Add to ORKGThe efficiency of photoconversion systems such as organic photovoltaic cells and photocatalytic water-splitting cells is largely governed by the interfacial charge transfer processes. Understanding the structure-function relationship, specifically at the molecular thin film/transparent conducting oxide interface will allow for engineering these interfaces to promote charge transfer and reduce the rate of charge recombination. Important factors that are hypothesized to influence charge transfer are morphology, chemical characteristics, electronic properties and molecular orientation. As molecules are bound to a transparent conducting oxide or incorporated into a thin film, the local solid-state molecular environment greatly influences the ex...
Charge transfer efficiency at the organic/transparent conducting oxide (TCO) interface is one of the...
Harnessing sunlight through solar cells is vital for sustainable energy production. The conventional...
The photophysical processes for three nanosized photocatalytic oxides, titanium dioxide (TiO2) thin ...
Solar energy conversion is accomplished by multilayered devices consisting of various conducting and...
Solar energy conversion is accomplished by multilayered devices consisting of various conducting and...
Understanding interfacial charge injection processes is one of the key factors needed for developmen...
To improve the overall efficiency of an organic photovoltaic (OPV) device, the charge transfer at th...
Photoinduced electron transfer (PET) across molecular/bulk interfaces has gained attention only rece...
This dissertation work investigated the parameters affecting the interfacial electron transfer (ET) ...
This work investigates the electron transfer process (ET) at the interface between organic donor-acc...
Since quite some time similarities have been noted between the photo-generation of charge carriers (...
Organic semiconductor thin films are of interest to us for a variety of molecular electronic applica...
Photoinduced intermolecular energy and electron transfers in organic multilayered thin films were st...
Potential modulated attenuated total reflectance (PM-ATR) spectroscopy is a novel technique that mak...
In the recent years, solar energy conversion has attracted a huge research interest due to the poten...
Charge transfer efficiency at the organic/transparent conducting oxide (TCO) interface is one of the...
Harnessing sunlight through solar cells is vital for sustainable energy production. The conventional...
The photophysical processes for three nanosized photocatalytic oxides, titanium dioxide (TiO2) thin ...
Solar energy conversion is accomplished by multilayered devices consisting of various conducting and...
Solar energy conversion is accomplished by multilayered devices consisting of various conducting and...
Understanding interfacial charge injection processes is one of the key factors needed for developmen...
To improve the overall efficiency of an organic photovoltaic (OPV) device, the charge transfer at th...
Photoinduced electron transfer (PET) across molecular/bulk interfaces has gained attention only rece...
This dissertation work investigated the parameters affecting the interfacial electron transfer (ET) ...
This work investigates the electron transfer process (ET) at the interface between organic donor-acc...
Since quite some time similarities have been noted between the photo-generation of charge carriers (...
Organic semiconductor thin films are of interest to us for a variety of molecular electronic applica...
Photoinduced intermolecular energy and electron transfers in organic multilayered thin films were st...
Potential modulated attenuated total reflectance (PM-ATR) spectroscopy is a novel technique that mak...
In the recent years, solar energy conversion has attracted a huge research interest due to the poten...
Charge transfer efficiency at the organic/transparent conducting oxide (TCO) interface is one of the...
Harnessing sunlight through solar cells is vital for sustainable energy production. The conventional...
The photophysical processes for three nanosized photocatalytic oxides, titanium dioxide (TiO2) thin ...