Exciton
Fission & Solar Energy Conversion Beyond The Limit
X.-Y. Zhu,
The absorption of one photon by a semiconductor material usually creates one electron-hole pair, but this general rule breaks down in a few organic semiconductors, such as pentacene and tetracene, where one photon absorption may result in two electron-hole pairs in a process called singlet exciton fission. Recent measurements in our group by time-resolved two-photon photoemission (TR-2PPE) spectroscopy in crystalline pentacene and tetracene provided the first spectroscopic signatures in singlet fission of a critical intermediate known as the multi exciton state. More importantly, population of the multi exciton state is found to rise concurrently with that of the singlet state on the ultrafast time scale upon photo excitation. This observation provides an experimental foundation for a quantum coherent mechanism in which the electronic coupling creates a quantum superposition of the singlet and the multi exciton state immediately following optical excitation. We demonstrate the feasibility of harvesting the multi exciton state for multiple charge carriers or the triplets. We outline a set of design principles for molecular materials with high singlet fission yield and for the implementation of singlet fission in solar cells with power conversion efficiency beyond the Shockley-Queisser limit.
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M. Ligges, A. Jailaubekov,
L. Kaake, L. Miaja-Avila, X.-Y. Zhu, “Observing the
[2] W.-L. Chan,
M. Ligges, X.-Y. Zhu, “The energy
barrier in singlet fission can be overcome through coherent coupling and
entropic gain,” Nature Chem. 4 (2012)
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[3] W.-L. Chan,
J. R. Tritsch, X.-Y. Zhu, “Harvesting
singlet fission for solar energy conversion: one versus two electron transfer
from the quantum mechanical superposition,” J. Am. Chem. Soc. 134 (2012) 18295–18302.
[4] W.-L. Chan et al. “The quantum coherent
mechanism for singlet fission: experiment and theory,” Acct. Chem. Res. 46 (2013) 1321-1329.
[5] J. R. Tritsch, W.-L. Chan, X. Wu, N. R. Monahan, X.-Y.
Zhu, “Harvesting singlet fission for solar energy conversion via triplet
energy transfer,” Nature Commun.4
(2013) 2679.
Host: Prof. V. Podzorov