Main Research Activities

In this Ph.D. project, we target the development of a new device architecture including bi-functional materials with a specific design for faster hole extraction while also passivating surface defects, particularly iodide vacancies. The first part is devoted to the optimization of the PSC device performances, including the new materials developed in this project, and the stability assessment of materials and devices using ISOS protocol. Secondly, studies on in situ characterization techniques and time-resolved spectroscopies will enable to provide direct assessment of materials stability, degradation pathways and finally proving the working principle of the aforementioned bifunctional layer.

Academic Training

Master (KyungHee University in South Korea, 2017-2020)

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Professional skills

Running Projects

ANR doctoral contract- 3 years

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