一、科研团队概述

水污染控制及资源化利用课题组创建于2022年，立足国家“双碳”战略，聚焦环境污染治理与生物质高值化利用，构建“原料解离-材料创制-污染治理”全链条技术体系。现有在职教工9人，教授2人，副教授4人，讲师3人。每年招收博士研究生约2-4人、硕士研究生约8-16人。

二、研究方向

（一）植物质材料功能化及高值化利用

围绕植物质材的高效转化与增值利用展开，开发高效、绿色催化体系实现组分精细分离和平台分子定向转化；基于分离组分，通过创新结构设计和功能复合，创制出高性能能源转换和环境修复材料；成功实践了“解离-转化-材料化”一体化的生物质资源高值利用范式，为解决能源、环境挑战提供了基于可再生资源的先进材料解决方案。

本研究方向代表性成果有：

1. Zhang, Z. W., Wang, Z.*, Wang, X. R.*, et al. Synthesis of Mimicking Plant Cell Wall-like Anti-Swelling Hydrogels Based on a "Bottom-Up" Strategy and Their Application in Osmotic Energy Harvesting. Advanced Functional Materials. 2025, 2502946.

2. Zhao, Y., Wang, Z.*, Lyu, G. J.*, et al. Construction of lignin-assisted nitrogen defective engineering graphitic carbon nitride for HMF selective conversion to maleic acid through photo-thermal processes. Advanced Functional Materials. 2025, 2422264.

3. Sun, P. L., Wang, Z., * Lyu, G. J.* et al. Refining microcrystalline cellulose with 3D hydrangea like CuCeO₂@LDO for simultaneous production of lactic acid and formic acid via photo-thermal catalysis. Chemical Engineering Journal. 2025, 512: 162318.

4. Zhao, X.R., Lyu*, G. J., Wang, Z.*, Magnetically recyclable vanadium substituted phosphotungstic acid in deep eutectic solvent for effective wheat straw fractionation. Green Chemistry. 2025

5. Zhang, R. R., Lyu*, G. J., Wang, Z.*, et al. Synergistic integration of redox-active nanoparticles and hierarchical porosity for high-performance osmotic energy harvesting in cellulose-based membranes. Chemical Engineering Journal. 2025, 520: 165851.

6. Zhang, R. R., Wang, Z.*, Lyu, G. J.*, et al.  Construction of cellulose 3D network composite membrane supported by hydroxylated boron nitride with high surface charge density to achieve high-efficiency osmotic energy collection. Chemical Engineering Journal. 2024, 500, 157000.

7. Yang, S. C., Wang, Z.*, et al. Developing of Cu_xSnSO@GO aerogels used as highly efficient catalysts for cellulose transform to lactic acid under the synergy of Cu-Sn thermo-catalysis and photo-catalysis processes. Chemical Engineering Journal. 2023, 474, 145716.

8. Shi, L. L., Ma, H. F., et al. Efficient electrocatalytic ·OOH production on P–N–CuO for selective cleavage of lignin C–C bonds in the photoelectric collaborative system. Chemical Engineering Journal. 2024, 496, 154210.

9. Shi, L. L., Ma, H. F., et al. Ionothermal synthesis of Cs₃Bi₂Br₉ quantum dots-decorated covalent triazine frameworks composite photocatalyst and their application in selective cleavage of C–C bonds in lignin. Journal of Environmental Chemical Engineering. 2024, 12(1), 111733.

 （二）废水高级氧化处理技术

本研究方向聚焦于各种材料的界面精准调控，通过多元素掺杂、异质结构筑及核壳设计等方式解决传统应用中存在的电子传递效率低、自由基选择性差、稳定性不足及污染物降解普适性弱等核心问题，为高效环境修复材料的设计提供了系统解决方案。

本研究方向代表成果有：

1. Zhai, L. W., Jiang, W. Q.* et al. Degradation of norffoxacin by sulfur-doped iron-cobalt oxides activated perodisulfate: Synergism between free radicals and singlet oxygen. Chemical Engineering Journal. 2023, 478, 147378.

2. Zhang, L. Q., Gu, Y. W.* et al. A novel N/C co-modified FeS₂ nanocomposite synthesized by wet-mechanochemical method for efficient peroxymonosulfate activation and nearly 100% SO₄·^- selective generation, Chemical Engineering Journal. 2025, 162089.

3. Qin, H. J., Wang, Z.* et al. High efficiency degradation of 2,4-dichlorophenol using Cu₂S/Cu₂O decorated nanoscale zerovalent iron via adsorption and photocatalytic performances. Journal of Cleaner Production. 2022, 378, 134578.

4. Wang, Z.* Chen, G. H., et al. Performance of L-Cu&Mn-nZVI@B nanomaterial on nitrate selective reduction under UV irradiation and persulfate activation in the presence of oxalic acid. Journal of Hazardous Materials. 2020, 401: 123378. 

5. Wang, Z.*, Chen, G. H., et al. Removal of hexavalent chromium by bentonite supported organosolv lignin-stabilized zero-valent iron nanoparticles from wastewater. Journal of Cleaner Production. 2020, 267: 122009.

6. Zhang, X., Gu, Y. W.*, et al. Novel core-shell structural nZVI@Fe2P for sulfadiazine (SDZ) degradation: Accelerated Fe(III)/Fe(II) dynamic cycling, boosted Fenton performance and stability. Separation and Purification Technology. 2024, 347, 127705.

7. Qi, X.Y., Gu, Y. W.*, Wang, C.*, et al. NiFe₂O₄@MoS₂ heterojunction induces the changes of PMS activation mode in PMS/Vis system for the directed generation of ¹O₂, Separation and Purification Technology. 2025, 363: 1321754.

8. Jiang, W. Q., Gu, Y. W.*, et al. Tuning mZVI surface species through synergistic Sulfur-Graphite incorporation via Mechanochemistry technique for High-Efficiency TCE Dechloridation and electron utilization. Separation and Purification Technology. 2025, 375, 133814.

9. Meng, X. X., Jiang, W. Q.*, et al. Study on 3D electrochemical degradation of tetracycline hydrochloride by using Fe/Cu/Mn trimetal-doped granular activated carbon: Reactor, mechanism and regeneration. Separation and Purification Technology. 2023, 324, 124526.

（三）环境修复与资源化利用

本方向研究了污染物迁移转化过程中的界面行为调控与资源化材料设计，为环境风险管控与废物增值利用提供系统解决方案。

本研究方向代表性成果有：

1. Ren, Y., Chen, X.*, Tween 80 assisted washing ciprofloxacin-contaminated soil, and recycled it using active chlorines, Environmental Pollution, 2023, 330, 121735.

2. Ma, Q., Jiang, C. M., et al. Maize yield and nitrogen-use characteristics were promoted as consistently improved soil fertility: 6-year straw incorporation in Northeast China. Plant, Soil and Environment, 2021, 67, 383-389

3. Liu, Z., Ge, X. L.*, et al. Alternanthera philoxeroides invasion affects the soil seed bank of reed community. Environmental and Experimental Botany, 2020, 180, 104196.

4. Xie, T. Y., Zhang, X.*, et al. Effects of sewage sludge immobilized by composite phosphorusbearing materials on speciations of heavy metals and growth of ryegrass. Journal of Material Cycles and Waste Management, 2023, 26(1), 467-477.

5. Deng, H., Zhang, X.*, Degradation of chloramphenicol by Ti/PbO₂-La anodes and alteration in bacterial community and antibiotics resistance genes. Environmental Pollution, 2022, 302, 229022.

6. Xie, T. Y., Zhang, X.*, et al. Phytotoxicity of sewage sludge passivated by modified potassium feldspar and its effect on ryegrass growth, Environmental Pollutants and Bioavailability, 2023, 35(1), 2205011.

三、代表性研究成果

近年来承担并完成国家自然科学基金项目3项，国家重点研发计划（子课题）3项，山东省重点研发计划1项，山东省自然科学基金7项，横向项目数十项。承担科研项目获山东省科技进步一等奖1项，教育部科技进步奖1项，山东环境科学学会环境保护科学技术进步二等奖1项。

建设完成省级一流课程2门，校级课程思政示范课3门，校级教学成果二等奖1项。