Journal
ADVANCED FUNCTIONAL MATERIALS
Volume 27, Issue 37, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201701898
Keywords
bandgap engineering; DFT calculations; photoluminescence measurements; silicon nanocrystals; solar cells
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Funding
- Japan Society for the Promotion of Science [15H06889]
- Japan Society of the Promotion of Science (JSPS) [25.03716]
- Engineering and Physical Sciences Research Council (EPSRC) [EP/K022237/1, EP/M024938/1]
- NEDO
- EPSRC [EP/K022237/1, EP/M024938/1] Funding Source: UKRI
- Engineering and Physical Sciences Research Council [EP/K022237/1, EP/M024938/1] Funding Source: researchfish
- Grants-in-Aid for Scientific Research [25110009, 15H06889] Funding Source: KAKEN
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In this work, a systematic first-principles study of the quasi-band structure of silicon nanocrystals (Si-NCs) is provided, focusing on bandgap engineering by combining quantum confinement of the electronic states with OH surface-functionalization. A mapping between the bandgap, Si-NC diameter, and the degree of hydroxide coverage is provided, which can be used as a guideline for bandgap engineering. Complementary to first-principles calculations, the photoluminescence (PL) wavelength of Si-NCs in the quantum-confinement regime is measured with well-defined diameters between 1 and 4 nm. The Si-NCs are prepared by means of a microplasma technique, which allows a surfactant-free engineering of the Si-NCs surface with OH groups. The microplasma treatment technique allows us to gradually change the degree of OH coverage, enabling us, in turn, to gradually shift the emitted light in the PL spectra by up to 100 nm to longer wavelengths. The first-principles calculations are consistent with the experimentally observed dependence of the wavelengths on the OH coverage and show that the PL redshift is determined by the charge transfer between the Si-NC and the functional groups, while on the other hand surface strain plays only a minor part.
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