The growing demand for self-powered devices has led to the study of novel energy storage solutions that exploit green energies whilst ensuring self-sufficiency. In this context, doped metal oxide nanocrystals (MO NCs) are interesting nanosized candidates with the potential to unify solar energy conversion and storage into one set of materials. In this review, we aim to present recent and important developments of doped MO NCs for light-driven multi-charge accumulation (i.e., photodoping) and solar energy storage. We will discuss the general concept of photodoping, the spectroscopic and theoretical tools to determine the charging process, together with unresolved open questions. We conclude the review by highlighting possible device architectures based on doped MO NCs that are expected to considerably impact the field of energy storage by combining in a unique way the conversion and storage of solar power and opening the path towards competitive and novel light-driven energy storage solutions.
Photodoping of metal oxide nanocrystals for multi-charge accumulation and light-driven energy storage / Ghini, Michele; Curreli, Nicola; Camellini, Andrea; Wang, Mengjiao; Asaithambi, Aswin; Kriegel, Ilka. - In: NANOSCALE. - ISSN 2040-3372. - 13:19(2021), pp. 8773-8783. [10.1039/d0nr09163d]
Photodoping of metal oxide nanocrystals for multi-charge accumulation and light-driven energy storage
Mengjiao Wang;Ilka Kriegel
2021
Abstract
The growing demand for self-powered devices has led to the study of novel energy storage solutions that exploit green energies whilst ensuring self-sufficiency. In this context, doped metal oxide nanocrystals (MO NCs) are interesting nanosized candidates with the potential to unify solar energy conversion and storage into one set of materials. In this review, we aim to present recent and important developments of doped MO NCs for light-driven multi-charge accumulation (i.e., photodoping) and solar energy storage. We will discuss the general concept of photodoping, the spectroscopic and theoretical tools to determine the charging process, together with unresolved open questions. We conclude the review by highlighting possible device architectures based on doped MO NCs that are expected to considerably impact the field of energy storage by combining in a unique way the conversion and storage of solar power and opening the path towards competitive and novel light-driven energy storage solutions.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2991233