Position: Professor, Doctoral Supervisor
Dean of the College of Chemistry and Materials
Editorial Board Member, Food Chemistry (Since 2025)
Affiliation: Shandong Agricultural University
Email: jiaxu@sdau.edu.cn
1. Educational & Professional Experience
Time Period | Institution/Position | Details |
2003.06 – 2006.12 | Sun Yat-sen University (China) | Doctoral Degree |
2005.01 – 2005.10 | McGill University (Canada) | Research Assistant |
2006.10 – Present | Shandong Agricultural University (China) | Lecturer → Associate Professor → Professor |
2. Research Interests
1)Design, synthesis and application of covalent organic framework functional materials
2)Design and proce
3)ssing of functional environmental-friendly agricultural films
4)Extended application of nanotechnology and biodegradable materials in the agricultural field
5)Development of biodegradable materials for food packaging and food safety evaluation
3. Academic Leadership & Affiliations
Director, Key Laboratory of Agricultural Film Application, Ministry of Agriculture and Rural Affairs
Director, Key Laboratory of Agricultural Film, China National Light Industry Council
4. Research Projects (Hosted)
National Key R&D Program "Development and Industrialization of Ultra-Long-Life Multifunctional Agricultural Shed Films" (2023.12–2027.1)
"Low-Cost Manufacturing Technology and Industrialization of Agricultural Covering Materials with Controllable Function and Lifespan" (2016.7–2021.6)
National Natural Science Foundation General Program "Environmental Behavior and Failure Aging Mechanism of PBAT-Based Biodegradable Mulch Films" (2021.1–2024.12)
Youth Program "Preparation Method of Degradable PPC Resin-Coated Controlled-Release Fertilizer and Nutrient Controlled-Release Mechanism" (2011.1–2013.12)
Shandong Provincial Key R&D Program "Development of Special Materials and Products for Fully Biodegradable Mulch Films" (2022.1–2024.12)
Shandong Provincial Major Agricultural Technology Promotion Programs such as "Integration and Demonstration Promotion of New Agricultural Ground Covering Film Application Technology" (2024.03–2024.12)
Fully Biodegradable Mulch Film Replacement Technology" (2022.1–2023.7).
5. Academic Achievements
5.1 Representative Peer-Reviewed Publications (Corresponding Author)
1)HongGuang Fu *, Xianqiang Gao, HuiJuan Wang, et al., Jing Xu*(2025). Two-Dimensional Supramolecular Organic Framework with Tunable Morphology and Luminescence Cascade-Enhanced Properties. ACS Materials Letters 7, no. 3 , 746-753. (IF: ~9.9, JCR Q1)
2)Shangshan Yang, Pengpeng Shang, Kun Zhang, et al., Jing Xu* (2024). PBAT/PLA food packaging film containing sodium dehydroacetate-loaded diatomite as an antibacterial agent: Fabrication, water-gas regulation and long-acting antimicrobial mechanism. Food Chemistry, 446, 138880. (IF: ~9.2, JCR Q1)
3)Shuo Qiu, Yikai Zhou, Geoffrey I.N. Waterhouse, et al., Jing Xu* (2021). Optimizing interfacial adhesion in PBAT/PLA nanocomposite for biodegradable packaging films. Food Chemistry, 334, 127487. (IF: ~9.2, JCR Q1 Highly Cited Paper)
4)Xianqiang Gao, Lulu Cao, Lulu Wang, et al., Jing Xu* (2024). Z-scheme heterojunction g-C3N4-TiO2 reinforced chitosan/poly(vinyl alcohol) film: Efficient and recyclable for fruit packaging. International Journal of Biological Macromolecules, 268, 131627. (IF: ~8.0, JCR Q1)
5)Jiayin Wang, Kun Zhang, Yikai Zhou, et al., Jing Xu* (2023). POSS(epoxy)8 reinforced PBAT/Lignin composite films: Fabrication, enhanced mechanical property and UV aging resistance mechanism. International Journal of Biological Macromolecules, 255, 127921. (IF: ~8.0, JCR Q1)
6)Ao Huang, Linglong Kong, Bowen Zhang, et al., Jing Xu* (2024). Electrochemical Restructuring Driven Catalytic Cycle of Bi-Based Heterojunctions for High-Performance Lithium-Sulfur Batteries. ACS Nano, 18(20), 12795. (IF: ~18.0, JCR Q1)
7)Jiazhuo Xie, Yan Yan, Shaohua Fan, et al., Jing Xu* (2022). Prediction Model of Photodegradation for PBAT/PLA Mulch Films: Strategy to Fast Evaluate Service Life. Environmental Science & Technology, 56, 9041. (IF: ~11.0, JCR Q1)
8)Xianfei Jia, Yan Yan, Kun Zhang, et al., Jing Xu* (2023). Glufosinate Ammonium-Loaded Halloysite Nanotubes for Slow-Release Weeding Polymer Mulch Films. ACS Applied Nano Materials, 6(7), 6186. (IF: ~7.5, JCR Q1)
5.2 Authorized Patents
1)A prediction model for the service life of biodegradable mulch films based on climate factor correction (ZL 202411572280.3)
2)Preparation method of slow-release fully biodegradable herbicidal mulch film (ZL202310204716.2)
3)A Method for Predicting the Service Life of Biodegradable Mulch Films (ZL 202211322140.1)
4)A Reinforced and Toughened Poly(butylene adipate-co-terephthalate)-Polylactic Acid Composite Film and Its Preparation Method (ZL 202010655343.7)
5)A Fully Biodegradable Mulch Film Suitable for Mechanical Film Laying (PCT/CN2018/094195)
6)A Hydrotalcite-Based Polymer Thermal Insulation Masterbatch and Its Preparation Method (ZL 201710880552.X)
7)A Special Reinforced, Toughened and Transparent Masterbatch for Ultra-Thin Fully Biodegradable Films (ZL 201710572630.X)
8)An Ultra-Thin, Super-Strong and Super-Transparent Fully Biodegradable Mulch Film Suitable for Mechanical Film Laying and Its Preparation Method (ZL 201710572626.3)
6. Technology Promotion & Industrial Application
The "Fully Biodegradable Mulch Film Replacement Technology" developed under his leadership was listed as a major agricultural promotion technology in Shandong Province in 2021, 2023, 2024 and 2025.
Relevant technologies have been promoted and applied in 12 enterprises, realizing industrialization of biodegradable materials and agricultural films
