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Journal Abstract Search

415 related items for PubMed ID: 27130471

  • 1.
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  • 3. The potential of bacterial microcompartment architectures for phytonanotechnology.
    Raba DA, Kerfeld CA.
    Environ Microbiol Rep; 2022 Oct; 14(5):700-710. PubMed ID: 35855583
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  • 5. Perspectives for nano-biotechnology enabled protection and nutrition of plants.
    Ghormade V, Deshpande MV, Paknikar KM.
    Biotechnol Adv; 2011 Oct; 29(6):792-803. PubMed ID: 21729746
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  • 7. Fungi-derived agriculturally important nanoparticles and their application in crop stress management - Prospects and environmental risks.
    Sonawane H, Shelke D, Chambhare M, Dixit N, Math S, Sen S, Borah SN, Islam NF, Joshi SJ, Yousaf B, Rinklebe J, Sarma H.
    Environ Res; 2022 Sep; 212(Pt D):113543. PubMed ID: 35613631
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  • 8. Nanotechnology for sustainable agro-food systems: The need and role of nanoparticles in protecting plants and improving crop productivity.
    Guleria G, Thakur S, Shandilya M, Sharma S, Thakur S, Kalia S.
    Plant Physiol Biochem; 2023 Jan; 194():533-549. PubMed ID: 36521290
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  • 9. Plant development and crop protection using phytonanotechnology: A new window for sustainable agriculture.
    Agrawal S, Kumar V, Kumar S, Shahi SK.
    Chemosphere; 2022 Jul; 299():134465. PubMed ID: 35367229
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  • 10. Nanoparticles in sustainable agriculture: An emerging opportunity.
    Singh RP, Handa R, Manchanda G.
    J Control Release; 2021 Jan 10; 329():1234-1248. PubMed ID: 33122001
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  • 11. Biosynthesized metal oxide nanoparticles for sustainable agriculture: next-generation nanotechnology for crop production, protection and management.
    Maity D, Gupta U, Saha S.
    Nanoscale; 2022 Oct 06; 14(38):13950-13989. PubMed ID: 36124943
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  • 13. Nanotechnology for parasitic plant control.
    Pérez-de-Luque A, Rubiales D.
    Pest Manag Sci; 2009 May 06; 65(5):540-5. PubMed ID: 19255973
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  • 14. Nanotechnology: The new perspective in precision agriculture.
    Duhan JS, Kumar R, Kumar N, Kaur P, Nehra K, Duhan S.
    Biotechnol Rep (Amst); 2017 Sep 06; 15():11-23. PubMed ID: 28603692
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  • 15. Mesoporous silica nanoparticles deliver DNA and chemicals into plants.
    Torney F, Trewyn BG, Lin VS, Wang K.
    Nat Nanotechnol; 2007 May 06; 2(5):295-300. PubMed ID: 18654287
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  • 16. Critical analysis of biophysicochemical parameters for qualitative improvement of phytogenic nanoparticles.
    Maity S, Adhikari M, Banerjee S, Guchhait R, Chatterjee A, Pramanick K.
    Biotechnol Prog; 2021 Mar 06; 37(2):e3114. PubMed ID: 33345468
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  • 17. Current applications of nanotechnology to develop plant growth inducer agents as an innovation strategy.
    Fincheira P, Tortella G, Duran N, Seabra AB, Rubilar O.
    Crit Rev Biotechnol; 2020 Feb 06; 40(1):15-30. PubMed ID: 31658818
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  • 18. Biosynthesis and characterization of nanoparticles, its advantages, various aspects and risk assessment to maintain the sustainable agriculture: Emerging technology in modern era science.
    Mitra D, Adhikari P, Djebaili R, Thathola P, Joshi K, Pellegrini M, Adeyemi NO, Khoshru B, Kaur K, Priyadarshini A, Senapati A, Del Gallo M, Das Mohapatra PK, Nayak AK, Shanmugam V, Panneerselvam P.
    Plant Physiol Biochem; 2023 Mar 06; 196():103-120. PubMed ID: 36706690
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  • 19. Nanotechnology advances for sustainable agriculture: current knowledge and prospects in plant growth modulation and nutrition.
    Fincheira P, Tortella G, Seabra AB, Quiroz A, Diez MC, Rubilar O.
    Planta; 2021 Sep 07; 254(4):66. PubMed ID: 34491441
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  • 20. Exploring Sustainable Agriculture with Nitrogen-Fixing Cyanobacteria and Nanotechnology.
    Nawaz T, Gu L, Fahad S, Saud S, Bleakley B, Zhou R.
    Molecules; 2024 May 28; 29(11):. PubMed ID: 38893411
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