These are the sources and citations used to research knksba. This bibliography was generated on Cite This For Me on

  • Journal

    Al-Qahtani, K. M.

    Cadmium removal from aqueous solution by green synthesis zero valent silver nanoparticles with Benjamina leaves extract

    2017 - The Egyptian Journal of Aquatic Research

    In-text: (Al-Qahtani, 2017)

    Your Bibliography: Al-Qahtani, K., 2017. Cadmium removal from aqueous solution by green synthesis zero valent silver nanoparticles with Benjamina leaves extract. The Egyptian Journal of Aquatic Research, 43(4), pp.269-274.

  • Journal

    Balakrishnan, G. S., Rajendran, K. and Kalirajan, J.

    Microbial synthesis of magnetite nanoparticles for arsenic removal

    2020 - Journal of Applied Biology & Biotechnology

    In-text: (Balakrishnan, Rajendran and Kalirajan, 2020)

    Your Bibliography: Balakrishnan, G., Rajendran, K. and Kalirajan, J., 2020. Microbial synthesis of magnetite nanoparticles for arsenic removal. Journal of Applied Biology & Biotechnology, 8(3), pp.70-75.

  • Journal

    Chidambaram, D., Hennebel, T., Taghavi, S., Mast, J., Boon, N., Verstraete, W., van der Lelie, D. and Fitts, J. P.

    Concomitant Microbial Generation of Palladium Nanoparticles and Hydrogen To Immobilize Chromate

    2010 - Environmental Science & Technology

    In-text: (Chidambaram et al., 2010)

    Your Bibliography: Chidambaram, D., Hennebel, T., Taghavi, S., Mast, J., Boon, N., Verstraete, W., van der Lelie, D. and Fitts, J., 2010. Concomitant Microbial Generation of Palladium Nanoparticles and Hydrogen To Immobilize Chromate. Environmental Science & Technology, 44(19), pp.7635-7640.

  • Journal

    Choudhury, P. R., Bhattacharya, P., Ghosh, S., Majumdar, S., Saha, S. and Sahoo, G. C.

    Removal of Cr (VI) by synthesized titania embedded dead yeast nanocomposite: Optimization and modeling by response surface methodology

    2017 - Journal of Environmental Chemical Engineering

    In-text: (Choudhury et al., 2017)

    Your Bibliography: Choudhury, P., Bhattacharya, P., Ghosh, S., Majumdar, S., Saha, S. and Sahoo, G., 2017. Removal of Cr (VI) by synthesized titania embedded dead yeast nanocomposite: Optimization and modeling by response surface methodology. Journal of Environmental Chemical Engineering, 5(1), pp.214-221.

  • Journal

    Kim, H. K., Jeong, S., Yang, J. E. and Choi, Y. J.

    Highly Efficient and Stable Removal of Arsenic by Live Cell Fabricated Magnetic Nanoparticles

    2019 - International Journal of Molecular Sciences

    In-text: (Kim, Jeong, Yang and Choi, 2019)

    Your Bibliography: Kim, H., Jeong, S., Yang, J. and Choi, Y., 2019. Highly Efficient and Stable Removal of Arsenic by Live Cell Fabricated Magnetic Nanoparticles. International Journal of Molecular Sciences, 20(14), p.3566.

  • Journal

    Mukherjee, D., Ghosh, S., Majumdar, S. and Annapurna, K.

    Green synthesis of α-Fe 2 O 3 nanoparticles for arsenic(V) remediation with a novel aspect for sludge management

    2016 - Journal of Environmental Chemical Engineering

    In-text: (Mukherjee, Ghosh, Majumdar and Annapurna, 2016)

    Your Bibliography: Mukherjee, D., Ghosh, S., Majumdar, S. and Annapurna, K., 2016. Green synthesis of α-Fe 2 O 3 nanoparticles for arsenic(V) remediation with a novel aspect for sludge management. Journal of Environmental Chemical Engineering, 4(1), pp.639-650.

  • Journal

    Ravikumar, K. V. G., Kumar, D., Kumar, G., Mrudula, P., Natarajan, C. and Mukherjee, A.

    Enhanced Cr(VI) Removal by Nanozerovalent Iron-Immobilized Alginate Beads in the Presence of a Biofilm in a Continuous-Flow Reactor

    2016 - Industrial & Engineering Chemistry Research

    In-text: (Ravikumar et al., 2016)

    Your Bibliography: Ravikumar, K., Kumar, D., Kumar, G., Mrudula, P., Natarajan, C. and Mukherjee, A., 2016. Enhanced Cr(VI) Removal by Nanozerovalent Iron-Immobilized Alginate Beads in the Presence of a Biofilm in a Continuous-Flow Reactor. Industrial & Engineering Chemistry Research, 55(20), pp.5973-5982.

  • Journal

    San Keskin, N. O., Celebioglu, A., Sarioglu, O. F., Uyar, T. and Tekinay, T.

    Encapsulation of living bacteria in electrospun cyclodextrin ultrathin fibers for bioremediation of heavy metals and reactive dye from wastewater

    2018 - Colloids and Surfaces B: Biointerfaces

    In-text: (San Keskin et al., 2018)

    Your Bibliography: San Keskin, N., Celebioglu, A., Sarioglu, O., Uyar, T. and Tekinay, T., 2018. Encapsulation of living bacteria in electrospun cyclodextrin ultrathin fibers for bioremediation of heavy metals and reactive dye from wastewater. Colloids and Surfaces B: Biointerfaces, 161, pp.169-176.

  • Journal

    Sethy, N. K., Arif, Z., Mishra, P. K. and Kumar, P.

    Green synthesis of TiO2 nanoparticles from Syzygium cumini extract for photo-catalytic removal of lead (Pb) in explosive industrial wastewater

    2020 - Green Process Synth

    In-text: (Sethy, Arif, Mishra and Kumar, 2020)

    Your Bibliography: Sethy, N., Arif, Z., Mishra, P. and Kumar, P., 2020. Green synthesis of TiO2 nanoparticles from Syzygium cumini extract for photo-catalytic removal of lead (Pb) in explosive industrial wastewater. Green Process Synth, 9, pp.171-181.

  • Journal

    Somu, P. and Paul, S.

    Casein based biogenic-synthesized zinc oxide nanoparticles simultaneously decontaminate heavy metals, dyes, and pathogenic microbes: a rational strategy for wastewater treatment

    2018 - Journal of Chemical Technology & Biotechnology

    In-text: (Somu and Paul, 2018)

    Your Bibliography: Somu, P. and Paul, S., 2018. Casein based biogenic-synthesized zinc oxide nanoparticles simultaneously decontaminate heavy metals, dyes, and pathogenic microbes: a rational strategy for wastewater treatment. Journal of Chemical Technology & Biotechnology, 93(10), pp.2962-2976.

  • Journal

    Subramaniyam, V., Subashchandrabose, S. R., Thavamani, P., Megharaj, M., Chen, Z. and Naidu, R.

    Chlorococcum sp. MM11—a novel phyco-nanofactory for the synthesis of iron nanoparticles

    2015 - Journal of Applied Phycology

    In-text: (Subramaniyam et al., 2015)

    Your Bibliography: Subramaniyam, V., Subashchandrabose, S., Thavamani, P., Megharaj, M., Chen, Z. and Naidu, R., 2015. Chlorococcum sp. MM11—a novel phyco-nanofactory for the synthesis of iron nanoparticles. Journal of Applied Phycology, 27(5), pp.1861-1869.

  • Journal

    Venkateswarlu, S., Himagirish Kumar, S. and Jyothi, N.

    Rapid removal of Ni(II) from aqueous solution using 3-Mercaptopropionic acid functionalized bio magnetite nanoparticles

    2015 - Water Resources and Industry

    In-text: (Venkateswarlu, Himagirish Kumar and Jyothi, 2015)

    Your Bibliography: Venkateswarlu, S., Himagirish Kumar, S. and Jyothi, N., 2015. Rapid removal of Ni(II) from aqueous solution using 3-Mercaptopropionic acid functionalized bio magnetite nanoparticles. Water Resources and Industry, 12, pp.1-7.

  • Journal

    Wang, X., Zhang, D., Qian, H., Liang, Y., Pan, X. and Gadd, G. M.

    Interactions between biogenic selenium nanoparticles and goethite colloids and consequence for remediation of elemental mercury contaminated groundwater

    2018 - Science of The Total Environment

    In-text: (Wang et al., 2018)

    Your Bibliography: Wang, X., Zhang, D., Qian, H., Liang, Y., Pan, X. and Gadd, G., 2018. Interactions between biogenic selenium nanoparticles and goethite colloids and consequence for remediation of elemental mercury contaminated groundwater. Science of The Total Environment, 613-614, pp.672-678.

  • Journal

    Yadav, V. K. and Fulekar, M.

    Biogenic synthesis of maghemite nanoparticles (γ-Fe2O3) using Tridax leaf extract and its application for removal of fly ash heavy metals (Pb, Cd)

    2018 - Materials Today: Proceedings

    In-text: (Yadav and Fulekar, 2018)

    Your Bibliography: Yadav, V. and Fulekar, M., 2018. Biogenic synthesis of maghemite nanoparticles (γ-Fe2O3) using Tridax leaf extract and its application for removal of fly ash heavy metals (Pb, Cd). Materials Today: Proceedings, pp.20704-20710.

  • Journal

    Yan, F., Wu, C., Cheng, Y., He, Y., Li, W. and Yu, H.

    Carbon nanotubes promote Cr(VI) reduction by alginate-immobilized Shewanella oneidensis MR-1

    2013 - Biochemical Engineering Journal

    In-text: (Yan et al., 2013)

    Your Bibliography: Yan, F., Wu, C., Cheng, Y., He, Y., Li, W. and Yu, H., 2013. Carbon nanotubes promote Cr(VI) reduction by alginate-immobilized Shewanella oneidensis MR-1. Biochemical Engineering Journal, 77, pp.183-189.

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