Biological approach synthesis and characterization of iron sulfide (FeS) thin films from banana peel extracting for contamination of environmental remediation


  • Gonçalves, RA, Toledo, RP, Joshi, N. & Berengue, OM Green synthesis and applications of ZnO and TiO2 nanostructures. Molecules 26(8), 2236 (2021).

    Article Google Scholar

  • Awan, S. et al. A preliminary study of influence of zinc oxide nanoparticles on growth parameters of Brassica oleracea var italic. J. Sau. Soc. Agric. Sci. 20(1), 18–24 (2021).

    Google Scholar

  • Raafat, M., El-Sayed, AS & El-Sayed, MT Biosynthesis and anti-mycotoxigenic activity of zingiber officinale roscoe-derived metal nanoparticles. Molecules 26(8), 2290 (2021).

    CAS Article Google Scholar

  • Ahmad, S. et al. Green nanotechnology: A review on green synthesis of silver nanoparticles: An ecofriendly approach. Int. J. Nanomed. 145087 (2019).

    CAS Article Google Scholar

  • Abbasian, R. & Jafarizadeh-Malmiri, H. Green approach in gold, silver and selenium nanoparticles using coffee bean extract. Open Agric. 5(1), 761–767 (2020).

    Article Google Scholar

  • Painuli, S., Semwal, P., Bachheti, A., Bachheti, RK & Husen, A. Nanomaterials from non-wood forest products and their applications. In Nanomaterials for Agriculture and Forestry Applications 15–40 (2020).

  • Devasia, J., Muniswamy, B. & Mishra, MK Investigation of ZnO nanoparticles on in vitro cultures of coffee (Coffea Arabica L.). Int. J. NanoSci. Nano. 16(4), 271–277 (2020).

    CAS Google Scholar

  • Rossi, L., Fedenia, LN, Sharifan, H., Ma, X. & Lombardini, L. Effects of foliar application of zinc sulfate and zinc nanoparticles in coffee (Coffea arabica L.) plants. Plant Phys. Biochem. 135160–166 (2019).

    CAS Article Google Scholar

  • García-López, JI et al. Foliar application of zinc oxide nanoparticles and zinc sulfate boosts the content of bioactive compounds in habanero peppers. Plants. 8(8), 254 (2019).

    Article Google Scholar

  • Mosquera-Sánchez, LP et al. Antifungal effect of zinc oxide nanoparticles (ZnO-NPs) on Colletotrichum sp., causal agent of anthracnose in coffee crops. Biocat. Agric. Biotech. 25101579 (2020).

    Article Google Scholar

  • Singh, R., Hano, C., Nath, G. & Sharma, B. Green biosynthesis of silver nanoparticles using leaf extract of Carissa carandas L. and their antioxidant and antimicrobial activity against human pathogenic bacteria. Biomolecules 11299 (2021).

    CAS Article Google Scholar

  • Bacco, M., Barsocchi, P., Ferro, E., Gotta, A. & Ruggeri, M. The digitization of agriculture: A survey of research activities on smart farming. Array 3100009 (2019).

    Article Google Scholar

  • Ambisa, Z., Tesfa, B., Olani, T. & Abdeta, D. Review on the production and marketing of banana in Ethiopia. World J. Agric. Soil. Sci. 21 (2019).

    Google Scholar

  • Irshad, S. et al. Biosynthesis of ZnO nanoparticles using Ocimum basilicum and determination of its antimicrobial activity. J. Anim. Plant Sci 301185–191 (2020).

    Google Scholar

  • Marimuthu, S. et al. Silver nanoparticles in dye effluent treatment: A review on synthesis, treatment methods, mechanisms, photocatalytic degradation, toxic effects and mitigation of toxicity. J. Photochem. Photobiol. B Biol. 205111,823 (2020).

    CAS Article Google Scholar

  • Vinayagam, R., Pai, S., Varadavenkatesan, T., Pugazhendhi, A. & Selvaraj, R. Characterization and photocatalytic activity of ZnO nanoflowers synthesized using Bridelia retusa leaf extract. Apple. NanoSci. 20211–10 (2021).

    Google Scholar

  • Ngom, I. et al. On the use of moringa oleifera leaves extract for the biosynthesis of NiO and ZnO nanoparticles. MRS Adv. 5(21–22), 1145–1155 (2020).

    CAS Article Google Scholar

  • Li, J. et al. Influence of α-and γ-Fe 2 O 3 nanoparticles on watermelon (Citrullus lanatus) physiology and fruit quality. Water Air Soil Pol. 231(4), 1–12 (2020).

    ADS Google Scholar

  • Klomchit, A., Calderin, JD, Jaidee, W., Watla-Iad, K. & Brooks, S. Napthoquinones from Neocosmospora sp.—Antibiotic activity against acidovorax citrulli, the causative agent of bacterial fruit blotch in watermelon and melon. J. Fungi. 7(5), 370 (2021).

    CAS Article Google Scholar

  • Bhattacharjee, C., Dutta, S. & Saxena, VK A review on biosorptive removal of dyes and heavy metals from wastewater using watermelon rind as biosorbent. Environ. Adv. 2100007 (2020).

    Article Google Scholar

  • Dejen, KD, Zereffa, EA, Murthy, HA & Merga, A. Synthesis of ZnO and ZnO/PVA nano composite using aqueous Moringa oleifeira Leaf extract template: Antibacterial and electrochemical activities. Rev. Adv. Mater. Sci. 59(1), 464–476 (2020).

    CAS Article Google Scholar

  • Bakir, A., Hamimed, S., Landoulsi, A. & Chatti, A. Biogenic zinc oxide nano-structures differentiation under musical sounds (preprint). Res. Sqr (2021).

  • Nurman, S., Yulia, R., Irmayanti, I., Noor, E. & Candra Sunarti, T. Optimizing anti-inflammatory activities of arabica coffee ground (Coffea arabica L) nanoparticle gel. Jundishapur J. Nat. Pharm. Prod. 16(2), e102673 (2021).

    CAS Article Google Scholar

  • Pavelkova, R., Matouskova, P., Hoova, J., Porizka, J. & Marova, I. Preparation and characterization of organic UV filters based on combined PHB/liposomes with natural phenolic compounds. J. Biotech. X. 7100021 (2020).

    CAS Article Google Scholar

  • Desalegn, T., Ravikumar, CR & Murthy, HA Eco-friendly synthesis of silver nanostructures using medicinal plant Vernonia amygdalina Del. leaf extract for multifunctional applications. Apple. Nanosci. 11(2), 535–551 (2021).

    ADS CAS Article Google Scholar

  • Song, C. et al. Metabolic profile and physiological response of cucumber foliar exposed to engineered MoS2 and TiO2 nanoparticles. NanoImpact 20100271 (2020).

    Article Google Scholar

  • Baghaienezhad, M., Boroghani, M. & Anabestani, R. Silver nanoparticles synthesis by coffee residues extract and their antibacterial activity. Nano. Res. J. 5(1), 29–34 (2020).

    CAS Google Scholar

  • Garrido-Hernández, A. et al. Effect of europium on the blue–green emission of ZnS thin films by polyol and dip-coating technique. Mater. Sci. Semicond. Process. 121105403 (2021).

    Article Google Scholar

  • Naseema, K., Ribin, K., Navya, N. & Prasannan, P. Catalytic growth and photoluminescence properties of ZnS nanowires. Z. Naturfor. Teil A. 76(1), 65–73 (2021).

    ADS CAS Article Google Scholar

  • Onochie, UP et al. Analysis of optical band gap and urbach tail of zinc sulphide coated with aqueous and organic dye extracts prepared by chemical bath deposition technique. Opt. Mater. 114110,970 (2021).

    CAS Article Google Scholar

  • Vargas-Rueda, JA, Alonso, AR, Meléndez-Zamudio, M. & Meléndez-Lira, M. Chemical stability diagrams as a powerful tool to the synthesis of Cu2SnS3 thin films by chemical bath deposition. Mat. Chem. Phy. 124478 (2021).

  • Vall, C et al. Effect of chromium percentage doping on the optical, structural, morphological and electrical properties of ZnS: Cr thin films. Phys. E Low Dimen. Syst. Nanostruct. 130114694 (2021).

    Article Google Scholar

  • Benyahia, K. et al. Microstructured ZnO-ZnS composite for earth-abundant photovoltaics: Elaboration, surface analysis and enhanced optical performances. Sol. Energy 218312–319 (2021).

    ADS CAS Article Google Scholar

  • Offor, PO et al. Effect of concentration of trisodium citrate complexing agent on spray-synthesized ZnS thin films. Mater. Today Proc. 36133–140 (2021).

    CAS Article Google Scholar

  • Abdulrahman, AF, Ahmed, SM, Hamad, SM & Barzinjy, AA Effect of growth temperature on morphological, structural, and optical properties of ZnO nanorods using modified chemical deposition method. J. Electron. Mater. 501–14 (2021).

    Article Google Scholar

  • Maria, KH, Sultana, P. & Asfia, MB Chemical bath deposition of aluminum doped zinc sulfide thin films using non-toxic complexing agent: Effect of aluminum doping on optical and electrical properties. AIP Adv. 10(6), 065315 (2020).

    ADS CAS Article Google Scholar

  • Kim, J. et al. Role of hydrazine in the enhanced growth of zinc sulfide thin films using chemical bath deposition for Cu (In, Ga) Se2 solar cell application. Mater. Sci. Semicond. Process. 105104729 (2020).

    CAS Article Google Scholar

  • Arandhara, G., Bora, J. & Saikia, PK Effect of pH on the crystallite size, elastic properties and morphology of nanostructured ZnS thin films prepared by chemical bath deposition technique. Mat. Chem. Phy. 241122277 (2020).

    CAS Article Google Scholar

  • Trejo-Ramos, AI, González-Chan, IJ & Oliva, AI Physical properties of chemically deposited ZnS thin films: Role of the solubility curves and species distribution diagrams. Mater. Sci. Semicond. Process. 118105207 (2020).

    CAS Article Google Scholar

  • Geremew, T. & Abza, T. Microstructural and optical characterization of heterostructures of ZnS/CdS and CdS/ZnS synthesized by chemical bath deposition method. Adv. Mater. Sci. Eng. 20201–11 (2020).

    Article Google Scholar

  • Benamra, H. et al. Physical properties of Al-doped ZnS thin films prepared by ultrasonic spray technique. Surf. Interfaces 21100645 (2020).

    CAS Article Google Scholar

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