Comparative Study of Nanostructured CuSe Semiconductor Synthesized in a Planetary and Vibratory Mill

Achimovičová, Marcela; Baláž, Matěj; Girman, Vladimír; Kurimský, Juraj; Briančin, Jaroslav; Dutková, Erika; Gáborová, Katarína

doi:10.3390/nano10102038

Cited by 15 publications

(11 citation statements)

References 43 publications

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“…The samples in the form of pellets were pressed from 0.41 g of NiSe and NiSe 2 powder products under the pressure of 3 t, without retention time, and at room temperature, in a laboratory hydraulic press (Specac, Fort Washington, PA, USA). The four-point test head (Ossila Ltd., Sheffield, UK) was placed on the measured pellet and fixed to its geometrical center during the measurements with a source-measure unit as reported in our previous work [ 16 ]. The probe tips were fixed at the same position and loaded with a constant contact force to obtain reproducible results.…”

Section: Methodsmentioning

confidence: 99%

“…Our several papers and a book chapter deal with the preparation of binary metal selenides and TMCs by the prospective mechanochemical synthesis that can be carried out not only by milling in a laboratory but also in an industrial mill [ 13 , 14 , 15 , 16 ]. This research describes the hitherto unreported simple mechanosynthesis of nickel mono-NiSe and diselenide NiSe 2 by high-energy milling in a planetary ball mill.…”

Section: Introductionmentioning

confidence: 99%

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Mechanochemical Synthesis of Nickel Mono- and Diselenide: Characterization and Electrical and Optical Properties

et al. 2022

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Nickel mono- (NiSe) and diselenide (NiSe2) were produced from stoichiometric mixtures of powdered Ni and Se precursors by the one-step, undemanding mechanochemical reactions. The process was carried out by high-energy milling for 30 and 120 min in a planetary ball mill. The kinetics of the reactions were documented, and the products were studied in terms of their crystal structure, morphology, electrical, and optical properties. X-ray powder diffraction confirmed that NiSe has hexagonal and NiSe2 cubic crystal structure with an average crystallite size of 10.5 nm for NiSe and 13.3 nm for NiSe2. Their physical properties were characterized by the specific surface area measurements and particle size distribution analysis. Transmission electron microscopy showed that the prepared materials contain nanoparticles of irregular shape, which are agglomerated into clusters of about 1–2 μm in diameter. The first original values of electrical conductivity, resistivity, and sheet resistance of nickel selenides synthesized by milling were measured. The obtained bandgap energy values determined using UV–Vis spectroscopy confirmed their potential use in photovoltaics. Photoluminescence spectroscopy revealed weak luminescence activity of the materials. Such synthesis of nickel selenides can easily be carried out on a large scale by milling in an industrial mill, as was verified earlier for copper selenide synthesis.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Mechanochemical Synthesis of Nickel Mono- and Diselenide: Characterization and Electrical and Optical Properties

et al. 2022

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“… 55 , 56 One of the scalable alternatives to the lab-scale mechanochemical synthesis is eccentric vibratory milling 57 and it has been sufficiently applied to prepare both sulfides 58 − 65 and selenides. 66 …”

Section: Introductionmentioning

confidence: 99%

“…There are many synthetic pathways for sulfide nanoscale production, ,, among which a scalable, solvent-free one-step methodology called mechanochemical synthesis has found an inevitable place. , One of the scalable alternatives to the lab-scale mechanochemical synthesis is eccentric vibratory milling and it has been sufficiently applied to prepare both sulfides − and selenides …”

Section: Introductionmentioning

confidence: 99%

Ternary and Quaternary Nanocrystalline Cu-Based Sulfides as Perspective Antibacterial Materials Mechanochemically Synthesized in a Scalable Fashion

et al. 2022

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Twelve Cu-based ternary (Cu–Me 1 –S, Me 1 = Fe, Sn, or Sb) and quaternary (Cu–Me 2 –Sn–S, Me 2 = Fe, Zn, or V) nanocrystalline sulfides are shown as perspective antibacterial materials here. They were prepared from elemental precursors by a one-step solvent-free mechanochemical synthesis in a 100 g batch using scalable eccentric vibratory ball milling. Most of the products have shown strong antibacterial activity against Escherichia coli and Staphylococcus aureus bacteria. For instance, stannite Cu 2 FeSnS 4 and mohite Cu 2 SnS 3 were the most active against E. coli , whereas kesterite Cu 2 ZnSnS 4 and rhodostannite Cu 2 FeSn 3 S 8 exhibited the highest antibacterial activity against S. aureus . In general, stannite has shown the best antibacterial properties out of all the studied samples. Five out of twelve products have been prepared using mechanochemical synthesis for the first time in a scalable fashion here. The presented synthetic approach is a promising alternative to traditional syntheses of nanomaterials suitable for biological applications and shows ternary and quaternary sulfides as potential candidates for the next-generation antibacterial agents.

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“…As an important semiconductor, copper selenide (Cu x Se) with nanostructure has potential applications in various fields, such as optical filters, highly efficient solar cells, superionic conductors, electro-optical devices, photothermal conversion, microwave shielding coatings, etc. [15,16].…”

Section: Introductionmentioning

confidence: 99%

Effect of Copper Selenide Modification on the Conductivity of PA6, PA66, PAN, and PES Fibers

2022

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Textile production has been steadily increasing for a few decades and, as a result, the amount of industrial textile waste is also increasing. This waste can be reused as raw material to produce new functional composites. Such materials can be used for special purposes with varying combinations of physical and chemical properties by using polymers modified with thin semiconductive or electrically conductive layers of binary inorganic compounds. In this paper, a study of the possibilities of altering the properties of synthetic fiber conductivity by modification with copper selenide is presented. A two-step adsorption/diffusion method was used for the copper selenide layer forming on the surface of the fibers. The treatment process was repeated cyclically. To evaluate the morphological properties of CuxSe treated fibers, scanning electron microscopy (SEM) and energy dispersion X-ray (EDX) were performed. The study showed that the chosen modification method is more suitable for PA and PAN fibers. Dense layers of copper selenides were successfully formed on their surface, which significantly reduced their electrical resistance.

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Comparative Study of Nanostructured CuSe Semiconductor Synthesized in a Planetary and Vibratory Mill

Cited by 15 publications

References 43 publications

Mechanochemical Synthesis of Nickel Mono- and Diselenide: Characterization and Electrical and Optical Properties

Mechanochemical Synthesis of Nickel Mono- and Diselenide: Characterization and Electrical and Optical Properties

Ternary and Quaternary Nanocrystalline Cu-Based Sulfides as Perspective Antibacterial Materials Mechanochemically Synthesized in a Scalable Fashion

Effect of Copper Selenide Modification on the Conductivity of PA6, PA66, PAN, and PES Fibers

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