氧空位、缺陷缔合和固深度均对样品的质子电导率与掺杂浓度有一定影响。
The non-linear relationship between proton conductivity and Y3+ content of sample is closely related with the oxygen vacancy, the defect association and the solid solubility of Y.
这是因为质子酸的掺杂使聚苯胺分子内及分子间的电荷离域化增强,电导率大幅度提高。
Proton acids doping caused the inter-molecular and inner-molecular delocalization in PAN and improved the conductivity.
结果表明,和氢溴酸对PANI的质子酸掺杂不同,溴掺杂过程中产生的溴负离子增加了PANI的载流子浓度,形成了电子转移复合物,提高了聚苯胺的电导率。
It is showed that bromine anions and charge transfer complex formed in the doping process enhanced the charge carrier concentration then promote the conductivity of PANI.
结果表明,和氢溴酸对PANI的质子酸掺杂不同,溴掺杂过程中产生的溴负离子增加了PANI的载流子浓度,形成了电子转移复合物,提高了聚苯胺的电导率。
It is showed that bromine anions and charge transfer complex formed in the doping process enhanced the charge carrier concentration then promote the conductivity of PANI.
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