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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

http://www.wikidata.org/entity/Q57898182

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Biogenic silver nanoparticles based on trichoderma harzianum: synthesis, characterization, toxicity evaluation and biological activity.Neem Oil and Crop Protection: From Now to the Future.Nanoparticles Alter Secondary Metabolism in Plants via ROS Burst.Silicon and Plants: Current Knowledge and Technological Perspectives.Nanotechnology in Sustainable Agriculture: Recent Developments, Challenges, and Perspectives.Impact of Metal and Metal Oxide Nanoparticles on Plant: A Critical Review.Recent developments in nanotechnology transforming the agricultural sector: a transition replete with opportunities.

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

http://www.wikidata.org/entity/Q57898182

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article

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wetenschappelijk artikel

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наукова стаття, опублікована в березні 2016

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name

Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

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prefLabel

Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

@nl

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FENVS.2016.00020

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Frontiers in environmental science

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Nanotechnology in Agriculture: Which Innovation Potential Does It Have?

@en

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Cecilia Bartolucci

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Gerson A. de Medeiros

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Leonardo F. Fraceto

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Renato Grillo

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Viviana Scognamiglio

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P2860

Nanotechnology in agri-food production: an overview.

Nanopesticides: guiding principles for regulatory evaluation of environmental risks

Evaluation of the side effects of poly(epsilon-caprolactone) nanocapsules containing atrazine toward maize plants.

Nanoencapsulation Enhances the Post-Emergence Herbicidal Activity of Atrazine against Mustard Plants

Interactions between engineered nanoparticles (ENPs) and plants: phytotoxicity, uptake and accumulation.

Nanotechnology in glucose monitoring: advances and challenges in the last 10 years.

Chemistry, biology, and medicine of fluorescent nanomaterials and related systems: new insights into biosensing, bioimaging, genomics, diagnostics, and therapy.

Application of nanotechnology for the encapsulation of botanical insecticides for sustainable agriculture: prospects and promises.

Biosynthesized silver nanoparticles as a nanoweapon against phytopathogens: exploring their scope and potential in agriculture.

Potentials of engineered nanoparticles as fertilizers for increasing agronomic productions.

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scholarly article

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10.3389/FENVS.2016.00020

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4

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P577

2016-03-22T00:00:00Z

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