Journal
JOURNAL OF PHYSICAL CHEMISTRY C
Volume 122, Issue 46, Pages 26713-26721Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcc.8b07826
Keywords
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Funding
- Hungarian NKFIH grant [NVKP_16-1-2016-0043, NN118161]
- National Quantum Technology Program [2017-1.2.1-NKP-2017-00001]
- National Excellence Program [TAMOP-4.2.4.A/2-111/1-2012-00001]
- National Talent Programs [NTP-NFTO-18-B-0243, NTP-NFTO-16-0333]
- Hungarian OTKA (NKFIH) project [SNN 118012]
- V4+J Joint Research Project NaMSeN - International Visegrad Fund [MSMT 8F15001]
- Higher Education Institutional Excellence Program of the Ministry of Human Capacities in Hungary [20765-3/2018/FEKUTSTRAT]
- BME-Nanotechnology FIKP grant of the Ministry of Human Capacities in Hungary (BME FIKP-NAT)
- Grant Agency of the Czech Republic [18-07977Y]
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We employ time-dependent photoluminescence (PL) and steady-state PL excitation (PLE) measurements to study the size-dependent optical properties of ultrasmall silicon carbide (SiC) nanoparticles (NPs). We find that the nature of the optical transition transforms from solid-state indirect gap to molecular-like as the diameter of spherical SiC NPs is reduced from 4-6 to 1-3 nm with a smooth transition in between. We deduce the radiative lifetimes of SiC NPs that are well supported by ab initio time-dependent density functional theory calculations on realistically large SiC NPs with realistic surface terminations, including the solvation effects.
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