $薄膜太阳能电池器件的制备
4. Implementation Polydimethylsiloxane based Stretchable conductive ink (SCI) for printable-stretchable electronic devices towards heterogeneous integration system [C] . Khairu Anuar Mohd Zin, Asrulnizam Bin Abd Manaf, Zulkifli Ahmad, IEEE International RF and Microwave Conference . 2018

机译：实施基于聚二甲基硅氧烷的可拉伸导电油墨（SCI），用于可印刷，可拉伸的电子设备，实现异构集成系统
5. Synthesis and Characterization of Copper Nanowire Inks and Investigation of Direct Ink Writing Process for Printable Electronics [D] . ?Chivate, Aditya 2020

机译：铜纳米线油墨的合成与表征及可印刷电子直接油墨写入过程的研究
6. Printable Stretchable Silver Ink and Application to Printed RFID Tags for Wearable Electronics [O] . Tao Zhong, Ning Jin, Wei Yuan, 2019

机译：可印刷的可拉伸银油墨及其在可穿戴电子产品的印刷RFID标签中的应用
7. Fabrication of $$hbox {Cu}_{2}hbox {ZnSn(S,Se)}_{4}$$ Cu 2 ZnSn(S,Se) 4 thin film solar cell devices based on printable nano-ink [O] . Xinfeng Zheng, Yufeng Liu, Na Zhang, 2019

机译：$$ hbox {cu} _ {2} hbox {znsn（s，se）} _ {4} $$ CU 2 ZnSn（S，SE）4薄膜太阳能电池装置，基于可打印纳米墨水
8. Effect of Excitation Frequency on Temperature Dependent Electroluminescence of ZnS : Cu, Mn : (H) [R] . 1986

机译：激发频率对Zns：Cu，mn：（H）的温度依赖性电致发光的影响

An electroluminescence device for printable electronics using coprecipitated ZnS:Mn nanocrystal ink

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