Add to ORKGSeveral attempts were devoted recently to theoretical interpretation of the experimentally established low efficiency of chemical doping in amorphous and organic semiconductors. Some of these attempts are based on calculations of the effect of Coulomb potentials of dopant species on charge carriers in the host material. We estimate the effect of the Coulomb centres introduced by doping on the charge carriers in localized states of the host system and show that there is very strong correlation between spatial positions of dopant ions and extra charge carriers, in particular, in lightly doped materials. Previous calculations carried out in the framework of such an approach neither take the charge neutrality of the system, nor screening effect...
We study the influence of the molecular energy levels on doped organic layers, using four different ...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
We investigate conductivity and mobility of different hosts mixed with different electron-withdrawin...
Charge carriers energetics is key in electron transfer processes such as those that enable the elect...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Conductivity doping of organic semiconductors is an essential prerequisite for many organic devices,...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The influence of doping on the process of charge injection from a metal electrode into a model organ...
Charge transport in disordered organic semiconductors, which is governed by incoherent hopping betwe...
International audienceThe control over material properties attainable through molecular doping is es...
Doped organic semiconductors typically exhibit a thermal activation of their electrical conductivity...
Doping is an extremely important process where intentional insertion of impurities in semiconductors...
Increasing the amount of charge carriers by molecular doping is important to improve the function of...
A quantitative study of n-type doping in highly crystalline organic semiconductor films establishes ...
We study the influence of the molecular energy levels on doped organic layers, using four different ...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
We investigate conductivity and mobility of different hosts mixed with different electron-withdrawin...
Charge carriers energetics is key in electron transfer processes such as those that enable the elect...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Conductivity doping of organic semiconductors is an essential prerequisite for many organic devices,...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The influence of doping on the process of charge injection from a metal electrode into a model organ...
Charge transport in disordered organic semiconductors, which is governed by incoherent hopping betwe...
International audienceThe control over material properties attainable through molecular doping is es...
Doped organic semiconductors typically exhibit a thermal activation of their electrical conductivity...
Doping is an extremely important process where intentional insertion of impurities in semiconductors...
Increasing the amount of charge carriers by molecular doping is important to improve the function of...
A quantitative study of n-type doping in highly crystalline organic semiconductor films establishes ...
We study the influence of the molecular energy levels on doped organic layers, using four different ...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
We investigate conductivity and mobility of different hosts mixed with different electron-withdrawin...