1) organic superconductor
有机超导体
2) organic conductor and superconductor
有机导体超导体
3) organic conductor
有机导体
1.
Thermal stability of organic conductor of N-n-butylisoquinoline 7,7,8,8-tetracyanoquinodimethane charge transfer complex;
有机导体TCNQ电荷转移复合物的热稳定性研究
2.
In addition,molecular crystals of organic conductors have been intensively studied in recent years in terms of one-dimensional conductors,photoconductors or superconductors.
本文在前人工作的基础上 ,对有机导体及有机超导体的发展历程、结构规律、导电性质作了总结 ;并对有机导体及超导体的单晶培养、晶体电导率的测量方法作了描述。
3.
The content in this paper is to describe about preliminary survey technology of conductor resistance,and the mainly content is to introduction about measure resistance of organic conductor,from the principle,it could be also to use for the resistance survey of common conductor.
在本文中所叙述的内容,主要是关于导体电阻的基本测量技术,重点介绍关于有机导体材料的电阻测量,从原理上讲,对于一般导体电阻的测定也是通用的。
4) ganic superconducting resonator
有机超导共振器
5) Organic semiconductors
有机半导体
1.
Scanning tunneling microscopy studies on the epitaxial growth of organic semiconductors;
有机半导体外延生长的扫描隧道显微镜研究
2.
Based on the spin diffusion theory and the Ohm s law,we theoretically studied the spin polarized injection and transport through the ferromagnetic/organic semiconductor/ferromagnetic system and obtained the current spin polarization,which takes into account the special characteristics of organic semiconductors.
根据有机半导体中的电流自旋极化注入和输运实验现象,理论上研究了铁磁/有机半导体/铁磁系统的电流自旋极化性质。
3.
A theory for carrier concentration in physically doped organic semiconductors has been presented based on Gaussian energy distribution of the lowest unoccupied molecular orbitals (LUMOs) and the highest occupied molecular orbitals (HOMOs) as well as the Fermi - Dirac distribution of carriers in allowed quantum states.
基于最低未被占据分子轨道(LUMO)和最高被占据分子轨道(HOMO)的高斯态密度分布与载流子在允许量子态中的费米-狄拉克(Fermi-Dirac)分布,提出有机半导体中物理掺杂的理论模型;研究了掺杂浓度、温度和禁带宽度对载流子浓度的影响,并与一些报道的实验结果做了比较。
6) OPC
有机光导体
1.
Synthesis of hole transport material TTB and its application in OPC;
空穴传输材料TTB的合成及其在有机光导体中的应用
补充资料:有机超导体
分子式:
CAS号:
性质:在一定压力和低温条件下,电阻呈现为零的有机分子晶体。超导有两个基本现象:一是从有限电阻状态向零电阻状态的过渡;二是外磁场不能穿透超导体内(称为迈斯纳效应)。此外,在临界温度Tc。时还会出现比热容、热电动势、霍耳效应和红外吸收等的突变。至1992年为止发现的有机超导体中临界温度最高的为(BEDT-TTF)2Cu[N(CN)2]C1,其Tc为12.5K。人们正探索加工成块材、线材、薄膜状有机超导体的应用前景。
CAS号:
性质:在一定压力和低温条件下,电阻呈现为零的有机分子晶体。超导有两个基本现象:一是从有限电阻状态向零电阻状态的过渡;二是外磁场不能穿透超导体内(称为迈斯纳效应)。此外,在临界温度Tc。时还会出现比热容、热电动势、霍耳效应和红外吸收等的突变。至1992年为止发现的有机超导体中临界温度最高的为(BEDT-TTF)2Cu[N(CN)2]C1,其Tc为12.5K。人们正探索加工成块材、线材、薄膜状有机超导体的应用前景。
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