张恒，男，汉族，工学博士，正高级实验师，博士生导师。吉林长春人，2009年08月至今于昆明理工大学化学工程学院工作，现任化学工程学院实验中心主任，2020年入选云南省“兴滇英才支持计划-青年人才”。2018年11月至今，主持国家自然科学基金（地区基金）两项，云南省“兴滇英才支持计划”青年人才一项（原云南省“高层次人才培养支持计划”青年拔尖人才专项），校级人培项目一项；参与云南省科技厅面上项目一项。累计发表学术论文20余篇，累计发表学术论文20余篇，多篇文章发表在AFM，Angew，CEJ等期刊，授权国内发明专利多项。

研究方向

主要从事农林固体废弃物的资源化利用研究，研究工作主要围绕天然纤维素溶解及其制备材料的应用，农林固体废弃物的资源化利用植物纤维的溶解及功能化应用、纳米纤维素的制备等。

联系方式

邮箱：zhangheng0625@sina.com

主要研究项目：

1. 2023.01-2025.12，国家基金项目“高速剪切再生体系制备玉米秸秆薄壁细胞纳米纤维素作用机制的研究”；

1. 2021.01-2025.12，云南省高层次人才培养支持计划“青年拔尖人才”项目，“基于云南特色植物资源纤维素/纳米ZnO三维复合材料的开发及其抗菌机制研究”；

2. 2020.01-2023.12，国家基金项目“蔗髓薄壁细胞多糖改性制备UCST型水凝胶及其温敏机理研究”（已结题）；

3. 2018.06-2020.05，云南省教育厅科学研究基金资助性项目“西双版纳地区特有竹材纤维素（有机/离子溶液）溶解机理研究”（已结题）。

代表性专著与论文：

[1] Zhao Y, Wang X, Li B, Si T, Gao X, Peng L C,Zhang H. Springer Netherlands, 2025. Activation behavior of 4 ‑ AcNH ‑ TEMPO by ­ for selective oxidation of cellulose in DMAc / LiCl system[J]. Cellulose, 2025.

[2] Zhang X, Gao L, Hu Q, Wang X, Gao X, Peng L, Chen K,Zhang H. Cellulosic composite adsorbent prepared via high-speed shear induced regeneration and chemical modification for ciprofloxacin removal[J]. Separation and Purification Technology, 2025, 362(P3): 131854.

[3] Wang X, Zhou J, Gao X,Zhang H, Tang X, Peng L. Industrial Crops & Products Direct utilization of cationic cellulose nanoparticles derived from maize-stalk parenchyma for intensifying mechanical properties and antibacterial activity in non-refined pulp paper[J]. Industrial Crops & Products, 2024, 209: 118077.

[4] Mao X, Li J, Li Y, Si T, Shang J, Cai S, Gao X , Peng L C,Zhang H. The top-down construction of cornstalk-based columns as self-adaptive bio-adsorbents for selective dye adsorption from wastewater[J]. Separation and Purification Technology, 2025, 359: 130493.

[5] Wu X, Liu Y, Li M, Li B, Mao X, Wang Q, Tang X,Zhang H, Peng L, Gao X. Sustainable water sterilization by nano-ZnO using anisotropic polysaccharide columns derived from agro-waste stalk[J]. Chemical Engineering Journal, 2024, 496: 153757.

[6] Wang X, Hu Q, Wang X, Zhang X, Si T, Gao X, Peng L, Chen K,Zhang H. A holocellulose air filter with highly efficient formaldehyde adsorption prepared via low temperature pulping and partial dissolving from corn stalks[J]. International Journal of Biological Macromolecules, 2024, 282: 137164.

[7] Gao L, Hu Q, Gao X, Tang X, Peng L, Chen K,Zhang H. Micromorphology reformation of regenerated cellulose nanofibers from corn (Zea Mays) stalk pith in urea solution with high-speed shear induced[J]. International Journal of Biological Macromolecules, 2024, 267: 131592.

[8] Li B, Wang L, Gao L, Xu T, Zhang D, Li F, Lyu J, Zhu R, Gao X,Zhang H, Hu B, Li R. Elastic Relaxor Ferroelectric by Thiol‐ene Click Reaction[J]. Angewandte Chemie, 2024(19).

[9] Gao L, Hu Q, Gao X, Tang X, Peng L, Chen K,Zhang H. International Journal of Biological Macromolecules Micromorphology reformation of regenerated cellulose nanofibers from corn ( Zea Mays ) stalk pith in urea solution with high-speed shear induced[J]. International Journal of Biological Macromolecules, 2024, 267: 131592.

[10] Zhang Y, Si T, Cai S, Gao X, Tang X, Peng L, Chen Z, Hu Q, Li J,Zhang H. Novel ROS-scavenging hydrogel produced in situ crosslinking between cyclodextrin and cellulose for promoting diabetic wound healing[J]. Chemical Engineering Journal, 2024, 486: 150373.

[11]Zhang H, Hu Q, Si T, Tang X, Shan S, Gao X, Peng L, Chen K. All-cellulose air filter composed with regenerated nanocellulose prepared through a facile method with shear-induced[J]. International Journal of Biological Macromolecules, 2023, 228: 548–558.

[12] Hu Q, Gao X,Zhang H, Si T, Tang X, Peng L. High-speed shear-induced micro regenerated cellulose materials preparation: A promising solution for highly efficient and low pressure drop air filtration using agricultural waste[J]. Chemical Engineering Journal, 2023, 476: 146603.

[13] Li M, Tang X, Gao X,Zhang H, Cai S, Shan S. Nano ZnO-decorated corn stalk for three-dimensional composite filter with efficiently antimicrobial action[J]. Journal of Materials Research and Technology, 2021, 12: 444–454.

[14] Tan T, Zhou J, Gao X, Tang X,Zhang H. Synthesis, characterization and water-absorption behavior of tartaric acid-modified cellulose gel fromcorn stalk pith[J]. Industrial Crops and Products, 2021, 169: 113641.

[15] Gao X, Li M,Zhang H, Tang X, Chen K. Fabrication of regenerated cellulose films by DMAc dissolution using parenchyma cells via low-temperature pulping from Yunnan-endemic bamboos[J]. Industrial Crops and Products, 2021, 160.

[16] Gu H, Gao X,Zhang H, Chen K, Peng L. Fabrication and characterization of cellulose nanoparticles from maize stalk pith via ultrasonic-mediated cationic etherification[J]. Ultrasonics Sonochemistry, 2020, 66: 104932.

[17] Han Q, Gao X,Zhang H, Chen K, Peng L, Jia Q. Preparation and comparative assessment of regenerated cellulose films from corn (Zea mays)stalk pulp fines in DMAc/LiCl solution[J]. Carbohydrate Polymers, 2019, 218: 315–323.

[18] Zhang Y, Gao X, Tang X, Peng L,Zhang H, Zhang S, Hu Q, Li J. A dual pH- and temperature-responsive hydrogel produced in situ crosslinking of cyclodextrin-cellulose for wound healing[J]. International Journal of Biological Macromolecules, 2023, 253: 126693.

[19] Tian M, Wang Z, Yuan X,Zhang H, Liu Z, Liu Y. Configurationally Confined Multilevel Supramolecular Assemblies for Modulating Multicolor Luminescence[J]. Advanced Functional Materials, 2023, 33(22): 1–8.

[20] Li B, Liu G, Tang X,Zhang H, Gao X. Facile preparation of all cellulose composite with excellent mechanical and antibacterial properties via partial dissolution of corn-stalk biomass[J]. International Journal of Biological Macromolecules, 2023, 228: 89–98.

[21] Li J, Tang X,Zhang H, Gao X, Zhang S, Tan T. Adsorption behavior of three-dimensional bio-adsorbent from maize stalk pith for methylene blue[J]. Industrial Crops and Products, 2022, 188: 115717.

[22] Gao X, Yu Z, Tang X,Zhang H, Peng L, Li J. Augmented antibacterial mechanism of ZnO nanoparticles by labyrinthian-channel configuration of maize-stalk carbohydrate columns and sustainable strategy for water decontamination[J]. Journal of Hazardous Materials, 2022, 436: 129258.

[23] Zhang S, Shan S,Zhang H, Gao X, Tang X, Chen K. Antimicrobial cellulose hydrogels preparation with RIF loading from bamboo parenchyma cells: A green approach towards wound healing[J]. International Journal of Biological Macromolecules, 2022, 203: 1–9.

[24] Liu Z, Tian M,Zhang H, Liu Y. Reversible dynamic optical sensing based on coumarin modified β-cyclodextrin for glutathione in living cells[J]. Chemical Communications, 2022, 59(7): 896–899.

[25] Tang X, Liu G,Zhang H, Gao X, Li M, Zhang S. Facile preparation of all-cellulose composites from softwood, hardwood, and agricultural straw cellulose by a simple route of partial dissolution[J]. Carbohydrate Polymers, 2021, 256: 117591.

[26]Zhang H, Chen K, Gao X, Han Q, Peng L. Improved thermal stability of regenerated cellulose films from corn (Zea mays)stalk pith using facile preparation with low-concentration zinc chloride dissolving[J]. Carbohydrate Polymers, 2019, 217: 190–198.

[27]Zhang H, Tang X, Gao X, Chen K. Fabrication and comparative evaluation of regenerated cellulose films using pulp fines and pith from corn stalk in DMAc/LiCl solvent system[J]. BioResources, 2019, 14(3): 6421–6432.

代表性专利：

[1]张恒,高欣,陈克利.一种玉米秸穰纤维素速成膜的制备办法.专利号:ZL.201710107220.8

[2]张恒,高欣,陈克利,陈海燕,朱正良.一种玉米秸秆改性纤维素凝胶的制备办法.专利号:ZL.201410595881.6

[3]胡秋月，张恒，高欣.一种再生纤维素纳米丝的制备方法.发明专利，202110588718.7

[4]张恒，张渝婷，高欣.一种具有药物缓释能力再生纤维素膜的制备方法.发明专利，202210527046.3

[5]高欣，张恒，玉米秸穰固载钯催化复合材料的制备方法及应用，201710450248.1，授权发明专利。

[6]高欣，张恒，黑磷稀/玉米秸穰综纤维素醚共混凝胶的制备方法及应用，201710450246.2，授权发明专利。

[7]高欣，张恒，玉米秸穰半纤维素基疏水温敏凝胶的制备方法及应用，2017104253338.5，授权发明专利。

[8]高欣，张恒，陈克利，戊二醛交联聚乙烯亚胺纸基薄膜的制备方法，201611115967.X，授权发明专利。

[9]高欣，张恒，陈克利，羟丙基瓜尔胶纳米纤维素交联吸附膜的制备方法及应用，201610889762.0，授权发明专利。

[10]高欣，张恒，陈克利，何洁，一种羟丙基甲基纤维素交联膜的制备方法，2016108889694.8，授权发明专利。

[11]高欣，陈克利，何洁，玉米芯微米纤维增强氧化纤维素/聚乙烯醇共混地膜的制备方法，201610740589.8，授权发明专利。