1) LiMn2O4 thin film
锰酸锂薄膜
1.
LiMn2O4 thin film was prepared on the stainless steel substrate by the sol-gel method using a spin coa-ter.
主要讨论了前驱体溶胶中锂盐浓度、PVP浓度以及旋转涂覆转速对锰酸锂薄膜表面形貌及膜厚的影响。
2) LiTaO3 thin film
钽酸锂薄膜
1.
The LiTaO3 thin film material and its applications in pyroelectric infrared sensors are presented in this paper.
介绍了钽酸锂薄膜材料及其热释电红外传感器应用研究概况;简要阐述了热释电红外传感器的工作原理;着重分析了钽酸锂薄膜材料的新制备技术,以及在热释电红外传感器应用方面的研究现状;指出了钽酸锂薄膜材料及其热释电红外传感器应用研究发展前景。
2.
The LiTaO3 thin film was chosen as infrared sensing film and prepared by a sol-gel process using lithium acetate and tantalum ethoxide as starting materials.
用醋酸锂和乙醇钽作为起始反应物,通过溶胶凝胶工艺生成了对红外敏感的钽酸锂薄膜,并详细讨论了基于钽酸锂薄膜的红外探测器件制备工艺。
4) Re-MnO_3 thin film
稀土锰酸盐薄膜
5) lithium manganate
锰酸锂
1.
Research progress on rare earth-doped lithium manganate as cathode material for rechargeable lithium ion batteries;
锂离子二次电池正极材料锰酸锂的研究进展
2.
Spherical lithium manganate preparation and its performance at elevated temperature;
球形锰酸锂的制备及高温性能研究
3.
Current situation of spinel lithium manganate used as cathode material of lithium-ion battery
锂离子电池正极材料尖晶石型锰酸锂研究现状
6) lithium manganese oxide
锰酸锂
1.
The effects of Al doping on the structure and performance of lithium manganese oxide;
Al掺杂对锰酸锂结构与性能的影响
2.
Synthesis and performance of the Ni-Cr multi-doped spinel-lithium manganese oxides
镍铬复合掺杂尖晶石锰酸锂的合成与性能研究
3.
Spinel lithium manganese oxide has become the most important material of li-ion second battery for its inexpensive price,excellent character and avirulence,and also gets some achievements in the recent years.
重点介绍了尖晶石相锂锰氧化物的主要合成方法,如固相反应法、软化学法等,并对它们的原理、优势和缺点进行了简单的介绍和讨论,对锰酸锂合成工艺的未来发展和走向作了简单的展望。
补充资料:高锰酸锂
分子式:LiMnO4·3H2O
CAS号:
性质:长形暗紫色针状结晶,六角晶系。密度2.06g/cm3(25℃)。熔点104~107℃并开始分解。易溶于水。由高锰酸钾与高氯酸锂混合反应制得;或由高锰酸钡与硫酸锂反应制得。可用作氧化剂。
CAS号:
性质:长形暗紫色针状结晶,六角晶系。密度2.06g/cm3(25℃)。熔点104~107℃并开始分解。易溶于水。由高锰酸钾与高氯酸锂混合反应制得;或由高锰酸钡与硫酸锂反应制得。可用作氧化剂。
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参考词条