Apr 11, 2017 · Bioprospecting of Neem and Hibiscus against Corrosion Caused By Soil Microbes on Zinc and Its Alloys Buried In Soil. Authors: R. Prasanna.
Abstract: This study concerns with the role of corrosion product deposition in microbial corrosion between zinc and its alloys buried in the soil and soil ...
Missing: published | Show results with:published
Feb 2, 2017 · The present investigation was carried out about the corrosion inhibition and adsorption behavior of Neem and Hibiscus, as a green inhibitor ...
Missing: Soil Alloys Buried IJARIIT
Aug 17, 2020 · The present study envisages developing microbial inoculant approach for agriculture in Zn contaminated soils. Potential zinc tolerant bacteria ( ...
Missing: Bioprospecting Neem Hibiscus Corrosion Buried IJARIIT
Jul 18, 2024 · Bioprospecting of soil-borne microorganisms and chemical dereplication of their anti-microbial constituents with the aid of UPLC-QTOF-MS and molecular ...
Missing: Neem Hibiscus Corrosion Zinc Alloys Buried IJARIIT
Jul 27, 2022 · The adverse impact of heavy metals on the soil microbiome and its activity was alleviated by the applied sorbents.
Missing: Bioprospecting Neem Hibiscus Buried IJARIIT
Mar 18, 2024 · Some soil bacteria can acquire sets of genes that enable them to pump the heavy metal nickel out of their systems, a study has found.
Missing: Bioprospecting Neem Hibiscus Corrosion Zinc Alloys Buried IJARIIT
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