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复合掺杂     
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  composite doping
     The Y_2O_3、Gd_2O_3 Composite Doping of Zro_2 Solid Oxygen Ion Conductors
     ZrO_2基固体氧离子导体的Y_2O_3、Gd_2O_3复合掺杂
短句来源
     With adding of 0.0-10 mol% nano-Sm2O3,nano-ZrO2(3Y) powder was used as raw materials for composite doping.
     在纳米ZrO2(3Y)粉中,加入不同摩尔分数(0.0-10%)的纳米Sm2O3粉进行复合掺杂
短句来源
     With adding of 0.0-10mol% nano-Gd_2O_3,the nano-powder of Y_2O_3 stabilizing ZrO_2 was used as raw materials for composite doping.
     在纳米Y2O3稳定ZrO2粉中,加入不同摩尔分数(0.0-10%)的纳米Gd2O3粉进行复合掺杂
短句来源
     Analysis of an InP/InGaAs/InP DHBT with Composite Doping Collector
     带有复合掺杂层集电区的InP/InGaAs/InP DHBT直流特性分析
短句来源
     The results of X-ray diffraction (XRD) analysis show that it remains a well-layered structure with single phase of hexagonal after composite doping.
     X射线粉末衍射(XRD)分析表明,复合掺杂没有改变晶体的六方单相层状结构。
短句来源
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  co-doping
     The Effect of Ti~(4+), Mg~(2+) Co-doping on Performance of LiNi_(0.4)Co_(0.2)Mn_(0.4)O_2
     Ti、Mg离子复合掺杂对LiNi_(0.4)Co_(0.2)Mn_(0.4)O_2性能的影响
短句来源
     By co-doping 3.0wt% B_2O_3-Bi_2O_3 aids with B_2O_3-Bi_2O_3 mol proportion is 1:4, the bulk density is 4.81 g/cm3 and relative density is 90%.
     复合掺杂2.5wt%B_2O_3+xBi_2O_3(x=0.25~1.0wt%)时,980℃烧结的Co_2Z相对密度均在90%以上,当Bi203的添加量为0.75 wt%时,980℃烧结的Co_2Z陶瓷的体积密度为4.93g/cm~3,相对密度为93%。
短句来源
     The effect of co-doping with Ti and Mg ions in LiNi0.4Co0.2Mn0.4O2 on structure and electrochemical per-formance was investigated by using SEM, XRD, EIS and galvanostatic charge-discharge experiment.
     采用SEM、XRD、恒电流充放电、交流阻抗谱等方法研究了钛镁离子复合掺杂对LiNi0.4Co0.2Mn0.4O2的结构及其电化学性能的影响.
短句来源
     S-Co substitution combined the good cyclability of Co-doping material in 4V region and the increasing capacity of S-doping material in 3V region. In the range 2.4-4.3V, the initial capacity of S-Co-doping cathode material LiCo0.1MnL9O3.96S0.04 was 170mAh/g and increased to 194.3 mAh/g in the first 20 cycles.
     S-Co复合掺杂试样结合了Co在4V区的良好循环性能和S掺杂在3V区的容量增长特点,在2.4-4.3V范围内表现出很高的初始容量(170mAh/g),并且在前20次循环还有一定的增加。
短句来源
     The rate discharge capability and cycle stability of LiNi0.4Co0.2Mn0.4O2 can be improved significantly by a small amount of Ti, Mg ions co-doping(1% molar ratio). AC impedance was used to study the processes of charge-discharge cycle.
     1%(摩尔分数)的Ti、Mg离子复合掺杂能显著地改善LiNi0.4Co0.2Mn0.4O2的倍率放电能力,平台保持能力和高倍率下的循环性能.
短句来源
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  compositely doped
     PREPARATION AND ELECTRICAL PROPERTIES OF COMPOSITELY DOPED OXIDE La_(0.7)Sr_(0.15)Ca_(0.15)Co_(0.9)Fe_(0.1)O_(3-δ)
     复合掺杂氧化物La_(0.7)Sr_(0.15)Ca_(0.15)Co_(0.9)Fe_(0.1)O_(3-δ)合成与电性能
短句来源
     Study on structure and electrical property of compositely doped oxide La_(1-x)Sr_xGa_(1-y)Mg_yO_(3-α)
     复合掺杂氧化物La_(1-x)Sr_xGa_(1-y)Mg_yO_(3-δ)的结构与电性能研究
短句来源
     The compositely doped materials research of solid oxide fuel cell
     固体氧化物燃料电池复合掺杂材料研究进展
短句来源
     It proposed that the key to increase the hydrogen storage capability is to control the microstructure of hydrogen storage materials or to make it compositely doped.
     讨论了各类材料的储氢功能特点,认为进行催化复合掺杂、控制储氢材料的显微结构是提高材料储氢性能的关键。
短句来源
     Research Development of Compositely Doped Perovskite Oxide Catalysts
     复合掺杂钙钛矿氧化物催化剂的研究进展
短句来源
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  multiplex doping
     Preparation and properties of multiplex doping nano α-Ni(OH)_2
     复合掺杂纳米α-Ni(OH)_2的制备与性能
短句来源
     The specific capacity of the material was(increased,) the stability of spinel structure and cycle performance were improved by F~-,Cr~(3+) multiplex doping.
     F-和Cr3+复合掺杂不仅提高了材料的比容量,还增加了尖晶石结构的稳定性,改善了材料的循环性能。
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  co-doping
It is shown that co-doping of the crystals with highly soluble impurities (yttrium, scandium, and gadolinium fluorides) makes it possible to obtain optically perfect gallium-doped crystals.
      
The ZnTe:Co single crystals are obtained by diffusion Co-doping.
      
It is found that Co-doping of the crystals shifts the absorption edge to the low-energy region.
      
The results confirm that the Co-doping will enhance the stability of λ-MnO2 and hence improve the electrochemistry performance of LixMn2O4.
      
However, doping shifts the luminescence to 520-540?nm in the case of co-doping with Cu2+ and Mn2+.
      
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