Add to ORKGWe investigate conductivity and mobility of different hosts mixed with different electron-withdrawing guests in concentrations ranging from ultralow to high. The effect of the guest material on the mobility and conductivity of the host material varies systematically with the guests' LUMO energy relative to the host HOMO, in quantitative agreement with a recently developed model. For guests with a LUMO within similar to 0.5 eV of the host HOMO the dominant process governing transport is the competition between the formation of a deep tail in the host DOS and state filling. In other cases, the interaction with the host is dominated by any polar side groups on the guest and changes in the host morphology. For relatively amorphous hosts the lat...
We report an unusual transition in the conductivity of an organic semiconductor upon doping: For low...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
open12siCharge carriers energetics is key in electron transfer processes such as those that enable t...
We investigate conductivity and mobility of different hosts mixed with different electron-withdrawin...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
We study the influence of the molecular energy levels on doped organic layers, using four different ...
Charge transport plays a key role in defining the performance of organic-based devices such as light...
We investigate charge transport in disordered organic host–guest systems with a bimodal Gaussian den...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The knowledge about properties of electronic traps in organic semiconductors is one of the major key...
The carrier transport properties in nanocrystalline semiconductors and organic materials play a key...
Doped organic semiconductors typically exhibit a thermal activation of their electrical conductivity...
We explore the charge transport mechanism in organic semiconductors based on a model that accounts f...
The impact of the energetic disorder and the charge localization on the conductivity, mobility and c...
We report an unusual transition in the conductivity of an organic semiconductor upon doping: For low...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
open12siCharge carriers energetics is key in electron transfer processes such as those that enable t...
We investigate conductivity and mobility of different hosts mixed with different electron-withdrawin...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
We study the influence of the molecular energy levels on doped organic layers, using four different ...
Charge transport plays a key role in defining the performance of organic-based devices such as light...
We investigate charge transport in disordered organic host–guest systems with a bimodal Gaussian den...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The knowledge about properties of electronic traps in organic semiconductors is one of the major key...
The carrier transport properties in nanocrystalline semiconductors and organic materials play a key...
Doped organic semiconductors typically exhibit a thermal activation of their electrical conductivity...
We explore the charge transport mechanism in organic semiconductors based on a model that accounts f...
The impact of the energetic disorder and the charge localization on the conductivity, mobility and c...
We report an unusual transition in the conductivity of an organic semiconductor upon doping: For low...
Electronic devices made of organic molecules are starting to show their transfomative power in vario...
open12siCharge carriers energetics is key in electron transfer processes such as those that enable t...