2024年:
[58] Zeyu Wang, Hongliang Dai*, Beiyue Chen, Sichao Cheng, Yang Sun, Jinkun Zhao, Zechong Guo, Xingwei Cai, Xingang Wang, Bing Li*, Hongya Geng*, Effluent quality prediction of the sewage treatment based on a hybrid neural network model: Comparison and application, Journal of Environmental Management, 2024, 351, 119900.
[57] Junting Cui, Lan Liu, Beiyue Chen, Jiayi Hu, Mengyao Song, Hongliang Dai*, Xingang Wang*, Hongya Geng*, A comprehensive review on the inherent and enhanced antifouling mechanisms of hydrogels and their applications, International Journal of Biological Macromolecules, 2024, 265, 130994.
[56] Cangxiang Wen, Zheqin Dai, Hongliang Dai, Xiao Zha, Fangkui Cheng, Helai Cheng, Qingxiu Cai, Xiwu Lu*, Enhancing energy recovery and microbial stability in blackwater anaerobic digestion with graphite felt, Journal of Water Process Engineering, 2024, 58, 104808.
[55] Fang Xu, Wuxiang Zhang*, Xingang Wang, Hongliang Dai, Chao Yu, Xingyu Liu, Zihan Li, Ming Zhang, Dengxin Yan, Fangyan Chen, Yubin Tang*, Multi-level FeCo/N-doped carbon nanosheet for peroxymonosulfate oxidation and sterilization inactivation, Journal of colloid and interface science, 2024, 661, 840-852.
[54] Lan Liu, Xin Fan, Qianyun Lu, Pengxu Wang, Xingang Wang, Yuxing Han, Runming Wang, Canyang Zhang, Sanyang Han, Tatsuhisa Tsuboi, Hongliang Dai*, Jonathan Yeow*, Hongya Geng*, Antimicrobial research of carbohydrate polymer- and protein-based hydrogels as reservoirs for the generation of reactive oxygen species: A review, International Journal of Biological Macromolecules, 2024, 260, 129251.
[53] Xiaoyu Jia, Xin Fan, Cheng Chen, Qianyun Lu, Hongfeng Zhou, Yanming Zhao, Xingang Wang, Sanyang Han, Liliang Ouyang, Hongji Yan, Hongliang Dai*, Hongya Geng*, Chemical and Structural Engineering of Gelatin-Based Delivery Systems for Therapeutic Applications: A Review, Biomacromolecules, 2024, 25, 564−589
[52] Zhihua Xia, Xingang Wang, Kai Liu, Haoyun Wang, Yingqi Wang, Wenxin Lu, Deyi Jiang, Haq Nawaz Abbasi, Zechong Guo, Wuxiang Zhang, Hongliang Dai*, Preparation and photocatalytic properties of WSe2/BiVO4 p-nheterojunction photocatalytic materials, Catalysis Communications, 2024, 106857.
[51] Hongliang Dai, Xingyu Liu, Jinkun Zhao, Zeyu Wang, Yanpeng Liu, Guangcan Zhu, Bing Li, Haq Nawaz Abbasi, Xingang Wang, Modeling and diagnosis of water quality parameters in wastewater treatment process based on improved particle swarm optimization and self-organizing neural network, Journal of Environmental Chemical Engineering, 2024, Major Revision.
[50] Zihan Li, Wuxiang Zhang*, Xingyu Liu, Xingang Wang, Hongliang Dai, Fangyan Chen, Yubin Tang, Jiansheng Li*, Iron-Cobalt Magnetic Porous Carbon Beads Activated Peroxymonosulfate for Enhanced Degradation and Microbial Inactivation, Journal of colloid and interface science, 2023, 652, 1878-1888.
2023年:
[49] Xiaorui Li, Pengxu Wang, Qianyun Lu, Houze Yao, Ce Yang, Yanming Zhao, Jiayi Hu, Hongfeng Zhou, Mengyao Song, Huhu Cheng, Hongliang Dai*, Xingang Wang*, Hongya Geng*, A hierarchical porous aerohydrogel for enhanced water evaporation, Water Research, 2023, 244, 120447. (中科院一区TOP,自然指数期刊, IF=12.8).
[48] Cheng Han, Hongliang Dai*, Zechong Guo, Guangcan Zhu, Bing Li, Haq Nawaz Abbasi , Xingang Wang*, Insight into the mechanism of nutrients removal and response regulation of denitrifying phosphorus removal system under calcium ion stress, Bioresource Technology, 2023, 388, 129747. (中科院一区TOP, IF=11.4).
[47] Cheng Chen, Xiaoyu Jia, Xiaorui Li, Mingyang Shi, Jiayi Hu, Mengyao Song, Shuwang Wu, Hongliang Dai*, Xingang Wang*, Hongya Geng*, Scalable wet-spinning of wearable chitosan-silica textile for all-day radiative cooling, Chemical Engineering Journal (Accepted, 中科院一区TOP, IF=15.1).
[46] Hongliang Dai, Haoxi Zhang, Yang Sun, H. Abbasi, Zechong Guo, Lizhuang Chen, Yong Chen, Xingang Wang*, Shuai Zhang*, An integrated process for struvite recovery and nutrient removal from ship domestic sewage, Water Research, 2023, 228:119381. (中科院一区TOP, 自然指数期刊, IF=12.8).
[45] Pengxu Wang,Qing Liu, Wenliang Fu, Chao Zhang, Guiling Cai, Weiwei Xing, Hongliang Dai, Hongya Geng*, Donggang Xu*, Modulation of non-covalent wet adhesion and cohesion via proximally immobilized non-lysine pair structure, Chemical Engineering Journal, 2023, 461, 141738. (中科院一区TOP, IF=15.1).
[44] Zeyu Wang, Hongliang Dai*, Yang Sun, Jinkun Zhao, Jun Wang, Haq Nawaz Abbasi, Zechong Guo, Xingwei Cai, Xingang Wang*, Hongya Geng*, Effluent quality prediction of the sewage treatment based on a hybrid neural network model: Comparison and application, Journal of Environmental Management (Substantially revision, 中科院一区TOP, IF=8.7).
[43] Yang Sun, Ting Han, Wenxin Lu, Yingqi Wang, Deyi Jiang, Haq Nawaz Abbasi, Zechong Guo, Bing Li,Shuai Zhang, Xingang Wang*, Hongliang Dai*, Effects of nano metal oxide particles on denitrifying phosphorus removal system: potential stress mechanism and recovery strategy, Science of the Total Environment, 2023, 875, 162706. (中科院一区TOP, IF=9.8).
[42] Jinkun Zhao, Hongliang Dai*, Zeyu Wang, Cheng Chen, Xingwei Cai, Mengyao Song, Zechong Guo, Shuai Zhang, Xingang Wang*, Hongya Geng*, Self-organizing modeling and control of activated sludge process based on fuzzy neural network, Journal of Water Process Engineering, 2023, 103641. (中科院二区, IF=7.0).
[41]Hongliang Dai *, Zeyu Wang, Jinkun Zhao, Xiaoyu Jia, Lan Liu, Jun Wang, H. Abbasi, Zechong Guo, Yong Chen, Hongya Geng, Xingang Wang*, Modeling and optimizing of an actual municipal sewage plant: A comparison of diverse multi-objective optimization methods, Journal of Environmental Management, 2023, 328:116924. (中科院一区TOP, IF=8.7).
[40]Hongliang Dai, Jinkun Zhao, Zeyu Wang, Cheng Chen, Xingyu Liu, Zechong Guo, Yong Chen, Shuai Zhang, Jiuling Li, Hongya Geng*, Xingang Wang*, Optimal control of sewage treatment process using a dynamic multi-objective particle swarm optimization based on crowding distance, Journal of Environmental Chemical Engineering, 2023, 109484. (中科院二区, IF=7.7).
2022年:
[39] Xiang Li, Yuye Xu, Shuting Shen, Ting Guo, Hongliang Dai*, Xiwu Lu*. Effects of dissolved organic matter on phosphorus recovery via hydroxyapatite crystallization: New insights based on induction time. Science of the Total Environment, 2022, 822, 153618. (中科院一区TOP, IF=9.8).
[38]Xiang Li, Shuting Shen, Yuye Xu, Ting Guo, Hongliang Dai, Xiwu Lu*. Transformation and fate of non-reactive phosphorus (NRP) in enhanced biological phosphorus removal process with side-stream phosphorus recovery. Science of the Total Environment, 2022, 839,156275. (中科院一区TOP, IF=9.8).
[37]Hongliang Dai*, Ting Han, Junting Cui, Xiang Li, Haq Nawaz Abbasi, Xingang Wang*, Zechong Guo, Yong Chen. Stability, aggregation, and sedimentation behaviors of typical nano metal oxide particles in aqueous environment. Journal of Environmental Management, 2022, 316, 115217. (中科院一区TOP, IF=8.7).
[36] Xingang Wang, Qianyun Lu, Yang Sun, Kai Liu, Junting Cui, Changyu Lu, Hongliang Dai*. Fabrication of novel p-n-p heterojunctions ternary WSe2/In2S3/ZnIn2S4 to enhance visible-light photocatalytic activity. Journal of Environmental Chemical Engineering, 2022,10,108354. (中科院二区, IF=7.7).
[35]Hongya Geng, Simon Vilms Pedersen, Yun Ma, Tabasom Haghighi, Hongliang Dai, Philip D. Howes, and Molly M. Stevens*. Noble Metal Nanoparticle Biosensors: From Fundamental Studies toward Point-of-Care Diagnostics. Accounts of Chemical Research, 2022, 55, 593-604. (中科院一区TOP, IF=18.3).
[34]Hongliang Dai, Yang Sun, Dong Wan, Haq Nawaz Abbasi, Zechong Guo, Hongya Geng, Xingang Wang*, Yong Chen. Simultaneous denitrification and phosphorus removal: A review on the functional strains and activated sludge processes. Science of The Total Environment, 2022, 835, 155409. (中科院一区TOP, IF=9.8).
[33]Xiao Leng, Isaac D. Tegladza, Abudukeremu Kadier, Hongliang Dai, Jun Lu*.In-situ generation of both hydroxyl radical and adsorptive flocs in electro-coagulation process with air breathing cathode. Process Safety and Environmental Protection, 2022, 164: 345–353. (中科院二区, IF=7.8).
[32] Xiaorui Li, Hongliang Dai*, Ting Han, Zechong Guo, Hui Li, Xingang Wang, Haq Nawaz Abbasi. Construction of double tube granular sludge microbial fuel cell and its characteristics and mechanism of azo dye degradation. Environmental Science and Pollution Research, 2022, 7, 19814. (中科院三区, IF=5.8).
[31]Xingang Wang, Kai Liu, Zhengtong Jing, Xiaorui Li, Yang Sun, Feng Guo, Hongliang Dai*. Construction of WSe2/In2S3 heterojunction for boosted photocatalytic performance for the degradation of methylene blue under visible light. Journal of Chemical Technology and Biotechnology, 2022, 97: 1813–1821. (中科院四区, IF=3.4).
2021年:
[30] Dong Wan, Haiyue Wang, Virender K. Sharma, Steplinpaulselvin Selvinsimpson, Hongliang Dai, Fan Luo, Chengjun Wang, and Yong Chen*. Mechanistic Investigation of Enhanced Photoreactivity of Dissolved Organic Matter after Chlorination, Environmental Science & Technology, 2021, 55, 8937-8946. (中科院一区TOP, 自然指数期刊, IF=11.4).
[29] Xingang Wang, Ting Han, Yang Sun, Hongya Geng, Bing Li, Dai Hongliang*. Effects of nano metal oxide particles on activated sludge system: stress and performance recovery mechanism. Environmental Pollution, 2021, 117408. (中科院二区TOP, IF=8.9).
[28] Xiang Li, Shuting Shen, Yuye Xu, Ting Guo, Dai Hongliang*,Xiwu Lu*, Application of membrane separation processes in phosphorus recovery:A review. Science of the Total Environment, 2021, 767, 144346. (中科院一区TOP, IF=9.8).
[27] Xingang Wang, Kai Liu, Hui Zhu, Chongyu Li, Leilei Lin, Feng Guo*, Hongliang Dai*, Preparation of MoSe2/Ag3PO4 composites and their photocatalytic properties for the degradation of rhodamine B in visible light. Chinese Journal of Inorganic Chemistry, 2021,37, 2:327-339. (中科院四区, IF=0.7).
[26] Xingang Wang, Kai Liu, Hui Zhu, Tongshuai Sun, Ting Han, Jialiang Li*, Hongliang Dai*, An effective and selective stable metal-organic framework adsorbent (Al-MOF-5) for the removal of fluoride from water. Desalination and Water Treatment, 2021, 216:220-231. (中科院四区, IF=1.1).
[25]Hongliang Dai*, Tongshuai Sun, Ting Han, Xiang Li, Zechong Guo, Xingang Wang*, Yong Chen*. Interactions between cerium dioxide nanoparticles and humic acid: Influence of light intensities and molecular weight fractions. Environmental Research, 2021, 195,110861. (中科院二区TOP, IF=8.3).
[24]Hongliang Dai*, Ting Han, Tongshuai Sun, Hui Zhu, Xingang Wang *, Xiwu Lu, Nitrous oxide emission during denitrifying phosphorus removal process: A review on the mechanisms and influencing factors. Journal of Environmental Management, 2021, 111561. (中科院一区TOP, IF=8.7).
2020年:
[23]Wenliang Chen, Hongliang Dai*, Ting Han, Xingang Wang*, Xiwu Lu, Chonghua Yao.Mathematical modeling and modification of a cycle operating activated sludge process via the multi-objective optimization method. Journal of Environmental Chemical Engineering, 2020, 8(6), 104470. (中科院二区, IF=7.7).
[22]Hongliang Dai*, Tongshuai Sun, Ting Han, Zechong Guo, Xingang Wang*, Yong Chen*. Aggregation behavior of zinc oxide nanoparticles and their biotoxicity to Daphnia magna: Influence of humic acid and sodium alginate. Environmental Research, 2020, 191,110086. (中科院二区TOP, IF=8.3).
[21] Xingang Wang, Tongshuai Sun, Hui Zhu, Ting Han, Jie Wang, and Hongliang Dai*. Roles of pH, cation valence, and ionic strength in the stability and aggregation behavior of zinc oxide nanoparticles. Journal of Environmental Management, 2020, 110656. (中科院一区TOP, IF=8.7).
[20] Xingang Wang, Hui Zhu, Tongshuai Sun, Hongliang Dai*. Synthesis of a Matériaux Institut Lavoisier metal-organic framework 96(MIL-96(RM)) using red mud and its application to defluorination of water. Materials Today Communications, 2020, 101401. (中科院三区, IF=3.8).
2019年:
[19] Xingang Wang, Hui Zhu, Tongshuai Sun, Yinbo Liu, Ting Han, Jingxian Lu, Hongliang Dai*, Linzhi Zhai. Synthesis and Study of an Efficient Metal-Organic Framework Adsorbent (MIL-96(Al)) for Fluoride Removal from Water. Journal of Nanomaterials, 2019, 3128179. (中科院四区, IF=3.7).
[18]Hongliang Dai, Wenliang Chen, Lihong Peng, Xingang Wang*, Xiwu Lu*. Modeling and performance improvement of an anaerobic–anoxic/nitrifying-induced crystallization process via the multi-objective optimization method. Environmental Science and Pollution Research, 2019, 26:5083-5093. (中科院三区, IF=5.8).
2018年:
[17]Hongliang Dai, Xinwei Tan, Hui Zhu, Tongshuai Sun, Xingang Wang*. Effects of Commonly Occurring Metal Ions on Hydroxyapatite Crystallization for Phosphorus Recovery from Wastewater. Water, 2018, 10(11), 1619. (中科院三区, IF=3.4).
[16] Lihong Peng, Hongliang Dai (共同一作), Yifeng Wu, Yonghong Peng, Xiwu Lu*. A comprehensive review of phosphorus recovery from wastewater by crystallization processes. Chemosphere, 2018, (197):768-781. (中科院二区TOP, IF=8.8).
[15] Lihong Peng, Hongliang Dai (共同一作), Yifeng Wu, Yonghong Peng, Xiwu Lu*. A comprehensive review of the available media and approaches for phosphorus recovery from wastewater. Water Air and Soil Pollution, 2018, 229:115. (中科院四区, IF=2.9).
[14] Lihong Peng, Hongliang Dai (共同一作), Yifeng Wu, Zheqin Dai, Xiang Li, Xiwu Lu*. Performance and adsorption mechanism of a magnetic calcium silicate hydrate composite for phosphate removal and recovery. Water Science and Technology, 2018, 2: 578-591. (中科院四区, IF=2.7).
2017年:
[13] Xingang Wang, Hongliang Dai*, Jie Zhang, Tongyi Yang, Fangyan Chen. Unraveling the long-term effects of Cr(VI) on the performance and microbial community of nitrifying activated sludge system. Water, 2017, 9(909). (中科院三区, IF=3.4).
[12]Hongliang Dai, Zheqin Dai, Lihong Peng, et, al. Metagenomic and metabonomic analysis reveals the effects of chemical phosphorus recovery on biological nutrient removal system. Chemical Engineering Journal, 2017, 328:1087-1097. (中科院一区TOP, IF=15.1).
[11]Hongliang Dai, Yifeng Wu, Lihong Peng, et, al. Effects of calcium on the performance, bacterial population and microbial metabolism of a denitrifying phosphorus removal system. Bioresource Technology, 2017, 243:828-835. (中科院一区TOP, IF=11.4).
[10] Hongliang Dai, Xiwu Lu*, Yonghong Peng, Zixuan Yang, Huaqing Zhu. Effects of supersaturation control strategies on hydroxyapatite (HAP) crystallization for phosphorus recovery from wastewater. Environmental Science and Pollution Research, 2017, 24:5791-5799. (中科院三区, IF=5.8).
[9] Hongliang Dai, Wenliang Chen, Zheqin Dai, Xiang Li, Xiwu Lu*. Efficient model calibration method based on phase experiments for A2N two-sludge process. Environmental Science and Pollution Research, 2017, 24:19211-19222. (中科院三区, IF=5.8).
[8]Hongliang Dai, Xiwu Lu*, Lihong Peng, Xiang Li, Zheqin Dai. Enrichment culture of denitrifying phosphorus removal sludge and its microbial community analysis. Environmental Technology, 2017, 38, 2800-2810. (中科院四区, IF=2.8).
[7] Huaqing Zhu, Xiwu Lu*, Hongliang Dai. Surface-flow constructed wetlands dominated by Cladophora for reclaiming nutrients in diffuse domestic effluent. Chemosphere, 2017, 195: 524-530. (中科院二区TOP, IF=8.8).
2016年:
[6]Hongliang Dai, Wenliang Chen, Xiwu Lu*. The application of multi-objective optimization method for activated sludge process: a review. Water Science and Technology, 2016, 73(2):223-235. (中科院四区, IF=2.7).
[5]Hongliang Dai, Xiwu Lu*, Yonghong Peng, et, al. An efficient approach for phosphorus recovery from wastewater using series-coupled air-agitated crystallization reactors. Chemosphere, 2016, 165:211-220. (中科院二区TOP, IF=8.8).
[4] Jing Huang, Hongliang Dai, Ren Yan, Pu Wang. Butyric acid production from recycled waste paper by Clostridium tyrobutyricum in fibrous-bed bioreactor. Journal of Chemical Technology & Biotechnology, 2016, 91: 48-54. (中科院四区, IF=3.4).
[3] Jing Huang, Hongliang Dai, Ren Yan, Pu Wang. Enhanced production of butyric acid through immobilized Clostridium tyrobutyricum in an inner disc-shaped matrix bioreactor. Annals of Microbiology, 2016, 66(1):121-129. (中科院四区, IF=3.0).
[2]代洪亮, 吕锡武*, 高琪娜. 基于诱导HAP 结晶的强化生物除磷工艺厌氧上清液中磷的回收. 东南大学学报(自然科学版). 2016, 46(5):1020-1025.
[1] 成昌艮, 吕锡武*,代洪亮. 农村生活污水高效厌氧反应器性能优化. 水处理技术, 2016, 6:118-123.