Add to ORKGThe mechanism by which molecular dopants donate free charge carriers to the host organic semiconductor is investigated and is found to be quite different from the one in inorganic semiconductors. In organics, a strong correlation between the doping concentration and its charge donation efficiency is demonstrated. Moreover, there is a threshold doping level below which doping simply has no electrical effect. Copyright cop. 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinhei
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...
The influence of doping on the process of charge injection from a metal electrode into a model organ...
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Molecular doping: The standard model for molecular p-doping of organic semiconductors (OSCs) assumes...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
This article is part of the Organic Bioelectronics special issue.Electronic doping in organic materi...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
Conductivity doping of organic semiconductors is an essential prerequisite for many organic devices,...
Controlling the concentration of charge carriers (mobile electrons and holes) in organic semiconduct...
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...
The influence of doping on the process of charge injection from a metal electrode into a model organ...
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...
The mechanism by which molecular dopants donate free charge carriers to the host organic semiconduct...
Molecular doping: The standard model for molecular p-doping of organic semiconductors (OSCs) assumes...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
The properties of organic semiconductors make them well-suited for certain applications in electroni...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
Electronic doping in organic materials has remained an elusive concept for several decades. It drew ...
This article is part of the Organic Bioelectronics special issue.Electronic doping in organic materi...
Ionizing chemical dopants are widely used in organic semiconductors to enhance the charge transport ...
Conductivity doping of organic semiconductors is an essential prerequisite for many organic devices,...
Controlling the concentration of charge carriers (mobile electrons and holes) in organic semiconduct...
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...
The influence of doping on the process of charge injection from a metal electrode into a model organ...
Current models for molecular electrical doping of organic semiconductors are found to be at odds wit...