The recent development of quantistic technologies requires the urgent preparation of materials suitable for the engineering of quantistic-coherent behaviours. Nowadays, quantum dots (QDs), which are semiconducting nanocrystals with exceptional photophysical properties, are a promising candidate for this application. This work will focus on the study of the ultrafast dynamics of a QD-based optoelectronic device by the means of an action-based approach of 2DES (two-dimensional electronic spectroscopy).
The recent development of quantistic technologies requires the urgent preparation of materials suitable for the engineering of quantistic-coherent behaviours. Nowadays, quantum dots (QDs), which are semiconducting nanocrystals with exceptional photophysical properties, are a promising candidate for this application. This work will focus on the study of the ultrafast dynamics of a QD-based optoelectronic device by the means of an action-based approach of 2DES (two-dimensional electronic spectroscopy).
Study on the ultrafast dynamics of solid-state semiconducting nanocrystals (QDs) for quantum technologies applications
DOARDO, MATILDE
2023/2024
Abstract
The recent development of quantistic technologies requires the urgent preparation of materials suitable for the engineering of quantistic-coherent behaviours. Nowadays, quantum dots (QDs), which are semiconducting nanocrystals with exceptional photophysical properties, are a promising candidate for this application. This work will focus on the study of the ultrafast dynamics of a QD-based optoelectronic device by the means of an action-based approach of 2DES (two-dimensional electronic spectroscopy).| File | Dimensione | Formato | |
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https://hdl.handle.net/20.500.12608/63019