The versatility of organic molecules generates a rich design space for organic semiconductors (OSCs) considered for electronics applications. Offering unparalleled promise for materials discovery, the vastness of this design space also dictates efficient search strategies. Here, we present an active machine learning (AML) approach that explores an unlimited search space through consecutive application of molecular morphing operations. Evaluating the suitability of OSC candidates on the basis of charge injection and mobility descriptors, the approach successively queries predictive-quality first-principles calculations to build a refining surrogate model. The AML approach is optimized in a truncated test space, providing deep methodological ...
The combination of modern scientific computing with electronic structure theory can lead to an unpre...
In the process of finding high-performance materials for organic photovoltaics (OPVs), it is meaning...
We have investigated the organic semiconductor's enigmas through the material informatics approach. ...
Improving charge carrier mobilities in organic semiconductors is a challenging task that has hithert...
We present a data set of 48182 organic semiconductors, constituted of molecules that were prepared w...
Modern materials discovery and design studies often rely on the computational screening of large dat...
Organic semiconductors are promising materials for cheap, scalable and sustainable electronics, ligh...
The molecular reorganization energy λ strongly influences the charge carrier mobility of organic sem...
Improving charge carrier mobilities in organic semiconductors is a challenging task that has hithert...
Materials for organic electronics are presently used in prominent applications, such as displays in ...
A computational screening workflow for small-molecule organic semiconductors which starts from a def...
Organic semiconductors have gained widespread attention due to their potential applications in flexi...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
The combination of modern scientific computing with electronic structure theory can lead to an unpre...
The purpose of this work is to lower the computational cost of predicting charge mobilities in organ...
The combination of modern scientific computing with electronic structure theory can lead to an unpre...
In the process of finding high-performance materials for organic photovoltaics (OPVs), it is meaning...
We have investigated the organic semiconductor's enigmas through the material informatics approach. ...
Improving charge carrier mobilities in organic semiconductors is a challenging task that has hithert...
We present a data set of 48182 organic semiconductors, constituted of molecules that were prepared w...
Modern materials discovery and design studies often rely on the computational screening of large dat...
Organic semiconductors are promising materials for cheap, scalable and sustainable electronics, ligh...
The molecular reorganization energy λ strongly influences the charge carrier mobility of organic sem...
Improving charge carrier mobilities in organic semiconductors is a challenging task that has hithert...
Materials for organic electronics are presently used in prominent applications, such as displays in ...
A computational screening workflow for small-molecule organic semiconductors which starts from a def...
Organic semiconductors have gained widespread attention due to their potential applications in flexi...
Organic materials find application in a range of areas, including optoelectronics, sensing, encapsul...
The combination of modern scientific computing with electronic structure theory can lead to an unpre...
The purpose of this work is to lower the computational cost of predicting charge mobilities in organ...
The combination of modern scientific computing with electronic structure theory can lead to an unpre...
In the process of finding high-performance materials for organic photovoltaics (OPVs), it is meaning...
We have investigated the organic semiconductor's enigmas through the material informatics approach. ...