Khadga J. Karki, Fei Ma, Kaibo Zheng, Karel Zidek, Abdelrazek Mousa, Mohamed A. Abdellah, Maria Messing, L. Reine Wallenberg, Arkadi Yartsev, Tonu Pullerits
Multiple exciton generation (MEG) is a process in which more than one exciton is generated upon the absorption of a high energy photon, typically higher than two times the band gap, in semiconductor nanocrystals. It can be observed experimentally using time resolved spectroscopy such as the transient absorption measurements. Quantification of the MEG yield is usu- ally done by assuming that the bi-exciton signal is twice the signal from a single exciton. Herein we show that this assumption is not always justified and may lead to significant errors in the estimated MEG yields. We develop a methodology to determine proper scaling factors to the signals from the transient absorption experiments. Using the methodology we find modest MEG yields in lead chalcogenide nanocrystals including the nanorods.
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http://arxiv.org/abs/1302.6711
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