Correction to Formation and Interlayer Decoupling ... - ACS Publications

Dec 28, 2016 - Correction to Formation and Interlayer Decoupling of Colloidal MoSe2 Nanoflowers. Du Sun, Simin Feng, Yunzhi Liu, Mauricio Terrones*, a...
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Correction to Formation and Interlayer Decoupling of Colloidal MoSe2 Nanoflowers Du Sun, Simin Feng, Yunzhi Liu, Mauricio Terrones,* and Raymond E. Schaak* Chem. Mater. 2015, 27 (8), 3167−3175. DOI: 10.1021/acs.chemmater.5b01129 Figure 7 in this article, which plotted the variation in the Raman A1g peak position as a function of laser power irradiation (633

Figure 7. Plot showing the variation in the A1g peak position as a function of laser power irradiation (633 nm) of the MoSe 2 nanoflowers. The corresponding Raman data can be found in Figures S9 and S10 of the Supporting Information. The A1g peak positions correspond to the peak maxima. The region outlined with a green dashed line highlights the region of 1% (23 μW) to 50% (1290 μW) laser power strength, where interlayer decoupling is reversible. 100% laser power corresponds to 2.9 mW. The arrows indicate the order of the measurement sequence.

nm) of the MoSe2 nanoflowers, was presented in a way that did not effectively convey the series of experiments. A revised version of Figure 7, which more clearly shows the measurement sequence where the laser power is varied and the A1g peak position shifts, is shown below, along with an updated figure caption. Also, the correct 633 nm laser power in Figure S13 of the Supporting Information is 20 μW, not 23 μW as originally reported, and the slight (