Synthesis and Characterization of ZnO-Nanostructured Particles Produced by Solar Ablation

Schiopu, Adriana-Gabriela; Oproescu, Mihai; Iana, Vasile Gabriel; Ducu, Catalin Marian; Moga, Sorin Georgian; Vîlcoci, Denisa Stefania; Cîrstea, Georgiana; Calinescu, Valentin Marian; Ahmed, Omar

doi:10.3390/ma16196417

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2024

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Cited by 3 publications

References 67 publications

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Sol–gel auto-combustion synthesis of ZnO nanoparticles fabricated with Eucalyptus honey and Longan honey as combustion fuels for water treatment

Murthy,

Krishna,

Chandrakala

et al. 2024

Chem. Pap.

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Sol–gel auto-combustion synthesis of ZnO nanoparticles fabricated with Eucalyptus honey and Longan honey as combustion fuels for water treatment

Murthy,

Krishna,

Chandrakala

et al. 2024

Chem. Pap.

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Biogenic synthesis of zinc oxide

OnacheVijan,

Pitești

2024

2024 16th International Conference on Electronics, Computers and Artificial Intelligence (ECAI)

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Employment of Low‐Temperature Concentrated Solar Heat to Synthesize Zinc Oxide Nanostructures

Villa-Miranda,

Carranza-Chávez,

Sauceda-Carvajal

et al. 2024

Journal of Nanotechnology

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The use of solar heat as energy input for the synthesis of some types of nanomaterials with great demand provides an alternative to the utilization of energy from the grid or other sources, which often come from fossil fuels. Thus, it can be seen as a valid approach to green chemistry. In this work, the synthesis of zinc oxide (ZnO) through a wet chemical method, using low‐temperature solar heat is investigated. The concept of compound parabolic concentrator was employed to construct a solar collector which also served as a synthesis reactor. Solar radiation was concentrated on the outer surface of a tubular receiver, while the synthesis reaction occurred inside. The natural fluctuations of solar radiation caused the synthesis temperature to vary between 50 and 70°C. Three solar syntheses were done at these conditions. For comparison, three other syntheses were done at 50, 60, and 70°C of constant temperature, in an electric hot plate, under controlled laboratory conditions and using electricity from the grid. Crystalline clusters of nanoflakes with sizes between 40.4 and 55.7 nm of pure ZnO were obtained using solar heat, remarkably similar in shape and size to those made in the laboratory at 50°C. However, a slightly lower bandgap energy of 3.27 eV was attained. The band gap energies of the ZnO grown at 50, 60, and 70°C were 3.28, 3.31, and 3.29 eV, respectively. In the ultraviolet range, nearly 90% of absorbance was observed for all the ZnO manufactured, regardless of the synthesis temperature. Therefore, these results may help demonstrate that it is feasible to produce high‐quality ZnO with low‐temperature solar heat, establishing a new green approach for the synthesis of nanomaterials.

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Synthesis and Characterization of ZnO-Nanostructured Particles Produced by Solar Ablation

Cited by 3 publications

References 67 publications

Sol–gel auto-combustion synthesis of ZnO nanoparticles fabricated with Eucalyptus honey and Longan honey as combustion fuels for water treatment

Sol–gel auto-combustion synthesis of ZnO nanoparticles fabricated with Eucalyptus honey and Longan honey as combustion fuels for water treatment

Biogenic synthesis of zinc oxide

Employment of Low‐Temperature Concentrated Solar Heat to Synthesize Zinc Oxide Nanostructures

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