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Bacterial MgSe complex nanoparticle synthesis and electrical characterization of fabricated Ag/MgSe/p-Si hetero-structure under dark and illumination. | LitMetric

AI Article Synopsis

  • The OG1 bacterial strain was utilized to synthesize MgSe compound nanoparticles, which were then transformed into nanocrystalline MgSe films for various property assessments.
  • Characterization revealed that these films have a high-quality polycrystalline structure and a direct band gap of 2.53 eV, indicating good optical properties when applied to glass substrates.
  • The created Ag/MgSe/p-Si diode demonstrated excellent photoresponse and stable performance under different lighting conditions, suggesting that this green synthesis method could provide an economical solution for photonic applications.

Article Abstract

The OG1 strain was used in the bacterial synthesis of MgSe compound nanoparticles. The obtained samples were subsequently shaped into nanocrystalline MgSe films, and their optical, structural, morphological, and electrical properties were assessed on glass and p-Si substrates. Structural and morphological characterizations showed that the fabricated thin film samples have a polycrystalline structure with high quality and uniform grain sizes. The MgSe films produced on glass substrates exhibit a direct spectral band gap of 2.53 eV, according to optical measurements. The Ag/MgSe/p-Si layered diode structure was fabricated using the produced MgSe nanoparticles and then characterized by electrical properties. Electrical measurements were carried out under these two conditions to assess the effects of dark and illumination conditions on the band dynamics of the heterostructure devices. Under illumination, the barrier height decreased while the interface density states distribution increased. These measurements showed that using bacterial-assisted grown MgSe nanocrystalline films, the developed Ag/MgSe/p-Si device structure exhibited a remarkable photoresponse and stable rectifying property. Green synthesis methods for the production of these nanocrystalline materials have the potential to offer low-cost alternatives for photosensitive applications.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10654244PMC
http://dx.doi.org/10.1016/j.heliyon.2023.e21678DOI Listing

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