Articles citing this paper
cfArticle2ecfc1291681887$funcTITLE@2000a6d
Yinglin Liu A , Le Yue B , Zhenyu Wang B D and Baoshan Xing 
C D
+ Author Affiliations
- Author Affiliations
A College of Environmental Science and Engineering, Ocean University of China, Qingdao 266100, China.
B Institute of Environmental Processes and Pollution Control, and School of Environmental and Civil Engineering, Jiangnan University, Wuxi 214122, China.
C Stockbridge School of Agriculture, University of Massachusetts, Amherst, MA 01003, USA.
D Corresponding authors. Email: wang0628@jiangnan.edu.cn; bx@umass.edu
Ms Yinglin Liu graduated with a bachelor’s degree in Environmental Science from Qingdao University (China) in 2016, and is currently a Ph.D. candidate in the College of Environmental Science and Engineering at Ocean University of China (Qingdao). She is presently working on her Ph.D. thesis, conducting research into how photosynthesis can be promoted through nanotechnology so as to increase crop yield. Her main research interest is the interaction between nanoparticles and crops.
|
Dr Le Yue obtained her M.Sc. degree in Environmental Science from Guizhou University (China, 2013), and received her Ph.D. degree in Environmental Engineering from Nanjing Agricultural University (2017). She also studied the interactions between nanomaterials and plants at the University of Massachusetts, Amherst (USA) from 2014 to 2016 as a joint doctoral student. Her current research interests include environmental geochemical processes of engineered nanomaterials and contaminants of emerging concerns.
|
Dr Zhenyu Wang obtained his Ph.D. in Ecology from Technische Universitaet Muenchen (Germany). He is a Full Professor of Environmental Science at Jiangnan University (China), and the director of the Institute of Environmental Processes and Pollution Control at Jiangnan University. His current research includes the environmental geochemical processes of pollutants and the preparation, characterisation and environmental and agricultural applications of biochar. He has published over 80 refereed journal articles. He is the recipient of the Youth Science and Technology Award (Qingdao, China, 2010), National Science Foundation for Distinguished Young Scholars of China (2013) and Second Prize of Shandong Scientific and Technological Progress (ranked second, China, 2015).
|
Dr Baoshan Xing received his Ph.D. in Environmental and Soil Chemistry from the University of Alberta (Canada). He is a Full Professor at the University of Massachusetts, Amherst (USA). His current research includes environmental impact and application of engineered nanomaterials, organic matter (including biochar) characterisation and use, and food safety. He has published over 460 refereed articles and has been one of the ‘Most Cited Scientists’ since 2014, recognised by Clarivate Analytics as being among ‘the best and brightest scientific minds of our time’. He has received numerous awards/honours, including university exceptional merit awards, Soil Science Research Award, University Award for Outstanding Accomplishments in Research and Creative Activity, Environmental Quality Research Award and Spotlight Scholar.
|
Environmental Chemistry 16(6) 430-445 https://doi.org/10.1071/EN19046
Submitted: 31 January 2019 Accepted: 25 March 2019 Published: 29 April 2019
Improving Plant Photosynthesis through Light-Harvesting Upconversion Nanoparticles
Xu Xiaokai,
Shen Rongxin,
Mo Luoqi,
Yang Xianfeng,
Chen Xing,
Wang Haozhe,
Li Yadong,
Hu Chaofan,
Lei Bingfu,
Zhang Xuejie,
Zhan Qiuqiang,
Zhang Xingcai,
Liu Yingliang, Zhuang Jianle
ACS Nano. 2022 16(11). p.18027
Foliar Application with Iron Oxide Nanomaterials Stimulate Nitrogen Fixation, Yield, and Nutritional Quality of Soybean
Cao Xuesong,
Yue Le,
Wang Chuanxi,
Luo Xing,
Zhang Chenchi,
Zhao Xiaoli,
Wu Fengchang,
White Jason C.,
Wang Zhenyu, Xing Baoshan
ACS Nano. 2022 16(1). p.1170
Fertilizing behavior of extract of organomineral-activated biochar: low-dose foliar application for promoting lettuce growth
Kumar Abhay,
Joseph Stephen,
Graber Ellen R.,
Taherymoosavi Sara,
Mitchell David R. G.,
Munroe Paul,
Tsechansky Ludmila,
Lerdahl Ove,
Aker Walter, Sæbø Mona
Chemical and Biological Technologies in Agriculture. 2021 8(1).
Environmental Challenges and Medicinal Plants (2022)
Amirifar Arian,
Hemati Arash,
Asgari Lajayer Behnam,
Pandey Janhvi, Astatkie Tess
Nanofertilizer Delivery, Effects and Application Methods (2024)
Feregrino-Pérez Ana A.,
Rosales-Pérez A.,
Hernández-Rangel R.,
Juárez-Maldonado Antonio,
Gohari Gholamreza, Esquivel Karen
Molecular Impacts of Nanoparticles on Plants and Algae (2024)
AL-Moaikal Reem M.,
Alabdallah Nadiyah M., Alsanie Sumayah I.
Copper nanoclusters promote tomato (Solanum lycopersicum L.) yield and quality through improving photosynthesis and roots growth
Wang Chuanxi,
Liu Xiaofei,
Li Jing,
Yue Le,
Yang Hanyue,
Zou Hua,
Wang Zhenyu, Xing Baoshan
Environmental Pollution. 2021 289 p.117912
Lithium-induced alterations in soybean nodulation and nitrogen fixation through multifunctional mechanisms
Shakoor Noman,
Hussain Muzammil,
Adeel Muhammad,
Azeem Imran,
Ahmad Muhammad Arslan,
Zain Muhammad,
Zhang Peng,
Li Yuanbo,
Quanlong Wang,
Horton Robert, Rui Yukui
Science of The Total Environment. 2023 904 p.166438
Fluorescent g-C3N4 nanosheets enhanced photosynthetic efficiency in maize
Wang Chuanxi,
Cheng Bingxu,
Yue Le,
Chen Feiran,
Cao Xuesong,
Liu Yinglin,
Wang Zhenyu,
Lyu Jinze, Xing Baoshan
NanoImpact. 2021 24 p.100363
Soybean Interaction with Engineered Nanomaterials: A Literature Review of Recent Data
Coman Vasile,
Oprea Ioana,
Leopold Loredana Florina,
Vodnar Dan Cristian, Coman Cristina
Nanomaterials. 2019 9(9). p.1248
Cotton and drought stress: An updated overview for improving stress tolerance
Zafar Sadia,
Afzal Hadiqa,
Ijaz Areeba,
Mahmood Athar,
Ayub Atif,
Nayab Airish,
Hussain Sadam,
UL-Hussan Maqsood,
Sabir Muhammad Azeem,
Zulfiqar Usman,
Zulfiqar Faisal, Moosa Anam
South African Journal of Botany. 2023 161 p.258
Nano-Biotechnology in Agriculture: Use of Nanomaterials to Promote Plant Growth and Stress Tolerance
Zhao Lijuan,
Lu Li,
Wang Aodi,
Zhang Huiling,
Huang Min,
Wu Honghong,
Xing Baoshan,
Wang Zhenyu, Ji Rong
Journal of Agricultural and Food Chemistry. 2020 68(7). p.1935
The role of fluorescent carbon dots in crops: Mechanism and applications
Guo Baoyan,
Liu Guo,
Wei Haopeng,
Qiu Jiemin,
Zhuang Jianle,
Zhang Xuejie,
Zheng Mingtao,
Li Wei,
Zhang Haoran,
Hu Chaofan,
Lei Bingfu, Liu Yingliang
SmartMat. 2022 3(2). p.208
Sustainable Agricultural Practices (2024)
Montaño-Leyva Beatriz,
Sanchez-Silva Jonathan M.,
Hernández-Montiel Luis G.,
Casas-Junco Paloma P.,
Rivas-García Tomás,
Reyna-Ochoa Jesús E.,
Blancas-Benitez Francisco J.,
Moreno-Hernández Cristina,
López-García Ulises M.,
Flores-Ramírez Ana Y., González-Estrada Ramsés R.
Foliar carbon dot amendment modulates carbohydrate metabolism, rhizospheric properties and drought tolerance in maize seedling
Yang Hanyue,
Wang Chuanxi,
Chen Feiran,
Yue Le,
Cao Xuesong,
Li Jing,
Zhao Xiaoli,
Wu Fengchang,
Wang Zhenyu, Xing Baoshan
Science of The Total Environment. 2022 809 p.151105
Do Lignin Nanoparticles Pave the Way for a Sustainable Nanocircular Economy? Biostimulant Effect of Nanoscaled Lignin in Tomato Plants
Tolisano Ciro,
Priolo Dario,
Brienza Monica,
Puglia Debora, Del Buono Daniele
Plants. 2024 13(13). p.1839
Photosynthetic response mechanisms in typical C3 and C4 plants upon La2O3 nanoparticle exposure
Liu Yinglin,
Yue Le,
Wang Chuanxi,
Zhu Xiaoshan,
Wang Zhenyu, Xing Baoshan
Environmental Science: Nano. 2020 7(1). p.81
Quaternary ammonium iminofullerenes promote root growth and osmotic-stress tolerance in maize via ROS neutralization and improved energy status
Wang Tingting,
Zang Zhenfeng,
Wang Shuai,
Liu Yuke,
Wang Hezhong,
Wang Wei,
Hu Xiuli,
Sun Jinhua,
Tai Fuju, He Rui
Plant Physiology and Biochemistry. 2021 164 p.122
Carbon Dots Embedded in Nanoporous SiO2 Nanoparticles for Enhancing Photosynthesis in Agricultural Crops
Yao Yusong,
Yue Le,
Cao Xuesong,
Chen Feiran,
Li Jing,
Cheng Bingxu,
Wang Chuanxi, Wang Zhenyu
ACS Applied Nano Materials. 2023 6(1). p.110
Can the properties of engineered nanoparticles be indicative of their functions and effects in plants?
Liu Yang,
Pan Bo,
Li Hao,
Lang Di,
Zhao Qing,
Zhang Di,
Wu Min,
Steinberg Christian E.W., Xing Baoshan
Ecotoxicology and Environmental Safety. 2020 205 p.111128
Microbial Interactions at Nanobiotechnology Interfaces (2021)
Bezbaruah Achintya N., Fortuna Ann‐Marie
Silicon quantum dots promote radish resistance to root herbivores without impairing rhizosphere microenvironment health
Fan Ningke,
Zhao Chunjie,
Chang Zihao,
Yue Le,
He Feng,
Xiao Zhenggao, Wang Zhenyu
Environmental Science: Nano. 2023 10(9). p.2232
Mechanisms of growth-promotion and Se-enrichment inBrassica chinensisL. by selenium nanomaterials: beneficial rhizosphere microorganisms, nutrient availability, and photosynthesis
Wang Chuanxi,
Yue Le,
Cheng Bingxu,
Chen Feiran,
Zhao Xiaoli,
Wang Zhenyu, Xing Baoshan
Environmental Science: Nano. 2022 9(1). p.302
Engineered nanomaterials in the environment: Are they safe?
Zhao Jian,
Lin Meiqi,
Wang Zhenyu,
Cao Xuesong, Xing Baoshan
Critical Reviews in Environmental Science and Technology. 2021 51(14). p.1443
Insights into nanoparticle-induced changes in plant photosynthesis
GHORBANPOUR M.,
MOVAHEDI A.,
HATAMI M.,
KARIMAN K.,
BOVAND F., SHAHID M.A.
Photosynthetica. 2021 59(4). p.570
Earthworms Drive the Effect of La2O3 Nanoparticles on Radish Taproot Metabolite Profiles and Rhizosphere Microbial Communities
Xiao Zhenggao,
Fan Ningke,
Wang Xie,
Ji Haihua,
Yue Le,
He Feng, Wang Zhenyu
Environmental Science & Technology. 2022 56(23). p.17385
Metallic oxide nanomaterials act as antioxidant nanozymes in higher plants: Trends, meta-analysis, and prospect
Liu Yinglin,
Xiao Zhenggao,
Chen Feiran,
Yue Le,
Zou Hua,
Lyu Jinze, Wang Zhenyu
Science of The Total Environment. 2021 780 p.146578
