Yi Wang
Affiliations: | Connecticut Agricultural Experiment Station, New Haven, CT, United States |
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Goyal V, Rani D, Mehrotra S, et al. (2023) Unlocking the Potential of Nano-Enabled Precision Agriculture for Efficient and Sustainable Farming. Plants (Basel, Switzerland). 12 |
Deng C, Protter CR, Wang Y, et al. (2023) Nanoscale CuO charge and morphology control Fusarium suppression and nutrient biofortification in field-grown tomato and watermelon. The Science of the Total Environment. 905: 167799 |
Sharma S, Singh G, Wang Y, et al. (2023) Nanoscale sulfur alleviates silver nanoparticle toxicity and improves seed and oil yield in Soybean (Glycine max). Environmental Pollution (Barking, Essex : 1987). 122423 |
Borgatta J, Shen Y, Tamez C, et al. (2023) Influence of CuO Nanoparticle Aspect Ratio and Surface Charge on Disease Suppression in Tomato (). Journal of Agricultural and Food Chemistry |
Wang Y, Deng C, Shen Y, et al. (2022) Surface Coated Sulfur Nanoparticles Suppress Disease in Field Grown Tomato: Increased Yield and Nutrient Biofortification. Journal of Agricultural and Food Chemistry |
Jiang Y, Wang Z, Liu Y, et al. (2022) Nematodes and their bacterial prey improve phosphorus acquisition by wheat. The New Phytologist |
Wang Y, Deng C, Elmer WH, et al. (2022) Therapeutic Delivery of Nanoscale Sulfur to Suppress Disease in Tomatoes: In Vitro Imaging and Orthogonal Mechanistic Investigation. Acs Nano |
Chai X, Wang X, Pi Y, et al. (2022) MdNRT2.4 interacts with rhizosphere bacteria to enhance nitrate uptake in apple rootstocks. Journal of Experimental Botany |
Deng C, Wang Y, Cantu JM, et al. (2022) Soil and foliar exposure of soybean (Glycine max) to Cu: Nanoparticle coating-dependent plant responses. Nanoimpact. 26: 100406 |
Zhu M, Tang J, Shi T, et al. (2022) Uptake, translocation and metabolism of imidacloprid loaded within fluorescent mesoporous silica nanoparticles in tomato (Solanum lycopersicum). Ecotoxicology and Environmental Safety. 232: 113243 |