Add to ORKGThe active layer morphology transition of organic photovoltaics under non-equilibrium conditions are of vital importance in determining the device power conversion efficiency and stability; however, a general and unified picture on this issue has not been well addressed. Using combined in situ and ex situ morphology characterizations, morphological parameters relating to kinetics and thermodynamics of morphology evolution are extracted and studied in model systems under thermal annealing. The coupling and competition of crystallization and demixing are found to be critical in morphology evolution, phase purification and interfacial orientation. A unified model summarizing different phase diagrams and all possible kinetic routes is proposed....
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
An optimal nanoscale phase separation between the donor (generally, a conjugated polymer) and the ac...
Organic photovoltaic devices are on the verge of commercialization with power conversion efficiencie...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
The power conversion efficiency of polymer solar cells (PSCs) is strongly affected by active layer m...
This thesis utilises computational simulations to investigate the relationship between morphological...
We review the morphologies of polymer-based solar cells and the parameters that govern the evolution...
Polymer organic photovoltaic (OPV) device performance is defined by the three-dimensional morphology...
In high performance organic solar cells, the photoactive layer consists of a blend of electron donor...
Research Doctorate - Doctor of Philosophy (PhD)Nanoparticle organic thin films are an emerging area ...
It is well-established that thermal annealing optimizes the morphology and improves the efficiency o...
© 2019 Dr. Calvin Jun Hao LeeOrganic photovoltaics (OPV) materials are an established class of light...
Understanding the morphology formation process of solution-cast photoactive layers (PALs) is crucial...
Due to the rapidly increasing demand for clean energy, harnessing solar energy has been considered t...
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
An optimal nanoscale phase separation between the donor (generally, a conjugated polymer) and the ac...
Organic photovoltaic devices are on the verge of commercialization with power conversion efficiencie...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
Controlling the morphology of thin films is key in optimizing the efficiency of polymer-based photov...
The power conversion efficiency of polymer solar cells (PSCs) is strongly affected by active layer m...
This thesis utilises computational simulations to investigate the relationship between morphological...
We review the morphologies of polymer-based solar cells and the parameters that govern the evolution...
Polymer organic photovoltaic (OPV) device performance is defined by the three-dimensional morphology...
In high performance organic solar cells, the photoactive layer consists of a blend of electron donor...
Research Doctorate - Doctor of Philosophy (PhD)Nanoparticle organic thin films are an emerging area ...
It is well-established that thermal annealing optimizes the morphology and improves the efficiency o...
© 2019 Dr. Calvin Jun Hao LeeOrganic photovoltaics (OPV) materials are an established class of light...
Understanding the morphology formation process of solution-cast photoactive layers (PALs) is crucial...
Due to the rapidly increasing demand for clean energy, harnessing solar energy has been considered t...
Nanoscale morphology is critical to determining the device efficiency of bulk heterojunction organic...
An optimal nanoscale phase separation between the donor (generally, a conjugated polymer) and the ac...
Organic photovoltaic devices are on the verge of commercialization with power conversion efficiencie...