掺杂剂

chān zá jì
  • dopant;adulterant
掺杂剂掺杂剂
  1. 探索了以Be和Mg为掺杂剂进行GaNp型掺杂及特性研究。

    P-type GaN was attempted using Mg and Be as dopant .

  2. p,n型掺杂剂与Mn共掺杂GaN的电磁性质

    Electronic and magnetic properties of p , n type dopant and Mn co-doped GaN

  3. 研究了掺杂剂对p型微晶硅窗口材料生长的影响。

    The effect of doping on the growth of μ c-Si window layers is studied .

  4. n型掺杂剂Na、K在分子链间振动影响聚乙炔垂直电导率的量子化学研究

    Theory Study of the Influence of Na , K Migration on the Conductivity Between Chains of Polyacetylene

  5. 基于上述因素,需研究一种N型掺杂剂材料以避免现有碱金属N型掺杂剂材料的缺点。

    Based on the above factors , a new type of N-type dopant material is needed to avoid the above shortcomings .

  6. 选取了过渡金属Fe作为掺杂剂,采用溶胶-凝胶法制备了铁离子掺杂的纳米二氧化钛光催化剂。

    Transition metal Fe was selected to prepare the Fe-doped nanometer TiO2 by using the sol-gel method .

  7. 制备GaAs激光窗口材料的一种新型补偿掺杂剂

    A New Compensating Dopant to Develop GaAs Laser Window Material

  8. 掺杂剂与ZnO材料的气敏特性

    Dopants and Gas-sensing Characteristics of ZnO-Based Materials

  9. 在掺杂剂附近的碳原子上出现较大的电荷密度,且p型比n型掺杂剂的影响更大。

    There are large charge density on the carbon atoms near the dopant , and the effects of p-type dopants are greater than those of n-type ones .

  10. A位施主掺杂剂对PTC陶瓷性能的影响

    The Influences of Donor Dopants at A Site on the Properties of the PTC Ceramic

  11. 使用N2O作为掺杂剂将氧掺入GDaSi∶H中,研究了氧对aSi∶H的电学和光学性质的影响。

    Effect of oxygen on the optoelectronic properties of a-Si : H has been investigated , using N2O as the dopant .

  12. 提出了该纳米掺杂剂降低烧结温度机理及不同状态Nd的改性机理。

    This report also presents the mechanism of lower sintering temperature of this nano-dopant and the modification mechanism of Nd in the different states .

  13. K4[Fe(CN)6]掺杂剂对溴碘化银颗粒乳剂感光性能影响的研究

    The Study of Effects of Dopant K_4 [ Fe ( CN ) _6 ] on The Photographic Properties of The Iodobromide T-grain Emulsion

  14. 纳米掺杂剂中Mn离子对BaTiO3基多层陶瓷电容器瓷料的影响

    Effect of Mn ion in nano-dopant on batio_3-based dielectrics for multilayer ceramic capacitor

  15. 结果表明:随着掺杂剂用量的增加,PANI的电导率也在不断的增大;

    The results showed the conductivity increased with the increase of the content of the dopant ;

  16. 与直接掺入EuCl3的玻璃材料相比,以Eu-苯甲酸-1,10-菲咯啉为掺杂剂的玻璃材料,虽然Eu的掺杂量较小,但Eu的发光强度较大。

    Comparing EuCl_3 with Eu ~ 3 + complexes with benzoic acid and 1,10-phenanthroline as dopant , the latter has strong luminescence property though it has small mass fraction .

  17. 研究了掺杂剂聚苯乙基磺酸(PSS)对复合材料形貌及性能的影响。

    The influences of the dopant of polystyrene sulfonic acid ( PSS ) on the morphology and properties were investigated .

  18. 有机极性分子掺杂剂对TGS单晶物理性能的影响

    Effects of Polar Organic Molecule Dopants on Physical Properties of TGS Single Crystals

  19. 手性掺杂剂是手征性向列相(N)液晶材料中的重要组分,而掺杂剂的分子结构强烈影响到其诱导的N相液晶的螺旋扭曲行为。

    Chiral dopant is an integral part of the chiral nematic liquid crystal materials , and the molecular structure of the chiral dopant has an intense influence on helical twisting behavior of induced N-LCs .

  20. 选取了过渡金属Fe、Pb、Cu,贵金属Ag,稀土元素Ce作为掺杂剂,采用溶胶&凝较法制备了掺杂改性纳米二氧化钛光催化剂。

    Selected transition metal Fe , Pb , Cu , precious metal Ag , rare-earth element Ce has prepared the doping modification nanometer TiO_2 by using the sol-gel method .

  21. 以AlF3作为调节氟化物玻璃折射率的掺杂剂。

    AlF_3 is used as dopant for controlling the refractive index of fluoride glass .

  22. 当乳剂中掺入浅电子陷阱掺杂剂[Fe(CN)6]4-时,其电子电导率增大,空穴电导率下降。

    When doped with a shallow electron-trap dopant , the electron conductivity of the emulsions increased , while the hole conductivity decreased .

  23. 采用MMA单体与其聚合物PMMA及掺杂剂的混合溶液,以按需滴定法制备了掺杂若丹明6G的微透镜阵列。

    The Rhodamine6G doped microlens array was fabricated using the solution of Methyl Methacrylate ( MMA ) monomer and Polymethyl Methacrylate ( PMMA ) mixture .

  24. 因此,掺杂剂的引入是一种增强有机导电高分子材料导电性的重要方法,而我们研究的KCl掺杂聚苯甲亚胺,在合适的掺杂浓度下,是一种潜在的导电高分子材料。

    Consequently , the introduction of dopant is one of the principle methods in an attempt to enhance the electrical conductivity of organic conducting materials .

  25. 以十二烷基苯磺酸(DBSA)作为乳化剂和掺杂剂,通过乳液聚合的方法制备了DBSA掺杂聚苯胺/蒙脱土(PANI-DBSA/MMT)纳米复合物,并对其微波吸收特性进行了研究。

    The preparation and microwave-absorbing behavior of polyaniline-DBSA / montmorillonite ( PANI-DBSA / MMT ) nanocomposites were studied .

  26. 该模型采用基于温度和掺杂剂浓度修正的Carreay黏度方程,利用计算流体动力学软件Fluent模拟求解出拉丝后光纤折射率分布。

    Using the Carreau viscosity equation , modified according to temperature and dopant concentration , was adopted in the calculation with computer fluid dynamic software-Fluent to obtain the refractive index profile of GI POF .

  27. CeO2被DBSA包裹着,DBSA做为掺杂剂进入PAn中,PAn和CeO2之间不存在化学键的结合。

    But there are no chemical interaction between PAn and CeO2 . CeO2 is been packed by DBSA which come in PAn by way of doping agent .

  28. 分析了k4Fe(CN)6掺杂物作为一种浅电子陷阱掺杂剂对于提高光电子寿命、改善感光性能的作用机理。

    As shallow electron traps ( SETs ) dopants , the action of K4Fe ( CN ) 6 that can increase photoelectron lifetime and photographic efficiency is analyzed .

  29. 以五水硝酸铟和乙酰丙酮为原料,以无水氯化锡为掺杂剂,采用溶胶凝胶工艺,用提拉法在石英玻璃基体上制备了ITO透明导电薄膜。

    Indium tin oxide ( ITO ) conductive and transparent film is prepared on quartz glass matrix from In ( NO_3 ) and acetylacetone by sol-gel dip-coating technique with anhydrous SnCl_4 as the dopant .

  30. 同时优化了受主掺杂剂Na2CO3、Li2CO3掺杂量和还原烧结温度及保温时间。

    The amount of acceptor additive Na2CO3 、 Li2CO3 and the reducing sintering temperature and the reducing sintering retention time were optimized .