Laurie Letertre scite author profile

The nanoscale morphology of photoactive hybrid heterojunctions plays a key role in the performances of hybrid solar cells. In this work, the heterojunctions consist of a nanocolumnar TiO2 surface covalently grafted with a monolayer of poly(3-hexylthiophene) (P3HT) functionalized with carboxylic groups (–COOH). Through a joint analysis of the photovoltaic properties at the nanoscale by photoconductive-AFM (PC-AFM) and surface photovoltage imaging, we investigated the physical mechanisms taking place locally during the photovoltaic process and the correlation to the nanoscale morphology. A down-shift of the vacuum level of the TiO2 surface upon grafting was measured by Kelvin probe force microscopy (KPFM), evidencing the formation of a dipole at the TiO2/P3HT-COOH interface. Upon in situ illumination, a positive photovoltage was observed as a result of the accumulation of photogenerated holes in the P3HT layer. A positive photocurrent was recorded in PC-AFM measurements, whose spatial mapping was interpreted consistently with the corresponding KPFM analysis, offering a correlated analysis of interest from both a theoretical and material design perspective.

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Causal nonseparability and its implications for spatiotemporal relations

Letertre

2022

Studies in History and Philosophy of Science

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Laurie Letertre

Nanoscale study of MoSe2/poly(3-hexylthiophene) bulk heterojunctions for hybrid photovoltaic applications

The operational framework for quantum theories is both epistemologically and ontologically neutral

A scanning probe microscopy study of nanostructured TiO₂/poly(3-hexylthiophene) hybrid heterojunctions for photovoltaic applications

Causal nonseparability and its implications for spatiotemporal relations

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Laurie Letertre

Nanoscale study of MoSe2/poly(3-hexylthiophene) bulk heterojunctions for hybrid photovoltaic applications

The operational framework for quantum theories is both epistemologically and ontologically neutral

A scanning probe microscopy study of nanostructured TiO2/poly(3-hexylthiophene) hybrid heterojunctions for photovoltaic applications

Causal nonseparability and its implications for spatiotemporal relations

Contact Info

Product

Resources

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A scanning probe microscopy study of nanostructured TiO₂/poly(3-hexylthiophene) hybrid heterojunctions for photovoltaic applications