Residual gases analysis after dissociation of tetramethylsilane (TMS) during the synthesis of silicon carbide (SiC) nanocrystals (NCs) by an atmospheric pressure microplasma was used to provide details that can contribute to the understanding of the formation mechanisms of NCs (Plasma Processes and Polymers 17, 2020, 1900243).
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Band energy of c-Si and a-Si nanoparticles (Faraday Discussions 222, 2020, 390)
The relationship between the crystallization process and opto-electronic properties of silicon quantum dots (Si QDs) synthesized by atmospheric pressure plasmas (APPs) is studied in this work. We measure the ultraviolet-visible optical properties and electronic properties through various techniques, build an energy level diagram for the valence electrons region as a function of the crystallinity of the QDs, and finally discuss the integration of these as active layers of all-inorganic solar cells (Faraday Discussions 222, 2020, 390).
Solar-thermal energy conversion with NPs (Solar Energy 203, 2020, 37)
Nanofluids comprised of nanoparticles in ethylene glycol have been prepared. The energy absorptive properties of the prepared nanofluids were investigated as a potential additive to the traditional working fluids used in solar thermal collectors. The application feasibility has been assessed by calculating a value of power which could be transferred to the thermal
fluid (Solar Energy 203, 2020, 37).
OH-terminated ZnO QDs (Nanotechnology 31, 2020, 215707)
Strongly confined ligand-free, defect-free, hydroxy terminated ZnO quantum dots with a mean diameter of 1.9 nm were synthesized by radio frequency atmospheric pressure microplasma. Photoluminescence studies show strong confinement effect on emission with only ultraviolet (UV) emission without any defect-related visible emission. The mechanism responsible for this UV emission is also discussed and originates from OH-related surface terminations (Nanotechnology 31, 2020, 215707).
Enhance solar cell stability with Si NCs (Nanoscale Adv 1, 2019, 4683)
Highly stable zero-dimensional (CH3NH3)3Bi2I9 photovoltaic cells which demonstrate a 33% increase in performance after 2 years when hybridized with silicon nanocrystals (SiNCs) (Nanoscale Advances 1, 2019, 4683).
NiO NCs: ubiquitous transport layer (Nanoscale Adv 1, 2019, 4915)
Ultra-small NiO nanocrystals (2 nm mean diameter) with strong quantum confinement and superior material characteristics (Nanoscale Advances 1, 2019, 4915).
Energy level alignment in nanocrystals (J Phys Chem Lett 11, 2020 1721)
Advancing the knowledge of energy band levels is of paramount importance for exploiting novel properties of materials for many different applications (J Phys Chem Lett 11, 2020 1721).
Microplasmas for Advanced Materials and Devices (Adv. Mater. 2019, 1905508)
Current progress in microplasma nanomaterials synthesis, spanning from high-throughput, printing technology-compatible synthesis of nanocrystalline particles of common materials types, to water purification and optoelectronic devices (Advanced Materials, 2019, 1905508)).
Nanostructured perovskite solar cells (Nanomaterials 9, 2019, 1481)
Current progress in nanoscale perovskites, such as low-dimensional perovskites,
perovskite quantum dots, and perovskite-nanocrystal hybrid solar cells are reviewed (Nanomaterials 9, 2019, 1481).