Add to ORKGWe compare two air-stable n-dopants for the fullerene C60: AOB and DMBI-POH. Conductivity and Seebeck coefficient measurements were performed at various doping concentrations and the thermal activation of the conductivity was determined. A superlinear increase of conductivity upon doping was found for DMBI-POH doped C60 reaching a maximum conductivity of 5.3 S/cm. In contrast to this, a linear rise of conductivity and an exponential thermal activation of mobility was observed for C60 doped by AOB. This suggests a different doping mechanism for the two compounds. © 2012 Elsevier B.V. All rights reserved
We examine the effects of monoderivatization on the electronic properties of C60. For this we chose ...
The discovery of air-stable n-dopants for organic semiconductor materials has been hindered by the n...
We use scanning tunneling microscopy to establish controlled contacts to single molecules of endohed...
We compare two air-stable n-dopants for the fullerene C60: AOB and DMBI-POH. Conductivity and Seebec...
We present two organic dimetal complexes Cr2(hpp)4 and W2(hpp)4 as n-dopants investigated in the mod...
This work aims at improving the understanding of the fundamental physics behind molecular doping of ...
Molecular doping of organic semiconductors and devices represents an enabling technology for a range...
In contrast to p-dopants, highly efficient molecular n-dopants are prone to degradation in air due t...
In this paper electrical conductivity of fullerene derivatives was investigated. Compared with pure ...
We present a theoretical study of the conductance and thermopower of single-molecule junctions based...
We demonstrate highly efficient small molecule organic light emitting diodes and organic solar cells...
This paper describes a promising n-type doping system with high performance for thermoelectric appli...
2-(2-Methoxyphenyl)-1,3-dimethyl-1H-benzoimidazol-3-ium iodide (o-MeO-DMBI-I) was synthesized and em...
In this paper electrical conductivity of fullerene derivatives was investigated. Compared with pure ...
Metal doped C60 compounds comprise a class of materials, which includes insulators, conductors and s...
We examine the effects of monoderivatization on the electronic properties of C60. For this we chose ...
The discovery of air-stable n-dopants for organic semiconductor materials has been hindered by the n...
We use scanning tunneling microscopy to establish controlled contacts to single molecules of endohed...
We compare two air-stable n-dopants for the fullerene C60: AOB and DMBI-POH. Conductivity and Seebec...
We present two organic dimetal complexes Cr2(hpp)4 and W2(hpp)4 as n-dopants investigated in the mod...
This work aims at improving the understanding of the fundamental physics behind molecular doping of ...
Molecular doping of organic semiconductors and devices represents an enabling technology for a range...
In contrast to p-dopants, highly efficient molecular n-dopants are prone to degradation in air due t...
In this paper electrical conductivity of fullerene derivatives was investigated. Compared with pure ...
We present a theoretical study of the conductance and thermopower of single-molecule junctions based...
We demonstrate highly efficient small molecule organic light emitting diodes and organic solar cells...
This paper describes a promising n-type doping system with high performance for thermoelectric appli...
2-(2-Methoxyphenyl)-1,3-dimethyl-1H-benzoimidazol-3-ium iodide (o-MeO-DMBI-I) was synthesized and em...
In this paper electrical conductivity of fullerene derivatives was investigated. Compared with pure ...
Metal doped C60 compounds comprise a class of materials, which includes insulators, conductors and s...
We examine the effects of monoderivatization on the electronic properties of C60. For this we chose ...
The discovery of air-stable n-dopants for organic semiconductor materials has been hindered by the n...
We use scanning tunneling microscopy to establish controlled contacts to single molecules of endohed...