[1]
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PROSPEK NANOTEKNOLOGI DALAM MEMBANGUN KETAHANAN PANGAN
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NULL |
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[2]
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Biofertilizers and nanofertilizers for sustainable agriculture: Phycoprospects and challenges
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Science of The Total Environment,
2022 |
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[3]
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Toxicity of Bacillus thuringiensis strains derived from the novel crystal protein Cry31Aa with high nematicidal activity against rice parasitic nematode Aphelenchoides …
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International journal of …,
2022 |
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[4]
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Construction of a highly selective and sensitive carbohydrate-detecting biosensor utilizing Computational Identification of Non-disruptive Conjugation sites (CINC) for …
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Biosensors and …,
2022 |
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[5]
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Recent advances in nanomaterials based sustainable agriculture: An overview
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Environmental …,
2022 |
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[6]
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Potential applications of nanomaterials in Agronomy: an African insight
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2022 |
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[7]
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Nanotechnologies and Sustainable Agriculture for Food and Nutraceutical Production: An Update
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Plant and Nanoparticles,
2022 |
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[8]
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Nanomaterials as Unique Carriers in Agricultural Practices for Plant Growth and Development: A State of Current Knowledge
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Plant and Nanoparticles,
2022 |
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[9]
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An overview of the role of nanoparticles in sustainable agriculture
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Biocatalysis and Agricultural …,
2022 |
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[10]
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Carbon-Based Nanomaterials: Nanobiosensors Detecting Environmental Pollution
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Nanotechnology For …,
2022 |
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[11]
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Use of Nano-Bio-Chemicals in Modern Agriculture to Accelerate Sustainable Growth
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Handbook of Research on …,
2022 |
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[12]
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Global regulations and legislations on nanoparticles usage and application in diverse horizons
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2022 |
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[13]
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Nanofertilizers: Importance in Nutrient Management
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… in Agriculture and …,
2022 |
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[14]
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Ecotoxicology of Nanomaterials: A Sensor Perspective
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Nanobiosensors for …,
2022 |
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[15]
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Carbon Dots in Agricultural Systems: Strategies to Enhance Plant Productivity
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2022 |
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[16]
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7.2 Effect of Foliar Application of Nano Urea on Productivity and Profitability of Fine Rice Under Irrigated Subtropics of Jammu Region
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… Agricultural Innovations for …,
2022 |
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[17]
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Nanotechnology for precision and sustainable agriculture: recent advances, challenges and future implications
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Nanotechnology for …,
2022 |
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[18]
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Environmental Emissions of Nanoparticles
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The Role of …,
2022 |
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[19]
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Nanotechnology in farm machinery: New opportunities and perspectives
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2022 |
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[20]
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Nanotechnology and How it Works. Possible Ways to Use and Apply Nanotechnology
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2022 |
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[21]
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Nanosensors in agriculture 17
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Agricultural Nanobiotechnology: Biogenic …,
2022 |
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[22]
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Recent Approaches in Nanobioformulation for Sustainable Agriculture
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… in Agriculture and …,
2022 |
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[23]
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Applications of Nanotechnology in Preservation and Development of the Plants: A Look Back
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Phytonanotechnology,
2022 |
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[24]
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Utilization of Biosensors in the Identification of Bacterial Diseases in Maize
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Valdez, BE Herrera-Cabrera… - … for Diagnosis and …,
2022 |
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[25]
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Nanobiosensors for soil microbial detection
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Nanosensors for Smart …,
2022 |
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[26]
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Remediation of heavy metal (loid) contaminated soil through green nanotechnology
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Frontiers in Sustainable Food …,
2022 |
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[27]
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Potential of Nanobiosensors for Environmental Pollution Detection: Nanotechnology Combined with Enzymes, Antibodies, and Microorganisms
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Nanotechnology For …,
2022 |
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[28]
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Biogenic Silver Nanoparticles as a Stress Alleviator in Plants: A Mechanistic Overview
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Molecules,
2022 |
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[29]
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Risks and Concerns of Use of Nanoparticles in Agriculture
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The Role of …,
2022 |
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[30]
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Role of Nanosensors and Bionanosensors in Crop Abiotic Stress
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Augmenting Crop Productivity in Stress …,
2022 |
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[31]
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Nanotechnology for Sustainable Horticulture Development: Opportunities and Challenges
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Innovative Approaches for Sustainable …,
2022 |
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[32]
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Nasturtium officinale R. Br. bitkisinin yaprak ekstraktı kullanılarak, çinko (Zn) nanopartikülünün (NP) biyosentezi ve nanopartikülün MCF-7 meme kanseri hücreleri …
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2021 |
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[33]
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Nanofertilizer in Enhancing the Production Potentials of Crops
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… in Plant Growth …,
2021 |
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[34]
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Green Nanotechnology in Agriculture: Plant Disease Diagnosis to Management
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… in Diagnosis and Management of Crop …,
2021 |
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[35]
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Advances in Input Management for Food and Environmental Security
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Input Use Efficiency for …,
2021 |
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[36]
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2 Nanotechnology in agrifood sector: Ethical, regulatory, and governance landscape in EU
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Ethics in Nanotechnology: Social Sciences and …,
2021 |
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[37]
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Application of Microbial Nanotechnology in Agriculture
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… : Green Synthesis and …,
2021 |
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[38]
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Application of Nanobiotechnology in Agriculture: Novel Strategy for Food Security
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… Agriculture and Global Food Security (Vol …,
2021 |
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[39]
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Engineered Nanoparticles in Smart Agricultural Revolution: An Enticing Domain to Move Carefully
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… Nano-particles (PM …,
2021 |
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[40]
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Contributions of nano biosensors in managing environmental plant stress under climatic changing era
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Khayri - Nanobiotechnology,
2021 |
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[41]
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Nanotechnology: Recent Progress in Agriculture and Effects on Physiology of Plants
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J. Trop. Plant …,
2021 |
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[42]
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Potential Applications of Nanotechnology in Agriculture: A Smart Tool for Sustainable Agriculture
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… Development in Asia …,
2021 |
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[43]
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Nanotechnology for sustainable crop production: recent development and strategies
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… Nano-particles (PM-ENPs) Nexus in Agro …,
2021 |
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[44]
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Comparing cost-utility of DMARDs in autoantibody-negative rheumatoid arthritis patients
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…,
2021 |
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[45]
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Green Synthesized Nanoparticles: A Way to Produce Novel Nano-Biosensor for Agricultural Application
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Nanotechnology in Sustainable …,
2021 |
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[46]
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THE EFFECT OF DIFFERENT NANO-, BIO-AND CONVENTIONAL MINERAL FERTILIZERS APPLICATION ON SOME MORPHOLOGICAL CHARACTERISTICS …
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Poljoprivreda i …,
2021 |
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[47]
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Nanobiosensors and Their Applications
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Nanotechnology,
2021 |
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[48]
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Effect of Fertigroe® n nanofertilizer application on bacterial population, enzymatic activities, and microbial biomass in two soil types
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Organo… - J Int Soc Southeast …,
2021 |
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[49]
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Nanofertilizers and Their Applications
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New frontiers of nanomaterials in environmental …,
2021 |
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[50]
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Ultrasensitive and Selective Field-Effect Transistor-Based Biosensor Created by Rings of MoS2 Nanopores
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ACS …,
2021 |
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[51]
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Nanotechnology-based innovative technologies for high agricultural productivity: Opportunities, challenges, and future perspectives
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Recent Developments in Applied …,
2021 |
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[52]
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Nanoformulations in soil health and agriculture
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Nanotechnology in Sustainable …,
2021 |
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[53]
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Functionalized magnetic nanomaterials in agricultural applications
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Nanomaterials,
2021 |
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[54]
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Application of nanotechnology in agriculture, postharvest loss reduction and food processing: Food security implication and challenges
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Heliyon,
2021 |
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[55]
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Toxicology and Safety Aspects of Nanosensor on Environment, Food, and Agriculture
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2021 |
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[56]
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Nanomaterials in Soil Health Management and Crop Production: Potentials and Limitations
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2021 |
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[57]
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Green synthesis of metal nanoparticles using microorganisms and their application in the agrifood sector
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2021 |
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[58]
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Nanomaterials for agricultural and ecological defense applications: active agents and sensors
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2021 |
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[59]
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Zeolite NaP1 Functionalization for the Sorption of Metal Complexes with Biodegradable N-(1, 2-dicarboxyethyl)-D, L-aspartic Acid
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2021 |
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[60]
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Nanotechnology: A cutting-edge technology in vegetable production
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2021 |
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[61]
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Nanofertilizers toward sustainable agriculture and environment
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2021 |
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[62]
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Chapter-4 Nanotechnology in Crop Production and Protection-Nanoagrochemicals
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2021 |
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[63]
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Advantage of Nanotechnology-Based Genome Editing System and Its Application in Crop Improvement
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2021 |
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[64]
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The multifaceted dimensions of potent nanostructures: a comprehensive review
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2021 |
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[65]
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CURRENT SCENARIO AND FUTURE PERSPECTIVES OF NANOTECHNOLOGY IN SUSTAINABLE AGRICULTURE AND FOOD PRODUCTION
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2021 |
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[66]
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The Harsh Environment and Resilient Plants: An Overview
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2021 |
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[67]
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Nanofertilizers and Their Applications 10
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2021 |
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[68]
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Nanoparticles Induced Stress and Toxicity in Plants
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2021 |
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[69]
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Review on Agro-Based Nanotechnology through Plant-Derived Green Nanoparticles: Synthesis, Application and Challenges
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2021 |
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[70]
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Biosensor: Potential and Scope in Agriculture
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2021 |
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[71]
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A Unique Perspective in Precision of Nano-biotechnology for Sustainable Agricultural Fields
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2021 |
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[72]
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Recent Trends, Prospects, and Challenges of Nanobiosensors in Agriculture
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2021 |
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[73]
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Applications and Practices of Myconanoparticles in Food and Agriculture
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2020 |
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[74]
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15 Nanobiosensors: Recent Developments in Soil Health Assessment
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2020 |
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[75]
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A review on nanotechnology and its applications on Fluid Flow in agriculture and water recourses
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2020 |
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[76]
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Biotechnological Aspects of Nanoparticles Driven from Natural Products for Drug Delivery System and Other Applications
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2020 |
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[77]
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Nanosensor platforms for surveillance of plant pathogens and phytometabolites/analytes vis-à-vis plant health status
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2020 |
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[78]
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PENGARUH PEMBERIAN BIOCHAR TERHADAP BEBERAPA SIFAT BIOKIMIA TANAH DAN PERTUMBUHAN BAWANG MERAH PADA
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2020 |
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[79]
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Nanofertilizers for enhancing nutrient use efficiency, crop productivity and economic returns in winter season crops of Rajasthan
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2020 |
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[80]
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A study on the significance of smart IoT sensors and Data science in Digital agriculture
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2020 |
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[81]
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Commercialization of Regulatory Forensic Programs
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2020 |
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[82]
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Nano-enabled Agriculture Can Sustain “Farm to Fork” Chain
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2020 |
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[83]
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Food Packaging Development: Recent Perspective
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2020 |
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[84]
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Nanosensors as Potential Multisensor Systems to Ensure Safe and Quality Food
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2020 |
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[85]
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New Insights into Application of Nanoparticles for Plant Growth Promotion: Present and Future Prospects
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2020 |
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[86]
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Holistic view for the safe use of nanomaterials at permissible level for plant production
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2020 |
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[87]
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Nanomaterials: Emerging Trends and Future Prospects for Economical Agricultural System
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2020 |
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[88]
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Effects On Nanaofertilizers On Cd AND Pb Uptake In Kales Grown In Medially Polluted Experimental Soil.
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2020 |
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[89]
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Nanomesh-patterning on multilayer MoS2 field-effect transistors for ultra-sensitive detection of cortisol
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2020 |
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[90]
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Soil and Industry
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2020 |
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[91]
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Nanoparticles from Endophytic Fungi and Their Efficacy in Biological Control
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2020 |
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[92]
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Application of Nanotechnology for Sustainable Crop Production Systems
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2020 |
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[93]
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Assessment of micro-morphology of the leaves of Solanum nigrum (L.), Amaranthus hybridus (L.) and Celosia argentea (L.) cultivated using kola pod extract-mediated …
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2020 |
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[94]
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Nanobiotechnology applications in food sector and future innovations
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2020 |
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[95]
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Biosensors and Nanobiosensors in Environmental Applications
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2020 |
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[96]
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NANO FERTILIZER, BENEFITS AND EFFECTS ON FRUIT TREES: A
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2020 |
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[97]
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Impacts of nano-and non-nanofertilizers on potato quality and productivity
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2020 |
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[98]
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Chapter-2 Nanobiosensor in Agriculture
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2020 |
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[99]
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Nanobiosensors: Recent Developments in Soil Health Assessment
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2020 |
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[100]
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Biofortification of Cereals with Zinc and Iron: Recent Advances and Future Perspectives
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2020 |
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[101]
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A review on nanotechnological interventions for plant growth and production
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2020 |
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[102]
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Advances in Agronanotechnology and Future Prospects
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2020 |
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[103]
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Applications of Nanobiosensors in Agriculture
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2020 |
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[104]
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Betaine-rich Nano fertilizer improves growth parameters of Zea mays var. saccharata and Arabidopsis thaliana under salt stress
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2020 |
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[105]
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Nano-Biosensors: NextGen Diagnostic Tools in Agriculture
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2020 |
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[106]
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Nanomaterials in Agricultural Research: An Overview
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2020 |
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[107]
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Multifunctional hybrid nanomaterials for sustainable agri-food and ecosystems: A note from the editor
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2020 |
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[108]
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RESPONSE OF FLAME SEEDLESS GRAPEVINES TO SPRAY BORON PREPARED BY NANOTECHNOLOGY
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Minia J. of Agric. Res. & Develop.,
2020 |
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[109]
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Phytonanotechnology: A new horizon for the food industry
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2020 |
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[110]
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and Swati Sharma
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2020 |
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[111]
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Application of nanotechnology in agriculture
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2020 |
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[112]
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Efficacy of nanoparticles as nanofertilizer production: a review
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2020 |
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[113]
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Foliar applications of bio-fabricated selenium nanoparticles to improve the growth of wheat plants under drought stress
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2020 |
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[114]
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Carbon Nanomaterials in Biosensors for Biotechnological Applications
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2020 |
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[115]
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Phytonanotechnology and plant protection
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2020 |
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[116]
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Nano Technology for Increasing Productivity in Agriculture
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2020 |
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[117]
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Nanosensors for root zone parameters influencing plant growth
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2020 |
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[118]
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Nanotechnology Advances, Benefits, and Applications in Daily Life
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2020 |
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[119]
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Nanobiosensors and Its Application in Agriculture and Food
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2020 |
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[120]
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Nanosensors and nanobiosensors: Agricultural and food technology aspects
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Nanofabrication for Smart …,
2020 |
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[121]
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Multifunctional Hybrid Nanomaterials for Sustainable Agri-Food and Ecosystems
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2020 |
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[122]
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Future Outlook of Nanotechnology in Agriculture
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Int. J. Curr. Microbiol. App …,
2020 |
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[123]
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Effect of integrated use of nano and non-nano fertilizers on nutrient use efficiency of wheat (Triticum aestivum L.) in irrigated subtropics of Jammu
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2019 |
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[124]
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INFLUENCES OF NANO AND NON-NANOFERTILIZERS ON POTATO QUALITY AND PRODUCTIVITY
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Minia J. of Agric. Res. & Develop.,
2019 |
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[125]
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A general overview on application of nanoparticles in agriculture and plant science
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2019 |
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[126]
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Nanotechnological Interventions for Improving Plant Health and Productivity
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2019 |
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[127]
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The Use of Nanotechnology to Increase Quality and Yield of Fruit Crops
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2019 |
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[128]
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Effect of N, P and K Nano-fertilizers in comparison to humic and fulvic acid on yield and economics of red delicious (Malus x domestica Borukh.)
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2019 |
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[129]
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Aptasensing Ampicillin on Silica Substrate Gapped by Interdigitated Aluminium Electrode
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2019 |
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[130]
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Nanomaterials and Vegetable Crops: Realizing the Concept of Sustainable Production
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2019 |
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[131]
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The Sustainability Challenge of Food and Environmental Nanotechnology: Current Status and Imminent Perceptions
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2019 |
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[132]
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Effect of Nanofertilizers and Biofertilizers on Yield of Maize: Biplot Analysis
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2019 |
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[133]
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Recent advances in phytonanotechnology
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2019 |
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[134]
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Nanotechnology application in agriculture: A review
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2019 |
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[135]
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Nanoscale Engineering in Agricultural Management
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2019 |
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[136]
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Nanoparticles: A Novel Approach for Sustainable Agro-productivity
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2019 |
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[137]
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Green Synthesis of Microbial Nanoparticle: Approaches to Application
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2019 |
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[138]
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Chitosan Nanomaterials for Smart Delivery of Bioactive Compounds in Agriculture
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2019 |
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[139]
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Sensing Soil Microbes and Interactions: How Can Nanomaterials Help?
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2019 |
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[140]
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Adsorption of toxic gases on molecularly imprinted polymer coated QCM: measurements and modeling for partial pressure in gas mixture
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2019 |
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[141]
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Agrochemicals from nanomaterials—Synthesis, mechanisms of biochemical activities and applications
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2019 |
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[142]
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Nanotechnology in plant science: to make a long story short
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2019 |
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[143]
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Novel Effects of Phytogenic Bulk Graphene on Germination and Growth of Monocots and Dicots
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2019 |
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[144]
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Nanobiotechnology in Agricultural Sector: Overview and Novel Applications
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2019 |
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[145]
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Applications of Nanotechnology in Food and Agriculture
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2019 |
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[146]
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Nanotechnology in sustainable agriculture: studies from seed priming to post-harvest management
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2019 |
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[147]
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A Review Paper on Recent Trends in Bio-nanotechnology: Implications and Potentials
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2019 |
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[148]
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Nano-Enabled Technological Interventions for Sustainable Production, Protection, and Storage of Fruit Crops
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2019 |
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[149]
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Sensors for Food Quality Monitoring
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2019 |
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[150]
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Environmental and Societal Impact of Nanotechnology
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2019 |
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[151]
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Evaluation of Anti-microbial and Antioxidant Activity of Green Silver Nanoparticles in Citrus Reticulata L.
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2019 |
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[152]
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A Vital Role of Nanofertilizers for Sustainable Agriculture in India
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2019 |
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[153]
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Environmentally Friendly Slow Release Nano-Chemicals in Agriculture: A Synoptic Review
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Smart Farming Technologies for Sustainable Agricultural Development,
2019 |
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[154]
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Potential Applications of Nanotechnology in Agriculture: Current Status and Future Aspects
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Bioorganic Phase in Natural Food: An Overview,
2018 |
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[155]
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Nanotechnology Applications
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2018 |
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[156]
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Smart agriculture: Role of nanotechnology in agriculture
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International Journal of Advanced in Management, Technology and Engineering Sciences,
2018 |
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[157]
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Nanotechnology in Bioengineering: Transmogrifying Plant Biotechnology
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Omics Technologies and Bio-Engineering,
2018 |
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[158]
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Plant-Nanoparticles (NP) Interactions—A Review: Insights into Developmental, Physiological, and Molecular Aspects of Np Phytotoxicity
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Sustainable Biological Systems for Agriculture,
2018 |
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[159]
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Institutional Mapping of Nano-Technological Innovation System in the Agricultural Sector of Iran
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2018 |
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[160]
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Different Methods of Nanoparticle Synthesis and Their Comparative Agricultural Applications
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2018 |
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[161]
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Challenges and future prospects of agri-nanotechnology for sustainable agriculture in India
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Environmental Technology & Innovation,
2018 |
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[162]
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Nanotechnology potential in sustainable agriculture
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2018 |
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[163]
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Avaliação de nanoestruturas de sílica na liberação controlada de feromônios repelentes de abelha
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2018 |
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[164]
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Design and Production of Nanofertilizers
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Agricultural Nanobiotechnology,
2018 |
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[165]
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Applications of Nanomaterials in Agriculture and Food Industry
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2018 |
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[166]
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An incisive review of Nanosensors
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2018 |
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[167]
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Characterization of silver nanoparticles and pomegranate fruit rind extract
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Green nanotechnology in sustainable development of environment,
2018 |
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[168]
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Green and Sustainable Advanced Materials: Applications
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2018 |
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[169]
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Nanotechnology: Innovative Approach in Crop Nutrition Management
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2018 |
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[170]
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Application of nanotechnology in precision farming: A review
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2018 |
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[171]
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Plant Nano-nutrition: Perspectives and Challenges
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Nanotechnology, Food Security and Water Treatment,
2018 |
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[172]
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Nanotechnology in the Food Industry
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Nanotechnology, Food Security and Water Treatment,
2018 |
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[173]
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Applications of Nanoagrochemicals: Precepts and Prospects
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2018 |
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[174]
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15 Nanotechnology-Based Biopharmaceutical Systems
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2018 |
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[175]
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Nanoantimicrobials for Plant Pathogens Control: Potential Applications and Mechanistic Aspects
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Nanobiotechnology Applications in Plant Protection,
2018 |
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[176]
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Carbon Dots As Theranostic Agents
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2018 |
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