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采用电子顺磁共振(EPR)技术研究了基于钛酸钡的介电陶瓷材料中的杂质及点缺陷.伴随温度的结构相变,概括了由杂质和点缺陷所诱致的EPR信号对于一级相变和扩散相变的特征. 相似文献
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Here, we report an efficient fluorescence biosensor for chondroitin sulfate(CHS) based on polyelectrolyte microspheres of carboxymethyl cellulose(CMC) and chitosan(CS) composites inducing the aggregation of graphene quantum dots(GQDs), calling CMC/CS-GQDs. The polyelectrolyte microspheres(CMC/CS microspheres) were fabricated by using anioniccationic electrostatic attraction between CMC and CS by high voltage electrostatic spray technology. The aggregating process of GQDs was based on the anionic-cationic electrostatic attraction as well. After combing with the polyelectrolyte microspheres, the fluorescence of GQDs disappeared. CHS, which widely consists in the cell surface of human beings and animals, carries a large number of negative charges on the surface. The addition of CHS enabled CHS and GQDs to compete with each other to composite with the CMC/CS microshpheres. As a result of the higher surface charge density of CHS, CMC/CS-CHS formed accompanied by the release of GQDs, and the fluorescence of the system recovered. The CHS content was detected by analyzing the system's fluorescence recovery, which suggested that the obtained fluorescence biosensor can accurately detect the concentration of CHS. The test results showed that the linear range of the fluorescence recovery for this biosensor with respect to CHS was 0~12.00 mg/mL, and the detection limit was 10-8 M. Besides, to test the stability of the biosensor, the CMC/CS-GQDs micropsheres persisted for one month, with a low fluorescence quenching of 9.48%. These results suggested that CMC/CS-GQDs can be utilized as efficient fluorescence biosensor for the detection of CHS. Moreover, the detection method was simple and efficient, and could be widely popularized. 相似文献
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采用冷压陶瓷技术,制备了(Ba1-x-0.02SrxLa0.02)(Ti1-yCey)O3(x=0.05,0.10,0.15;y=0.03,0.04,0.05)(BSLTC)陶瓷,通过X射线衍射(XRD)和介电温谱测试对BSLTC陶瓷的固溶性和介电性能进行调查。XRD结果表明,所有样品均为立方钙钛矿结构,La掺杂量为2%时,能够将(Sr,Ce)组合的固溶提高到(x=0.10,y=0.04)或(x=0.15,y=0.03)。介电结果表明,各样品的居里温度都在室温附近,介电峰明显宽化。其中,(x=0.05,y=0.03)组合的样品显示出最高的室温介电常数(ε’RT≈6000)和低介电损耗(tanδ<0.02),满足美国EIA"Y5V"高介电陶瓷材料指标。 相似文献
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掺入Eu的钛酸钡纳米晶陶瓷材料制备与电子结构特征 总被引:1,自引:0,他引:1
以Eu2O3、TiO2和BaCO3为原材料,在高温高压的极端条件下(4.0GPa,1090℃)采用固相反应法制备了结构均匀的新陶瓷材料Ba1-xEuxTiO3(x=0.1-0.4),样品显示灰黑色。当x增加到0.5时,出现ABO3型钙钛矿相和Eu2Ti2O7焦绿石相共存。X射线衍射图样显示Eu离子对A位Ba离子的均匀替代。并随着Eu含量的增加,结构向高对称性转变。通过对X射线衍射数据计算,表明材料结晶在平均粒度为几十纳米的数量级。X射线电子能谱(XPS)分析说明:在高压的作用下,Eu^3 离子部分被还原,在晶体结构中以Eu^3 离子(4f^6)和亚稳态Eu^2 离子(4f^7终态构形)稳定共存。同时在样品表面存在大量的吸附氧。Ba1-xEuxTiO3材料的电中性由亚稳态Eu^2 离子和吸附氧(O^-)共同补偿。 相似文献
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