High performance of Ni0.9Mn1.8Mg0.3O4 spinel nanoceramic microbeads via inkjet printing and two step sintering

Chen Long; Wang Junhua; Huang Cuiping; Zhang Qinan; Chang Shannan; Chang Aimin; Yao Jincheng

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High performance of Ni0.9Mn1.8Mg0.3O4 spinel nanoceramic microbeads via inkjet printing and two step sintering

机译：通过喷墨印刷的Ni0.9mn1.8mg0.304尖晶石纳米母微珠的高性能和两步烧结

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We report a simple and effective in situ inkjet printing method for the fabrication of nanostructured and highly dense Ni0.9Mn1.8Mg0.3O4 (NMM) spinel oxide nanoceramic microbeads materials. In our method, the ceramic inks are fabricated that single cubic spinel NMM nanocrystallines synthesized via co-precipitation method, disperse well in organic solution, and have shown perfect dispersibility and stability. After inkjet printing using these ceramic inks, NMM microbeads are sintered via two-step sintering (TSS) process at different temperatures. The sintering behavior, microstructure and electrical properties of NMM nanoceramic microbeads prepared via TSS process are investigated and characterized systematically. These results indicate that high performance of NMM microbeads with moderate resistance values (98 331-174 601 Omega), lower thermal time constant (58-147 ms), and higher material constant (4176-4309 K) are achieved by tuning the sintering temperatures.

机译：我们报告了一种简单有效的原位喷墨印刷方法，用于制备纳米结构和高度致密的Ni0.9mN1.8mg0.3O4（NMM）尖晶石氧化物纳米陶瓷微珠材料。在我们的方法中，陶瓷油墨制成了通过共沉淀法合成的单个立方尖晶石NMM纳米晶体，在有机溶液中分散良好，并显示出完美的分散性和稳定性。在使用这些陶瓷油墨的喷墨印刷之后，NMM微珠通过在不同温度下通过两步烧结（TSS）工艺烧结。通过TSS工艺制备的NMM纳米母微珠的烧结行为，微观结构和电性能进行系统地研究和表征。这些结果表明，通过调谐烧结温度，实现了具有中等电阻值（98 331-174 601 601），更低的热时间常数（58-147ms）和更高的材料常数（4176-4309k）的高性能。

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来源
《RSC Advances》 |2016年第41期|共6页
作者
Chen Long; Wang Junhua; Huang Cuiping; Zhang Qinan; Chang Shannan; Chang Aimin; Yao Jincheng;
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作者单位

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

Chinese Acad Sci Key Lab Funct Mat &

Devices Special Environm Xinjiang Key Lab Elect Informat Mat &

Devices Xinjiang Tech Inst Phys &

Chem 40-1 South Beijing Rd Urumqi 830011 Peoples R China;

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中图分类化学;
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High performance of Ni0.9Mn1.8Mg0.3O4 spinel nanoceramic microbeads via inkjet printing and two step sintering

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