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Pei-Yi Wang PhD

AddTime: 2024-07-22     Hits: 139

Peiyi Wang PhD

Professor of Plant Protection

Doctoral Supervisor

State Key Laboratory of Green Pesticide (http://gpabl.gzu.edu.cn/2024/0722/c19837a225837/page.htm)

Contact details

Office room number: 333

Building: Physics and Chemistry Building,

Campus: Guizhou University

Email : pywang@gzu.edu.cn; pywang888@126.com

Phone number: 15286045507

Qualifications

BSc – Linyi Normal University, China 2009

PhD – Guizhou University, China 2015

Joint-Supervision – University of South Carolina, United States, 2012-2014

Positions held

2015 – 2020, Associate Professor – Guizhou University, China

2020 – Present, Professor – Guizhou University, China

Profile

Wang Peiyi, a national-level young talent, joined the Shennong Talent Program of the Ministry of Agriculture and Rural Affairs of China, "provincial management expert" of Guizhou Province, and high-level innovative talent of Guizhou Province - "hundred levels", is mainly engaged in the creation of green bactericides as well asthe research and development of nano-pesticides and novel formulations. He was the first batch youth editorial board member of Advanced Agrochem., presided over five National Natural Science Foundation projects and five science and technology plan projects of Guizhou Province; As the first/corresponding author, he has published over 70 academic research papers in international mainstream journals, such as Nature Communications(IF=15.7), Angewandte Chemie International Edition (IF=16.9), Advanced Functional Materials (IF=19.0), ACS Nano (IF=16.0), Advanced Science (IF=14.1), Chemical Engineering Journal (IF=13.2), Carbohydrate Polymers (IF=12.5), Journal of Nanobiotechnology (IF=12.6), Plant Biotechnology Journal(IF=10.5), ACS Applied Materials & Interfaces (IF=10.8), Nano Letters (IF=12.2), Journal of Agricultural and Food Chemistry, Chemical Communications, Organic Letters, Organic Chemistry Frontiers,Industrial Crops and Products, Pest Management Science, Chinese Chemical Letters, Chinese Journal of Chemistry, etc. He has applied for over 30 invention patents (10 authorized). He gained the second prize of the 18th Fok Ying Tung Education Foundation Youth Science Award, the "Academic Leader" and the "Dabeinong Excellent Teacher Award" of Guizhou University. His groups have developed more than 20 kinds of bactericidal leaders or candidate compounds, enriched the diversity of original bactericidal structures, and promoted the creation and industrialization of green bactericides in China.

Selected recent publications

  1. Min Liu,† Kongjun Liu,† Jinghan Yang, Juan Liu, Peiyi Wang*. Chiral Dependence of Multifunctional Supramolecular Materials in Crop Protection. Nature Communications, 2025, DOI : 10.1038/s41467-025-63677-8. (IF = 15.7,CAS Tier-1 Journals,Nature Index Journals)

  2. Jinghan Yang,† Kongjun Liu,† Yazhen Chen, Haojie Ye, Gefei Hao, Fengpei Du*, Peiyi Wang*. A supramolecular bactericidal material for preventing and treating plant-associated biofilms. Nature Communications, 2025, 16, 2627. (IF = 15.7,CAS Tier-1 Journals,Nature Index Journals)

  3. Lijun Fan,† Kongjun Liu,† Jinghan Yang, WMWW Kandegama, Peiyi Wang*. From Spiropyran to a Circadian-Responsive Photochromic Supramolecular System for Sustainable Crop Protection: Enhanced Photostability, Biofilm Disintegration, and Foliar Adhesion. Angewandte Chemie International Edition, 2025, e202507179, Article DOI: 10.1002/anie.202507179. (IF = 16.9,CAS Tier-1 Journals,Nature Index Journals)

  4. Xue Chen,† Run Yang,† Kongjun Liu*, Min Liu, Qingchuan Shi, Jinghan Yang, Gefei Hao, Laixin Luo, Fengpei Du, Peiyi Wang*. From natural product derivative to hexagonal prism supermolecule: potent biofilm disintegration, enhanced foliar affinity, and effective management of tomato bacterial canker. Angewandte Chemie International Edition, 2025, 64(8), e202416079. (IF = 16.9,CAS Tier-1 Journals,Nature Index Journals)

  5. Haicong Zhao,† Xinyu He,† Jinghan Yang, Min Liu, Xue Chen, Peiyi Wang*. From original ferrocene-based small-molecule design to multifunctional supramolecular bactericides: their efficient applications in controlling biofilm-associated bacterial infections. Advanced Functional Materials, 2025, 35, 2418415. (IF = 19.0,CAS Tier-1 Journals,Nature Index Journals)

  6. Qingchuan Shi,† Run Yang,† Jinghan Yang, Pan Liu, Juan Liu, Peiyi Wang*. β-Cyclodextrin/amantadine co-assembled hollow nanocapsules realize the rapid leaf adhesion and bacterial biofilm disassembly for rice and citrus protections. Advanced Functional Materials, 2025, 35, 202422669. (IF = 19.0,CAS Tier-1 Journals,Nature Index Journals)

  7. Heju Dai,† Jinghan Yang,† Lijun Fan, Min Luo, Peiyi Wang*. Excellent foliar deposition of cyclodextrin-encapsulated furyl/thienyl-engineered ingredients: novel effective supramolecular agrochemicals for combating plant bacterial and fungal infections. Advanced Functional Materials, 2024, 34, 2403823. (IF = 19.0,CAS Tier-1 Journals,Nature Index Journals)

  8. Dekun Hu,† Qiang Bian,† Xianfu Mu, Fengpei Du, Hao Tian,* Zhichao Jin, Peiyi Wang*. A Deep Eutectic Solvent-Based Nanodelivery System for Enhanced Rice Blast Treatment. ACS Nano, 2025, 19(26), 24093-24108. (IF = 16.0,CAS Tier-1 Journals,Nature Index Journals)

  9. Xinyu He,† Jinghan Yang,† Xue Chen, Jiajia Chen, Haicong Zhao, Juan Liu, Fengpei Du, Peiyi Wang*. Fabrication of multifunctional three-component supramolecular nano-biscuits via two macrocycles-involved self-assembly for rice, citrus and kiwifruit protections. Advanced Science, 2025, 12, 2413826. (IF = 14.1,CAS Tier-1 Journals)

  10. Run Yang,† Jinghan Yang,† Min Liu, Juan Liu, Peiyi Wang*. Assembling hexahedral supramolecular nano-aggregates on rice wax layer matrices to promote the leaf deposition and bioavailability of bactericides for plant protections. Advanced Science, 2025, 12, e04225.(IF = 14.1,CAS Tier-1 Journals)

  11. Xianfu Mu, † Kongjun Liu,* † Jinghan Yang, Juan Liu, Fengpei Du, Gefei Hao, Peiyi Wang*. From de novo conceived small molecules to multifunctional supramolecular nanoparticles: dual biofilm and T3SS intervention, enhanced foliar affinity, and effective rice disease control. Advanced Science, 2025, 12(20), 2410878. (IF = 14.1,CAS Tier-1 Journals)

  12. Xiaoxue Tian,† Hongsheng Hu,† Lijun Fan, Jinghan Yang, Haicong Zhao, Libo Zhang*, Dekun Hu, Gefei Hao, Fengpei Du, Peiyi Wang*. Smart β-cyclodextrin-dominated helical supramolecular dendritic assemblies improve the foliar affinity and biofilm disruption for treating alarming bacterial diseases. Carbohydrate Polymers, 2025, 348, 122823. (IF = 12.5,CAS Tier-1 Journals)

  13. Pan Liu,† Jinghan Yang,† Juan Liu, Yaling Duan, Peiyi Wang*. Multipurpose β-cyclodextrin-involved nanospherical aggregates: self-assembly process, foliar adhesion, and promising applications for kiwifruit and rice protections. Chemical Engineering Journal, 2025, 507, 160385. (IF = 13.2,CAS Tier-1 Journals)

  14. Jinjing Wang,† Xiaoyan Yang,† Lijun Fan, Haojie Ye, Gefei Hao*, Peiyi Wang*. The rational design of a rhodamine fluorescent probe enables the selective detection and bioimaging of salicylic acid in plants under abiotic stress. Plant Biotechnology Journal, 2025, 23, pp. 1736–1750. (IF = 10.5,CAS Tier-1 Journals)

  15. Hui-Ling Zhang,† Hong-Wei Wang,† Jing-Han Yang, Jia-Jia Chen, Juan Liu, Qing-Chuan Shi, Hai-Cong Zhao, Mo-Xian Chen*, Run Yang, Qing-Tian Ji, Pei-Yi Wang*. From dansyl-modified biofilm disruptors to β-cyclodextrin-optimized multifunctional supramolecular nanovesicles: their improved treatment for plant bacterial diseases. Journal of Nanobiotechnology, 2024, 22, 739-759. (IF = 12.6,CAS Tier-1 Journals)

  16. Deng-Xuan Guo,† Li Song,† Jing-Han Yang, Xin-Yu He, Pan Liu, Pei-Yi Wang*. β-Cyclodextrin-optimized supramolecular nanovesicles enhance the droplet/foliage interface interactions and inhibition of succinate dehydrogenase (SDH) for efficient treatment of fungal diseases. Journal of Nanobiotechnology, 2024, 22, 581-598. (IF = 12.6,CAS Tier-1 Journals)

  17. Lizhu Xiang,† Xiaohui Wang,† Jinghan Yang, Rui Wang, Lin Chen, Xiaoping Bao, Xianfu Mu, Peiyi Wang*. Smart nanoscale lamellated supramolecular assemblies overcome biofilm barriers and enhance foliar affinity for efficient control of bacterial diseases. Chemical Engineering Journal, 2024, 499, 156140. (IF = 13.2,CAS Tier-1 Journals)

  18. Li Zhou,† Yazhen Chen,† Jinghan Yang, Yaling Duan, Huiqin Gong, Haojie Ye, Ya Hong, Min Liu, Gefei Hao, Fengpei Du, Peiyi Wang*. An eco-friendly β-cyclodextrin/stilbene-integrated supramolecular material realizes the effective treatment of bacterial diseases via enhancing the biofilm eradication and agrochemical bioavailability. Chemical Engineering Journal, 2024, 500, 157282. (IF = 13.2,CAS Tier-1 Journals)

  19. Qing-Tian Ji, Xian-Fu Mu, De-Kun Hu, Li-Jun Fan, Shu-Zhen Xiang, Hao-Jie Ye, Xiu-Hui Gao, Pei-Yi Wang*. Fabrication of Host-Guest Complexes Between Adamantane-Functionalized 1,3,4-Oxadiazoles and β-Cyclodextrin with Improved Control Efficiency against Intractable Plant Bacterial Diseases. ACS Appl. Mater. Interfaces, 2022, 14, 2564−2577. (IF = 10.3,CAS Tier-1 Journals)

  20. Qing-Tian Ji, De-Kun Hu, Xian-Fu Mu, Xiao-Xue Tian, Li Zhou, Si Yao, Xiao-Hui Wang, Shu-Zhen Xiang, Hao-Jie Ye, Li-Jun Fan, Pei-Yi Wang*. Cucurbit[7]uril-Mediated Supramolecular Bactericidal Nanoparticles: Their Assembly Process, Controlled Release, and Safe Treatment of Intractable Plant Bacterial Diseases. Nano Letters, 2022, 22, 4839−4847. (IF = 12.2,CAS Tier-1 Journals,Nature Index Journals)