Add to ORKG32 pages, 9 figures, supporting information (5 SI figures), submitted for publicationIn this work, we use pump-probe Kelvin Probe Force Microscopy (pp-KPFM) to investigate light-induced surface potential dynamics in alumina-passivated crystalline silicon, and in an organic bulk heterojunction thin film based on the PTB7-PC71BM tandem. In both cases, we demonstrate that it is possible to identify and separate the contributions of two different kinds of photo-induced charge distributions that give rise to potential shifts with opposite polarities, each characterized by different dynamics. The data acquired on the passivated crystalline silicon are shown to be fully consistent with the band-bending at the silicon-oxide interface, and with elec...
Abstract Cross-sectional potential distribution of high open-circuit voltage bulk heterojunction pho...
In recent years, the investigation of the complex interplay between the nanostructure and photo-tran...
This thesis is directed towards the proposition and demonstration of a set of novel advanced atomic ...
32 pages, 9 figures, supporting information (5 SI figures), submitted for publicationIn this work, w...
International audienceHerein, we show a novel technique based on Kelvin probe force microscopy (KPFM...
Since its inception a quarter of a century ago, Kelvin probe force microscopy (KPFM) has enabled stu...
Here, correlated AFM and scanning Kelvin probe microscopy measurements with sub-100 nm resolution on...
Nanomaterials are interesting for a variety of applications, such as optoelectronics and photovoltai...
Here, we discuss the local photovoltaic characteristics of a structured bulk heterojunction, organic...
International audienceAn implementation of pump-probe Kelvin probe force microscopy (pp-KPFM) is rep...
International audienceIn this study we analysed halide perovskite films deposited directly on crysta...
We study surface photovoltage decays on sub-millisecond time scales in organic solar cells using int...
Understanding photogenerated charge separation on the nano- to micrometer scale is the key to optimi...
Abstract Cross-sectional potential distribution of high open-circuit voltage bulk heterojunction pho...
In recent years, the investigation of the complex interplay between the nanostructure and photo-tran...
This thesis is directed towards the proposition and demonstration of a set of novel advanced atomic ...
32 pages, 9 figures, supporting information (5 SI figures), submitted for publicationIn this work, w...
International audienceHerein, we show a novel technique based on Kelvin probe force microscopy (KPFM...
Since its inception a quarter of a century ago, Kelvin probe force microscopy (KPFM) has enabled stu...
Here, correlated AFM and scanning Kelvin probe microscopy measurements with sub-100 nm resolution on...
Nanomaterials are interesting for a variety of applications, such as optoelectronics and photovoltai...
Here, we discuss the local photovoltaic characteristics of a structured bulk heterojunction, organic...
International audienceAn implementation of pump-probe Kelvin probe force microscopy (pp-KPFM) is rep...
International audienceIn this study we analysed halide perovskite films deposited directly on crysta...
We study surface photovoltage decays on sub-millisecond time scales in organic solar cells using int...
Understanding photogenerated charge separation on the nano- to micrometer scale is the key to optimi...
Abstract Cross-sectional potential distribution of high open-circuit voltage bulk heterojunction pho...
In recent years, the investigation of the complex interplay between the nanostructure and photo-tran...
This thesis is directed towards the proposition and demonstration of a set of novel advanced atomic ...