本文就近年来牙菌斑生物膜的信号传导研究作一综述。
In this review, we summarize the research progress in signal conduction in dental plaque in recent years.
目的分析经导管膜周部室间隔缺损(PMVSD)封堵术后传导阻滞发生及转归情况。
Objective To analyze conduction the occurrence and prognosis of blockade after transcatheter closure of perimembranous ventricular septal defect(PMVSD).
将多层膜材料用于固态质子传导电池中,在常压下以氮气和氢气为原料合成了氨气。
Ammonia was synthesized from nitrogen and hydrogen at atmospheric pressure in the solid state proton conducting cell reactor using multilayer membrane system.
质子传导膜作为该电池内的重要功能材料之一,目前已得到广泛的研究。
As one of the most important function materials in VRB, proton conductive membrane has been deeply researched.
介绍钌基厚膜电阻的三种传导模型。
We introduced three kinds of thick film resistor (TFR) conductive model.
生产厚膜混合电路和传导加热器。
Midas Microelectronics Corp. Produces thick film hybrid circuits and conduction heaters.
用交流阻抗法研究了膜的传导机理,实验结果表明界面阻抗受扩散过程控制。
The conductivity mechanism of this membrane was studied with A. C. impedance method, the experimental results prove that the impedance of the boundary is controlled by the diffusion process.
例如:弹性膜的平衡问题,稳定状态的热传导问题,不可压缩势流问题,静电场问题以及静磁场问题。
Such as: the balance of elastic membrane, the heat conduction of stationary state, the incompressible potential flow, the problem of electrostatic field and magnetostatics field.
口腔牙菌斑生物膜与龋病、牙周病密切相关。牙菌斑内的微生物信号传导近年来受到较多的关注并取得了研究进展。
Dental plaque correlates closely with dental caries and periodontitis, signal conduction of microorganism in dental plaque has got more and more attention and got some progress in research.
含质子酸基交联性芳香族树脂及使用该树脂的离子传导性高分子膜,粘合剂,以及燃料电池。
Crosslinkable aromatic resin having protonic acid group, and ion conductive polymer membrane, binder and fuel cell using the resin.
本发明的含氨基-磺酸基复合型质子传导膜材料及其制备方法属于高分子材料的技术领域。
The invention relates to compound proton conduction membrane material containing amino-sulfonic group and a preparation method thereof, belonging to the technical field of high polymer material.
蛋白偶联信号传导系统是一类重要的细胞跨膜信号传导途径之一。
G protein coupled signal transduction system is one major transmembrane signaling pathways in cell.
离子在材料中传导需要相对较高的活化能,减小透氧膜的厚度是获得高的透氧性能的有效途径。
The migration of oxygen ions in materials needs higher activation energy. The decrease of membrane thickness is one of the effective ways for obtaining higher oxygen permeating flux.
神经元的输出部分,该部分具有敏感膜,可传导。
The output part of a neuron. It has sensitive membrane, which can carry the spike or.
更低的动力损耗膜材有较高的反射性及较低的光吸收低,而且热传导性较低,这极大程度上阻止太阳能进入室内。
4 lower power loss film material has high reflectivity and low light absorption, and low thermal conductivity, which largely prevent solar energy into the room.
本文分析介绍了本实验室制备质了传导膜的工艺,以及面电阻、化学稳定性等膜性能指标,并与现有商业化质子传导膜进行比较。
The preparation, the area resistance and the stability of the membranes were introduced and investigated, comparing with other commercial proton conductive membranes.
所述成形微孔制品的微孔也可用足量的离子传导电解质填充,使得所述膜用作离子传导膜。
The shaped microporous article may also have the micropores filled with a sufficient quantity of ion conducting electrolyte to allow the membrane to function as an ion conductive membrane.
质子交换膜的各种性能,如质子传导率,甲醇渗透率等,可以通过PAMPS含量及交联剂的含量来进行控制。
Properties of the PEMs, such as proton conductivity, methanol permeation, can be controlled by changing the content of PAMPS and cross-linking agent.
电化学阻抗谱分析结果则显示高铬耐候钢具有较致密有效的腐蚀产物膜,抵御离子传导能力增强。
According to the analysis of EIS the weathering steel with high Cr content was cov-ered by a more compact and effective corrosion product film with higher resistance to ions migration.
生物膜内细菌之间存在的信号传导对生物膜的形成及其毒力具有影响。
The signal transduction existed between the bacterium has an important effect on the formation and virulence of bacterial biofilm.
考察了PVA含量对共混膜成膜性、吸水率、溶胀度、离子交换容量、热稳定性、离子传导率及力学性能的影响。
The effects of PVA content on membrane preparation, water uptake, swelling degree, IEC, thermal stability, ionic conductivity and mechanical strength were all investigated.
不锈钢去膜表面在氯化镁溶液中钝化时膜成长的规律符合高电场离子传导的膜生长机理。
The film growth on the stainless steel in MgCl2 solution follows the high field ioa conduction mechanism.
不锈钢去膜表面在氯化镁溶液中钝化时膜成长的规律符合高电场离子传导的膜生长机理。
The film growth on the stainless steel in MgCl2 solution follows the high field ioa conduction mechanism.
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