Ultrafast charge dynamics in molecular thin films

Ultrafast charge dynamics in molecular thin films

Conjugated molecular thin films have potential for novel optoelectronic devices such as flexible solar cells and display devices. However, a detailed understanding of their excited state dynamics is crucial for their technological applications. Tetrapyrrole complexes are an important class of conjug...

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Bibliographic Details
Published in:Materials today : proceedings Vol. 48; pp. 1652 - 1660
Main Authors: Arora, Keshav, Kondal, Neha, Kumar, Abhishek
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-01-2022
Subjects:
Phthalocyanine thin films
Porphyrin thin films
Pump–probe spectroscopy
Tetrapyrrole complexes
Time-resolved photoemission spectroscopy
Porphyrin thin films
Time-resolved photoemission spectroscopy
Pump–probe spectroscopy
Tetrapyrrole complexes
Phthalocyanine thin films
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Summary:Conjugated molecular thin films have potential for novel optoelectronic devices such as flexible solar cells and display devices. However, a detailed understanding of their excited state dynamics is crucial for their technological applications. Tetrapyrrole complexes are an important class of conjugated organic molecules for optoelectronic applications due to their high light gathering ability and thermal stability. In this review, we summarize excited state dynamics of porphyrin and phthalocyanine molecular thin films investigated by pump–probe techniques. The relaxation dynamics for metallo-phthalocyanine molecules are observed to be ultrafast in nature and are in femtosecond time scale while that for metal free phthalocyanine are moderately fast. In case of metallo-phthalocyanines exciton lifetime is much longer than for metal free phthalocyanines. The central metal atom plays an important role in the excited state dynamics of porphyrin molecular thin films thus providing additional excitation channels. Time-resolved photoemission spectroscopy reveals about the evolution of charge transfer excitons at donor–acceptor interfaces and their dissociation mechanism. In case of metallo-phthalocyanines the exciton transport is dominated by hopping mechanism rather than spatial coherent length of excitons. The pump–probe studies provide a basis for appropriate selection of molecules for technological applications.
ISSN:2214-7853
2214-7853
DOI:10.1016/j.matpr.2021.09.528