Title: Reduction of Photoluminescence Quenching by Deuteration of Ytterbium-Doped Amorphous Carbon-Based Photonic Materials
Authors: Hsu, Hui-Lin
Leong, Keith R.
Teng, I-Ju
Halamicek, Michael
Juang, Jenh-Yih
Jian, Sheng-Rui
Qian, Li
Kherani, Nazir P.
前瞻跨領域基礎科學中心
Center for Interdisciplinary Science
Keywords: RF-PEMOCVD;fluorinated ytterbium metal-organic compound;deuterated;hydrogenated;amorphous carbon
Issue Date: 1-Aug-2014
Abstract: In situ Yb-doped amorphous carbon thin films were grown on Si substrates at low temperatures (<200 degrees C) by a simple one-step RF-PEMOCVD system as a potential photonic material for direct integration with Si CMOS back end-of-line processing. Room temperature photoluminescence around 1 mu m was observed via direct incorporation of optically active Yb3+ ions from the selected Yb(fod)(3) metal-organic compound. The partially fluorinated Yb(fod)(3) compound assists the suppression of photoluminescence quenching by substitution of C-H with C-F bonds. A four-fold enhancement of Yb photoluminescence was demonstrated via deuteration of the a-C host. The substrate temperature greatly influences the relative deposition rate of the plasma dissociated metal-organic species, and hence the concentration of the various elements. Yb and F incorporation are promoted at lower substrate temperatures, and suppressed at higher substrate temperatures. O concentration is slightly elevated at higher substrate temperatures. Photoluminescence was limited by the concentration of Yb within the film, the concentration of Yb ions in the +3 state, and the relative amount of quenching due to the various de-excitation pathways associated with the vibrational modes of the host a-C network. The observed wide full-width-at-half-maximum photoluminescence signal is a result of the variety of local bonding environments due to the a-C matrix, and the bonding of the Yb3+ ions to O and/or F ions as observed in the X-ray photoelectron spectroscopy analyses.
URI: http://dx.doi.org/10.3390/ma7085643
http://hdl.handle.net/11536/147808
ISSN: 1996-1944
DOI: 10.3390/ma7085643
Journal: MATERIALS
Volume: 7
Begin Page: 5643
End Page: 5663
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