基本情形

杨超
，，男
，，河南信阳人
，，中共党员。。现任壹号娱乐APP情形与化学工程学院专任西席。。

联系方式

地点：：：广东省江门市蓬江区东成村22号 壹号娱乐APP 情形与化学工程学院

邮编：：：529020

邮箱：：：yangchao9205@126.com

事情履历

2025年6月至今
，，壹号娱乐APP
，，情形与化学工程学院
，，专任西席

2023年1月至2025年3月
，，天津大学
，，博士后

2017年7月至2018年8月
，，中国情形科学研究院
，，科研助理

教育及学习履历

2018年9月-2022年 6月
，，天津大学
，，博士

2014年9月-2017年6月
，，中国情形科学研究院与兰州交通大学联合作育
，，硕士

2010年9月-2014年6月
，，南阳理工学院
，，学士

主要研究偏向

新型疏散膜的制备及应用; 新型情形功效质料设计

揭晓学术论文

第一作者

（1）Yang, C.¹; Hou, L.X.¹; Yang, J.L.; Adeel Sharif, M.H.; Li, C.P. ^*, Zwitterionic covalent organic framework triggering enhanced H₂O₂ photoproduction via controllable built-in electric field design. Chemical Engineering Journal 2025, 510, 161631.

（2）Yang, C.; Hou, L.X., Adeel Sharif, M.H., Wang, Y.W., Cai, Y., Li, C.P. ^*, Hou, L.A., Tuning charge distribution in covalent organic frameworks for boosted atrazine degradation through peroxymonosulfate activation driven by visible light, Separation and Purification Technology 2024, 350, 127941.

（3）Yang, C.; Ding, S.Y.; Hou, L.X.^*; Hou, L.A.^*; Zhang, L., Pore functionalization of cationic covalent organic framework membrane: a case towards acid recovery. Separation and Purification Technology 2023, 313, 123463.

（4）Yang, C.; Hou, L.X.; Zhao, J.J.; Yao, Z.K.; Li, G.; Zhang, L.; Hou, L.A.^*, Cationic covalent organic framework membranes with stable proton transfer channel for acid recovery. Chemical Engineering Journal 2022, 428, 131124.

（5）Yang, C.; Hou, L.X.; Zhao, J.J.; Yao, Z.K.; Hou, L.A.^*; Zhang, L., High proton selectivity membrane based on the keto-linked cationic covalent organic framework for acid recovery. Journal of Membrane Science 2021, 640, 119800.

（6）Yang, C.; Hou, L.X.; Xi, B.D.; Hou, L.A.; He, X.S.^*, Contribution of redox-active properties of compost-derived humic substances in hematite bioreduction. Chinese Chemical Letters 2021, 33(5), 2731-2735.

（7）Yang, C.; Zheng, M.X.; Zhang, Y.; Xi, B.D.; Tian, Z.F.; He, X.S.^*, Bioreduction of hexavalent chromium: Effect of compost-derived humic acids and hematite. Chinese Chemical Letters 2020, 31(10), 2693-2697.

（8）Yang, C.; He, X.S.^*; Gao, R.T.; Xi, B.D.; Huang, C.H.; Zhang, H.; Tan, W.B.; Li, D., Effect of compositional and structural evolution of size-fractionated dissolved organic matter on electron transfer capacity during composting. Chinese Journal of Analytical Chemistry 2017, 45(4), 579-586.

（9）Yang, C.; He, X.S.^*; Xi, B.D.; Huang, C.H.; Cui, D.Y.; Gao, R.T.; Tan, W.B.; Zhang, H., Characteristic study of dissolved organic matter for electron transfer capacity during initial landfill stage. Chinese Journal of Analytical Chemistry 2016, 44(10), 1568-1574.

（10）杨 超, 何小松^*, 席北斗, 张 慧, 黄彩红, 高如泰, 檀文炳, 崔东宇. 填埋初期水溶性有机物结构受电子转移的影响. 中国情形科学 2017, 37(01), 229-237.

非第一作者

(1) Hou L.X., Yang C., Xu T.T.; Pan J.F.; Li, C.P. Enabling highly selective acid recovery by 3D covalent organic frameworks membrane with sub-nanochannels. Journal of Membrane Science 2025, 731, 124242.

(2) He, X.S.; Yang, C.; You, S.H.; Zhang, H.; Xi, B.D.; Yu, M.; Liu, S.J., Redox properties of compost-derived organic matter and their association with polarity and molecular weight. Science of the Total Environment 2019, 665, 920-928.

(3) Song, C.; Shan, S.; Yang, C.; Zhang, C.; Zhou, X.; Ma, Q.; Yrj?l?, K.; Zheng, H.; Cao, Y., The comparison of dissolved organic matter in hydrochars and biochars from pig manure. Science of the Total Environment 2020, 720, 137423-137431.

(4) Liu, Y.; Zhu, Z.; He, X.S.; Yang, C.; Ying, D.U.; Huang, Y. D.; Su, P.; Wang, S.; Zheng, X.X.; Xue, Y.J., Mechanisms of rice straw biochar effects on phosphorus sorption characteristics of acid upland red soils. Chemosphere 2018, 207, 267-277.

(5) Yu, M.D.; Xi B.D.; Zhu, Z.Q.; Zhang, L.; Yang, C.; Geng, C.M.; He, X.S., Fate and removal of aromatic organic matter upon a combined leachate treatment process. Chemical Engineering Journal, 2020, 401, 126157-126167.

(6) Wang, W.J.; Lin F.W.; Yan, B.B.; Cheng, Z.J.; Chen, G.Y.; Kuang, M.; Yang, C., Hou, L.A., The role of seashell wastes in TiO₂/seashell composites: photocatalytic degradation of methylene blue dye under sunlight. Environmental Research, 2020, 109831-109844.

(7) Yuan, Y.; Xi, B.; He, X.S.; Tan, W.; Zhang, H.; Li, D.; Yang, C.; Zhao, X., Polarity and molecular weight of compost-derived humic acids impact bio-dechlorination of pentachlorophenol. Journal of Agricultural and Food Chemistry 2019, 67(17), 4726-4733.

(8) Yuan, Y.; Xi, B.; He, X. S.; Tan, W.; Gao, R.; Zhang, H.; Yang, C.; Zhao, X.; Huang, C.; Li, D., Compost-derived humic acids as regulators for reductive degradation of nitrobenzene. Journal of Hazardous Materials 2017, 339(5), 378-384.

(9) Jiang, Y.; Li, R.; Yang, Y.; Yu, M.; Xi, B.; Li, M.; Xu, Z.; Gao, S.; Yang, C., Migration and evolution of dissolved organic matter in landfill leachate- contaminated groundwater plume. Resources, Conservation and Recycling 2019, 151, 104463-104472.

(10) Yu, M.; He, X. S.; Liu, J.; Wang, Y.; Xi, B.; Li, D.; Zhang, H.; Yang, C., Characterization of isolated fractions of dissolved organic matter derived from municipal solid waste compost. Science of the total environment 2018, 635, 275-283.

(11) Yuan, Y.; He, X. S.; Xi, B.; Li, D.; Gao, R.; Tan, W.; Zhang, H.; Yang, C.; Zhao, X., Polarity and molecular weight of compost-derived humic acid affect Fe(III) oxides reduction. Chemosphere 2018, 208, 77-83.

(12) Xiao, X.; Xi, B.D.; He, X.S.; Zhang, H.; Li, Y. H.; Liu, S.J.; Yu, M.; Yang, C., Redox properties and dechlorination capacities of landfill-derived humic-like acids. Environmental Pollution 2019, 253, 488-496.

(13) Zhao, X.; Xi, B.; He, X.; Li, D.; Tan, W.; Zhang, H.; Wang, X.; Yang, C., The impacts of metal ions on phytotoxicity mediate by microbial community during municipal solid waste composting. Journal of environmental management 2019, 242, 153-161.

(14) 李江, 张婷, 潘章斌, 李媛, 李彦澄, 丁士元, 孟庆梅, 王斌, 王涛, 杨超, 等. 2023年水污染控制与水资源使用热门回眸. 科技导报 2024, 42(01): 114-123.