1) electrical properties
电学性能
1.
Microscopic analysis and electrical properties of TiO_2 varistor ceramics;
TiO_2压敏陶瓷的显微分析和电学性能
2.
Effects of annealing on structural and electrical properties of fluorinated amorphous carbon films;
氮气退火对氟化非晶碳膜结构和电学性能的影响
3.
Study on electrical properties of ZrW_2O_8/E—51 electronic casting composite materials;
ZrW_2O_8/E—51电子封装材料电学性能研究
2) electrical property
电学性能
1.
Technological parameters and electrical property of TiN thin films grown processing by magnetron sputtering
磁控溅射TiN薄膜的工艺及电学性能研究
2.
With the different heat treatment,the electrical property of a new Cu-based Alloy contact terminal material is studied.
本文主要对一种新型铜基电触头材料不同热处理工艺下的电学性能进行了探讨。
3) electric properties
电学性能
1.
Preparation and electric properties of (Na_(1-y)M_y)_(1.6)Co_2O_4(M=K,Ca,Sr);
(Na_(1-y)M_y)_(1.6)Co_2O_4(M=K,Ca,Sr)的制备及电学性能
2.
Structures and electric properties of Bi_2Te_3 based alloys prepared by solvothermal synthesis;
溶剂热合成Bi_2Te_3基合金的结构与电学性能
3.
Through electric properties tested of Ca3Co4O9 in the range of 100~700℃,it is found that the kind of material belongs to p-type semiconductor,resistivity is decreasing and .
在100~700℃内进行电学性能测试发现,材料属于p型半导体,电阻率随温度的升高而降低,Seebeck系数随温度的升高而增加,功率因子随着温度的升高而增大,且在600℃以后递增幅度加大。
5) electrochemical performance
电化学性能
1.
Effect of annealing on electrochemical performance of La_(0.75)Mg_(0.25)Ni_(3.5)Co_(0.4) hydrogen storage alloy;
退火对La_(0.75)Mg_(0.25)Ni_(3.5)Co_(0.4)贮氢合金电化学性能的影响
2.
Effects of boron additive on microstructures and electrochemical performances of La-Mg-Ni system (PuNi_3-type) hydrogen storage alloy;
添加硼对La-Mg-Ni系(PuNi_3-型)贮氢合金微观结构及电化学性能的影响
3.
Preparation of ultrafine MnO_2 particle and its electrochemical performance;
二氧化锰超细粉体的制备及其电化学性能
6) electrochemical property
电化学性能
1.
Change of electrochemical property of reinforced concrete after electrochemical chloride extraction;
电化学除盐后钢筋混凝土电化学性能的变化
2.
Synthesis and electrochemical property of cathode material LiCoO_2;
LiCoO_2正极材料的合成及其电化学性能
3.
Factors affecting the electrochemical property of the hydrogen storage alloy:cycle number and charge/discharge rate;
影响贮氢合金电化学性能测试结果的因素——循环次数和充放电制度
补充资料:生物电学(electrobiology)
生物电学(electrobiology)
是研究生物电学特性和电对生物作用的学科,是了解生命现象和认识生命活动规律的重要内容,同时,对发展医学和农业也有重要的作用。电现象和电活动在生命过程中几乎无处不在。例如生物体内的离子、离子基团、分子片段均可带电或有电偶极矩,有些蛋白质大分子整体成电中性,但却有很大的电偶极矩;形成生物分子复杂结构与功能的基本作用是电相互作用;生物体内各种生化反应离不开电活动;细胞和生物膜活性的基础是电活动;各类感受器细胞将热、光、声、力各种刺激转换成膜电位;神经细胞、突触和神经传递电脉冲,脑皮层兴奋产生电磁场;心电、肌电、皮肤电、胃电等均是电活动。某些鱼类通信是接受和辐射电磁场。在研究生物和人的正常生理、生化、遗传、病理、药理、医学诊断和治疗等的各学科中,都涉及到生物电和电对生物的作用。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条