Journal of Petroleum & Environmental Biotechnology

Sidorowicz A, Maqbool Q, Nazar M. Future of Nanofertilizer. InNanotechnology for Agriculture: Crop Production & Protection 2019 (pp. 143-152). Springer, Singapore.

Al-whaibi M, Mohammad F. Role of Nanoparticles in Plants.

Jalill RD, Yousef AM. Research Article Comparison the Phytotoxicity of TiO2 nanoparticles with bulk particles on Amber 33 variety of rice (Oryza sativa) in vitro.

Iranmanesh M, Beyraghdar A, Mahmoodzadeh H. Effects of different concentrations of titanium oxide nanoparticles and bulk on germination characteristics and antioxidant enzymes activity of Avena Sativa L. seeds. Agricultural Engineering. 2021 Jan 20;24(1):01.

Hermes PH, Gabriela MP, Denisse VG, Ileana VR, Fabián FL. Edible Crop Production by Nanotechnology: Is It a Sustainable Technology for Healthy Soil?. InIntellectual Property Issues in Nanotechnology 2020 Sep 8 (pp. 11-40). CRC Press.

Jamal NN, Duncan E, Owens G. Application of Metal Oxide Nanomaterials in Agriculture: Benefit or Bane?. Nanomaterial Biointeractions at the Cellular, Organismal and System Levels. 2021:231.

Khan M, Khan MS, Borah KK, Goswami Y, Hakeem KR, Chakrabartty I. The potential exposure and hazards of metal-based nanoparticles on plants and environment: A review. Environmental Advances. 2021 Oct 14:100128.

Mattiello A, Marchiol L. PhD research in Agro-Environmental Science Cycle XXVIII Coordinator: prof. ssa Maria De Nobili.

Rawat S. Effects of Unweathered or Soil Weathered Copper–Based Nanoparticles and Compounds on Soil Grown Bell Pepper (Capsicum annuum) and Spinach (Spinacia oleracea) Plants (Doctoral dissertation, The University of Texas at El Paso).

Jahani M, Khavari-Nejad RA, Mahmoodzadeh H, Saadatmand S. Investigation of Seed Germination, Early Growth and Physio-Biochemical Parameters of Canola Seedling Exposed to Co3O4 Engineered Nanoparticles. Journal of Chemical Health Risks. 2020 Dec 20.

SOTOODEHNIA P. EFFECTS OF NANO SILVER AS BACTERICIDE ON BENEFICIAL BACTERIA, UPTAKE BY PLANT AND IMPACT ON PLANT GROWTH.

Liu J. Interactive Effects of Copper Oxide Nanoparticles and Arsenic on Rice (O. sativa japonica’Koshihikari’) Plant Growth and Development (Doctoral dissertation, Baylor University).

Kong IC, Shi YT, Lee MK, Kang IM. Bioassessment of Heavy Metals, Nanoparticles, and Soils Contaminated with Metals using Various Bioassays. Economic and Environmental Geology. 2015;48(3):261-71.

Peyravi M, Jahanshahi M, Eslami AB. Toxicity of Nanomaterials in Plants and Environment. InPlant Nanobionics 2019 (pp. 377-407). Springer, Cham.

Jha S. Plant-Nanoparticles (Np) Interactions—a Review: Insights into Developmental, Physiological, and Molecular Aspects of Np Phytotoxicity. Sustainable Biological Systems for Agriculture. 2018 May 3:83-120.

Jha S. Plant-Nanoparticles (Np) Interactions—a Review: Insights into Developmental, Physiological, and Molecular Aspects of Np Phytotoxicity. Sustainable Biological Systems for Agriculture. 2018 May 3:83-120.

Adhikari K, Mahato GR, Chen H, Sharma HC, Chandel AK, Gao B. Nanoparticles and Their Impacts on Seed Germination. Plant Responses to Nanomaterials: Recent Interventions, and Physiological and Biochemical Responses. 2021 May 3:21-31.

Heikal YM, ?u?an NA. Mechanisms of Genotoxicity and Oxidative Stress Induced by Engineered Nanoparticles in Plants. InInduced Genotoxicity and Oxidative Stress in Plants 2021 (pp. 151-197). Springer, Singapore.

Chowdhury MA, Shuvho MB, Hossain MI, Ali MO, Kchaou M, Rahman A, Yeasmin N, Khan AS, Rahman MA, Mofijur M. Multiphysical analysis of nanoparticles and their effects on plants. Biotechnology and applied biochemistry. 2020 Oct 5.

Maddah B. The Novel Synthesis Route for 3-Poly (vinylbenzyl)-5, 5-Dimethylimidazolidine-2, 4-dione Nanofibers and Study of Its Antibacterial Properties. Journal of Chemical Health Risks. 2016 Jan 26;6(1).