Journal
JOURNAL OF PHYSICAL CHEMISTRY C
Volume 124, Issue 14, Pages 7994-7999Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcc.0c01027
Keywords
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Funding
- Natural Science Foundation of Guangdong Province [2019A1515012094, 2018A030310635, 2018A030310637]
- Shenzhen Basic Research Project of Science and Technology [JCYJ20190808121211510, JCYJ20170818142921044]
- Project of Department of Education of Guangdong Province [2018KTSCX19, 2017KZDXM073]
- National Natural Science Foundation of China (NSFC) [61775143, 61475103]
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The photophysical properties of near-infrared-I (NIR-I)-emissivetype-II semiconductor nanocrystals (NCs), such as their excitonic properties and multiphoton absorption (MPA), have been rarely reported. In this work, the photophysical properties of water-soluble CdTe/CdSe/ZnS core/shell/shell NCs emitting at 820 nm were investigated using various spectral tools. Through the measurements of temperature-dependent photoluminescence (PL) spectra, the coefficient of the band gap change of CdTe/CdSe/ZnS core/shell/shell NCs was determined as -1.01 X 10(-5) K-1, while the coupling strength of exciton-acoustic phonon and exciton longitudinal optical (LO) phonon and the LO phonon energy were determined to be 120 mu eV/K and 26 and 77 meV, respectively. Their linear absorption cross section was determined as 1.09 X 10(-15) cm(2) at 500 nm, using femtosecond transient absorption spectroscopy. More importantly, the MPA cross sections of CdTe/CdSe/ZnS NCs excited in the NIR-II (1000-1340 nm) and III regions (1620-1840 nm) were measured, with the maximum two- and three-photon absorption cross sections of NCs being 3.80 +/- 0.19 X 10(6) GM at 1000 nm and 1.28 +/- 0.06 X 10(-76) cm(6) s(2) photon(-2) at 1700 nm, respectively. In addition, their biocompatibility and NIR-III-excited in vitro bio-imaging have been demonstrated. The good water dispersibility, high exciton stability, and strong multiphoton-excited PL brightness ensure that these NIR-I-emitting CdTe/CdSe/ZnS NCs will be very promising in the applications of various optoelectronic devices and deep-tissue biological imaging.
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