Add to ORKGWe have used a self-consistent quantum molecular dynamics approach to calculate the mobility of both positive and negative polaron-type carriers on isolated chains of poly(p-phenylene vinylene) (PPV) and some of its derivatives and the dependence of their mobility on the applied electric field. Our results suggest that polaron-type mobility along most of these polymer chains has a clear dependence on the electric field which is quite different from the result derived for bulk PPV-based materials. 1
Combining the one-dimensional tight-binding Su-Schrieffer-Heeger (SSH) model and the extended Hubbar...
Conjugated organic polymers are intrinsically semiconductors but become conducting upon doping and p...
In a polymer chain, an extra electron or hole distorts the chain to form a charged polaron, which is...
We have used a self-consistent quantum molecular dynamics approach to calculate the mobility of both...
We have used a self-consistent quantum molecular dynamics approach to calculate the mobility of both...
Charge transport in conjugated polymers has been investigated using Monte Carlo simulations implemen...
Conjugated polymers represent a class of materials which exhibit excellent potential as versatile an...
The use of conjugated polymers as active media in organic semiconductor devices demands a deep knowl...
Conjugated polymers show interesting properties that make them appropriated for nanoelectronics. Sev...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
We study the charge transport by polarons in conjugated polymers in the presence of impurities. The ...
We study the charge transport by polarons in conjugated polymers in the presence of impurities. The ...
Wehave developed a fully three-dimensional model based on the solutionof the time-dependent Schrödin...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
Combining the one-dimensional tight-binding Su-Schrieffer-Heeger (SSH) model and the extended Hubbar...
Conjugated organic polymers are intrinsically semiconductors but become conducting upon doping and p...
In a polymer chain, an extra electron or hole distorts the chain to form a charged polaron, which is...
We have used a self-consistent quantum molecular dynamics approach to calculate the mobility of both...
We have used a self-consistent quantum molecular dynamics approach to calculate the mobility of both...
Charge transport in conjugated polymers has been investigated using Monte Carlo simulations implemen...
Conjugated polymers represent a class of materials which exhibit excellent potential as versatile an...
The use of conjugated polymers as active media in organic semiconductor devices demands a deep knowl...
Conjugated polymers show interesting properties that make them appropriated for nanoelectronics. Sev...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
We study the charge transport by polarons in conjugated polymers in the presence of impurities. The ...
We study the charge transport by polarons in conjugated polymers in the presence of impurities. The ...
Wehave developed a fully three-dimensional model based on the solutionof the time-dependent Schrödin...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
Introducing methoxy electron donor groups into a poly(para-phenylene vinylene) (PPV) chain will lead...
Combining the one-dimensional tight-binding Su-Schrieffer-Heeger (SSH) model and the extended Hubbar...
Conjugated organic polymers are intrinsically semiconductors but become conducting upon doping and p...
In a polymer chain, an extra electron or hole distorts the chain to form a charged polaron, which is...