Publikationer av Jiechen Wu
Refereegranskade
Artiklar
[1]
S. Li et al., "Highly homogeneous bimetallic core-shell Au@Ag nanoparticles with embedded internal standard fabrication using a microreactor for reliable quantitative SERS detection," Materials Chemistry Frontiers, vol. 7, no. 6, s. 1100-1109, 2023.
[2]
M. Ishfaq et al., "Improvement of nutritional quality of food crops with fertilizer : a global meta-analysis," Agronomy for Sustainable Development, vol. 43, no. 6, 2023.
[3]
H. Gong et al., "Phosphorus supply chain for sustainable food production will have mitigated environmental pressure with region-specific phosphorus management," Resources, Conservation and Recycling, vol. 188, s. 106686-106686, 2023.
[4]
X. Gao et al., "Planting Age Identification and Yield Prediction of Apple Orchard Using Time-Series Spectral Endmember and Logistic Growth Model," Remote Sensing, vol. 15, no. 3, s. 642-642, 2023.
[5]
S. Li et al., "Economic, energy and environmental performance assessment on wheat production under water-saving cultivation strategies," Energy, s. 125330-125330, 2022.
[6]
Z. Li et al., "Integrating life cycle assessment and a farmer survey of management practices to study environmental impacts of peach production in Beijing, China," Environmental Science and Pollution Research, 2022.
[7]
Z. Wang et al., "International trade reduces global phosphorus demand but intensifies the imbalance in local consumption," Science of the Total Environment, vol. 830, s. 154484, 2022.
[8]
S. Li et al., "One-pot fabrication of Mo1-xWxS2 alloy nanosheets as SERS substrates with highly Raman enhancement effect and long-term stability," Spectrochimica Acta Part A - Molecular and Biomolecular Spectroscopy, vol. 279, s. 121465, 2022.
[9]
H. Gong et al., "Synergies in sustainable phosphorus use and greenhouse gas emissions mitigation in China: : Perspectives from the entire supply chain from fertilizer production to agricultural use," Science of the Total Environment, s. 155997-155997, 2022.
[10]
H. Gong et al., "Toward the sustainable use of mineral phosphorus fertilizers for crop production in China: From primary resource demand to final agricultural use," Science of the Total Environment, vol. 804, no. 150183, 2022.
[11]
H. Gong et al., "Using knowledge-based management for sustainable phosphorus use in China," Science of the Total Environment, vol. 814, s. 152739-152739, 2022.
[12]
S. Li, J. Wu och L. Ma, "Economic, energy and environmental consequences of shifting from maize-wheat to forage rotation in the North China Plain," Journal of Cleaner Production, vol. 328, 2021.
[13]
S. Li et al., "Integrated wheat-maize straw and tillage management strategies influence economic profit and carbon footprint in the Guanzhong Plain of China," Science of the Total Environment, vol. 767, 2021.
[14]
Z. Wang et al., "Phosphorus flow analysis for megacities using a coupled city-hinterland approach : Case study of Beijing," Journal of Cleaner Production, vol. 320, 2021.
[15]
J. Wu et al., "Uncertainty inherent to a conceptual model StormTac Web simulating urban runoff quantity, quality and control," Urban Water Journal, vol. 18, no. 5, s. 300-309, 2021.
[16]
S. Li et al., "Economic and environmental sustainability of maize-wheat rotation production when substituting mineral fertilizers with manure in the North China Plain," Journal of Cleaner Production, vol. 271, 2020.
[17]
Z. Wang et al., "Phosphorus flow analysis in the maize based food-feed-energy systems in China," Environmental Research, vol. 184, 2020.
[18]
X. Chen et al., "Seasonality in river export of nitrogen: A modelling approach for the Yangtze River," Science of the Total Environment, 2019.
[19]
J. Wu, T. E. Hartmann och W. Chen, "Toward sustainable management of phosphorus flows in a changing rural–urban environment : recent advances, challenges, and opportunities," Current Opinion in Environmental Sustainability, 2019.
[20]
Y. Hou et al., "Changes in nitrogen and phosphorus flows and losses in agricultural systems of three megacities of China, 1990–2014," Resources, Conservation and Recycling, 2018.
[21]
J. Wu, D. Franzén och M. E. Malmström, "Anthropogenic phosphorus flows under different scenarios for the city of Stockholm, Sweden," Science of the Total Environment, vol. 542, s. 1094-1105, 2016.
[22]
J. Wu, D. Franzén och M. E. Malmström, "Nutrient flows following changes in source strengths, land use and climate in an urban catchment, Råcksta Träsk in Stockholm, Sweden," Ecological Modelling, vol. 338, s. 69-77, 2016.
[23]
G. Zhou et al., "Evaluating low-carbon city initiatives from the DPSIR framework perspective," Habitat International, vol. 50, s. 289-299, 2015.
[24]
J. Wu och M. E. Malmström, "Nutrient loadings from urban catchments under climate change scenarios : Case studies in Stockholm, Sweden," Science of the Total Environment, vol. 518-519, s. 393-406, 2015.
Konferensbidrag
[25]
J. Wu, N. Brandt och M. E. Malmström, "Climate change effects on nitrogen loading to urban lakes : The case of Råcksta Träsk, Stockholm, Sweden," i Proceedings of the 6th International Perspectives on Water Resources & the Environment, 2013.
Icke refereegranskade
Avhandlingar
[26]
J. Wu, "Systems Perspectives on Modelling and Managing Future Anthropogenic Emissions in Urban Areas : Nitrogen, Phosphorus and Carbon Studies in Stockholm, Sweden," Doktorsavhandling Stockholm : KTH Royal Institute of Technology, TRITA-IM-PHD, 2016:02, 2016.
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