Encapsulated Nanomaterial and Plant Interfaces

Renato Grillo · Durgesh Kumar Tripathi

2026年1月 · Academic Press

電子書

450

頁

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這本書籍將於 2026年1月1日上架，屆時系統才會向你收費。

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Encapsulated Nanomaterial and Plant Interfaces critically examines the role of encapsulated nanoparticles in plants, and the resulting mechanism adopted by the plants at the biochemical and molecular levels to enhance plant growth and mitigate various stresses. Beginning with an overview of these engineered nanomaterials, and guiding the reader through their core concepts, the book aids the reader in identifying the most appropriate option based on use-case and need. The use of nanoparticles to improve plant health and crop yield has seen significant progress, but there remain challenges including size fixation of nanoparticles, toxicity, dose selection, formulation development, cast and production ration and the synthesis methods. The synthesis procedure significantly impacts the effectiveness of nanoparticles on the plant system, and nano- encapsulation is one of the most promising and effective techniques, not only controlling the release of nanoparticle but also able to enhance the surface area, reducing the toxic effect of NPs if any, and increasing the effective impact of NPs on plants. This volume in the Nanomaterial-Plant Interaction series explores the impact of encapsulated nanoparticles at the morphological, physiological and molecular levels on environmental stress. It discusses the latest tools, including -omics approaches, to evaluate the mechanism of action of encapsulated nanoparticles in regulating growth.• Informs strategies for engineering stress-tolerant plants and increasing productivity• Emphasizes the assimilation and transportation of encapsulated nanoparticles in plants• Covers the impact of encapsulated nanoparticles at morphological, physiological and molecular levels in addressing abiotic and biotic stresses

關於作者

Dr. Renato currently Vice-Head of the Department of Physics and Chemistry at the São Paulo State University-UNESP, Brazil. He is also Head of the Laboratory of Environmental NanoChemistry at UNESP. He received his M.Sc. (2011) and Ph.D. (2014) in Biochemistry from the University of Campinas (UNICAMP), Brazil. He did one year and a half post-doctoral positions at the International Iberian Nanotechnology Laboratory-INL (Portugal) and Federal University of ABC (Brazil). His primary research interests focus on environmental nanotechnology based on the development of advanced nano-enabled materials for agriculture, interactions of nanomaterials with natural colloids, exposure, and risk assessment.

Dr. Durgesh Kumar Tripathi is currently an Associate Professor at Amity Institute of Organic Agriculture, Amity University Uttar Pradesh, Noida, India. He is the recipient of ‘Dr DS Kothari Post-Doctoral Fellowship’ of the UGC, New Delhi. Dr. Tripathi has received his D.Phil. in Science from University of Allahabad, India. During this period, Dr. Tripathi worked extensively on phytolith analysis, crop stress physiology, agro-nanotechnology and molecular biology. He has expertise on laser spectroscopy. His research interests encompass stress tolerance mechanisms in plants. Presently, he is working with nano-materials and their interactions with plants to find out their detoxification mechanisms, he is also working on Silicon, Nitric oxide and hormonal crosstalk against abiotic stress in plants.