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董浩然,教授, 博导, 香港科技大学环境工程专业博士学位,担任院长助理、环境科学系主任、环境生物与控制教育部重点实验室副主任,国家优秀青年科学基金获得者,湖南省“湖湘青年英才”、湖南大学“岳麓学者”、2020-2023连续4年入选全球前 2% 顶尖科学家榜单,入选2023年全球前2%顶尖科学家职业长期影响力榜单。主要研究方向是土壤/地下水污染原位修复,环境纳米技术,纳米颗粒/污染物在地下环境中的归趋和迁移行为研究。主持/参与10余项国家/省部级科研项目,已在环境领域国际权威期刊发表论文100余篇,申请/授权12项国家发明专利, 荣获2019年度教育部高等学校科学研究优秀成果奖自然科学奖二等奖,2021年度中国有色金属科技成果奖二等奖。现为《Chinese Chemical Letters》(中国化学快报)青年编委,《能源环境保护》青年编委,《Water》期刊编委, 国际水协会IWA-YWP委员,国家科技专家库专家,湖南省科技专家库专家,湖南省建设项目专家库专家,湖南省环境治理行业协会环保专家库专家等。
研究兴趣:纳米材料-微生物协同环境修复,地下水污染原位修复;重金属污染治理;纳米颗粒/污染物在地下环境中的归趋和迁移行为 (***欢迎具有环境,化学,给排水,微生物学专业背景的学生加入课题研究,急需具有微生物修复背景的研究生、博士后加入课题研究***E-mail: dongh@hnu.edu.cn)。
主要科研项目:
1. 国家自然科学基金-优秀青年科学基金项目,地下水污染原位修复,2022-2024,主持
2. 国家自然科学基金-面上项目,表面改性纳米零价铁与脱卤菌联合作用机制及其协同降解地下水中三氯乙烯的机理研究,2019-2022,主持
3. 国家自然科学基金-青年科学基金项目,应用于地下水污染原位修复的修饰型纳米零价铁的胶体稳定性、反应活性和微生物毒性三要素的内在关联机制研究,2015-2017,主持
4.湖南省“湖湘青年英才”支持计划,2021-2024,主持
SCI期刊论文:
2024年发表论文:
1.Zhang, HX; Li, L; Dong, HR*; Xiao, SJ; Deng, JM; Huang, DF; Xiao, JY. Different sulfidized procedures and sulfur precursors alter the bacterial toxicity of sulfidized nanoscale zero-valent iron by affecting the physicochemical properties.Environmental Science: Nano, (2024) DOI:10.1039/d3en00899a.
2. Xiao, JY; Li, YJ; Dong, HR; Pang, ZJ; Zhao, MX; Dong, J; Huang, DF; Li, L. Iodide ion as an electron shuttle to significantly accelerate the elimination of sulfamethazine in the Fenton-like system under neutral condition.Applied Catalysis B: Environmental,344(2024) 123610.
2023年发表论文:
1. Dong, J; Dong, HR*; Li, YJ; Xiao, JY; Li, L; Huang, DF; Xiao, SJ; Deng, JM.Low additive peracetic acid enhanced sulfamethazine degradation by permanganate: A mechanistic study. Water Research 242 (2023) 120298.
2. Junyang Xiao, Yangju Li, Haoran Dong*, Zijun Pang, Mengxi Zhao, Daofen Huang, Jie Dong, Long Li. Highly efficient activation of peracetic acid via zero-valent iron-copper bimetallic nanoparticles (nZVIC) for the oxidation of sulfamethazine in aqueous solution under neutral condition. Applied Catalysis B: Environmental 340 (2023)123183.
3. Li, YJ; Dong, HR*; Xiao, JY; Li, L; Dong, J; Huang, DF; Deng, JM.Ascorbic Acid-Enhanced CuO/Percarbonate Oxidation: Insights Into the pH-Dependent Mechanism. ACS ES&T Engineering 3(6)(2023) 798-810.
4. Li, YJ; Dong, HR*; Xiao, JY; Li, L; Hou, YN; Chu, DD; Hou, XZ; Xiang, SX; Dong, QX. Ascorbic acid-assisted iron silicate composite activated peroxydisulfate for enhanced degradation of aqueous contaminants: Accelerated Fe(III)/Fe(II) cycle and the interaction between iron and silicate. Chemical Engineering Journal 455 (2023)140773.
5. Li, YJ; Xiao, JY; Dong, HR*; Li, L; Dong, J; Huang, DF. Enhanced chalcopyrite-catalyzed heterogeneous Fenton oxidation of diclofenac by ABTS. Journal of Hazardous Materials 463(2023)132908.
6.Dong, QX; Li, YJ; Xiao, JY; Xiang, SX; Hou, XZ; Chu, DD; Zeng, ZT; Dong, HR*. Efficient catalytic degradation of sulfamethazine in aqueous solution by activation of peroxydisulfate with CuFeO2. Journal of Environmental Chemical Engineering 11(2023)110564.
7. Hou, XZ; Dong, HR; Li, YJ; Xiao, JY; Dong, QX; Xiang, SX; Chu, DD. Activation of persulfate by graphene/biochar composites for phenol degradation: Performance and nonradical dominated reaction mechanism. Journal of Environmental Chemical Engineering 11(2023)109348.
2022年发表论文:
1. Xiao, SJ; Jin, ZL; Haoran Dong*; Xiao, JY; Li, YJ; Li, L; Li, R; Chen, J; Tian, R ; Xie, QQ. A comparative study on the physicochemical properties, reactivity and long-term performance of sulfidized nanoscale zerovalent iron synthesized with different kinds of sulfur precursors and procedures in simulated groundwater. Water Research 212 (2022) 118097.
2. Li, YJ; Haoran Dong*; Xiao, JY; Li, L; Chu, DD; Hou, XZ; Xiang, SX; Dong, QX. Oxidation of sulfamethazine by a novel CuS/calcium peroxide/ tetraacetylethylenediamine process: High efficiency and contribution of oxygen-centered radicals. Chemical Engineering Journal 448 (2022)137620.
3.Zilan Jin; Yangju Li; Haoran Dong*; Shuangjie Xiao; Junyang Xiao; Dongdong Chu; Xiuzhen Hou; Shuxue Xiang; Qixia Dong; Long Li.A comparative study on the activation of persulfate by mackinawite@biochar and pyrite@biochar for sulfamethazine degradation: The role of different natural iron-sulfur minerals doping. Chemical Engineering Journal 436 (2022)129183.
4. Chu, DD; Haoran Dong*; Li, YJ; Xiao, JY; Hou, XZ; Xiang, SX; Dong, QX. Sulfur or nitrogen-doped rGO supported Fe-Mn bimetal-organic frameworks composite as an efficient heterogeneous catalyst for degradation of sulfamethazine via peroxydisulfate activation. Journal of Hazardous Materials 436 (2022)129183.
5. Li, YJ; Haoran Dong*; Xiao, JY; Li, L; Chu, DD; Hou, XZ; Xiang, SX; Dong, QX. Insights into a novel CuS/percarbonate/tetraacetylethylenediamine process for sulfamethazine degradation in alkaline medium. Journal of Hazardous Materials 435 (2022)128999.
6. Dong, QX; Haoran Dong*; Li, YJ; Xiao, JY; Xiang, SX; Hou, XZ; Chu, DD. Degradation of sulfamethazine in water by sulfite activated with zero-valent Fe-Cu bimetallic nanoparticles. Journal of Hazardous Materials 431 (2022)128601.
7.Chu, DD; Haoran Dong*; Li, YJ; Xiao, JY; Xiang, SX; Dong, QX; Hou, XZ. Insights into the correlation between different adsorption/oxidation/catalytic performance and physiochemical characteristics of Fe-Mn oxide-based composites. Journal of Hazardous Materials 439(2022) 129631.
8.Xiao, Junyang; Haoran Dong*; Li, Yangju; Li, Long; Chu, Dongdong; Xiang, Shuxue; Hou, Xiuzhen; Dong, Qixia; Xiao, Shuangjie; Jin, Zilan; Wang, Jiajia. Graphene shell-encapsulated copper-based nanoparticles (G@Cu-NPs) effectively activate peracetic acid for elimination of sulfamethazine in water under neutral condition.Journal of Hazardous Materials 441(2022)129895.
9. Yangju Li, Haoran Dong*, Junyang Xiao, Long Li, Dongdong Chu, Xiuzhen Hou, Shuxue Xiang, Qixia Dong, Haoxuan Zhang. Advanced oxidation processes for water purification using percarbonate: Insights into oxidation mechanisms, challenges, and enhancing strategies.Journal of Hazardous Materials 442 (2023) 130014.
10. Li, Long;Haoran Dong*; Lu, Yue; Zhang, Haoxuan; Li, Yangju; Xiao, Junyang; Xiao, Shuangjie; Jin, ZilanIn-depth exploration of toxicity mechanism of nanoscale zero-valent iron and its aging products toward Escherichia coli under aerobic and anaerobic conditions.Environmental Pollution 313 (2022) 120118.
11.Junyang Xiao; Shuangjie Xiao; Haoran Dong*; Zilan Jin; Yangju Li; Long Li; Ran Tian; Rui Li; Jie Chen; Qianqian Xie. Degradation of sulfamethazine by amorphous zero-valent iron microspheres (A-mZVI) activated peroxydisulfate in groundwater. Journal of Cleaner Production 346 (2022)131276.
12. Chu, DD; Haoran Dong*; Li, YJ; Jin, ZL; Xiao, JY; Xiang, SX; Dong, QX; Hou, XZ. Enhanced activation of sulfite by a mixture of zero-valent Fe-Mn bimetallic nanoparticles and biochar for degradation of sulfamethazine in water. Separation and Purification Technology 285 (2022)120315.
13. Junyang Xiao; Rui Li; Haoran Dong*; Yangju Li; Long Li; Shuangjie Xiao; Zilan Jin. Activation of sulfite via zero-valent iron-manganese bimetallic nanomaterials for enhanced sulfamethazine removal in aqueous solution:Key roles of Fe/Mn molar ratio and solution pH. Separation and Purification Technology 297 (2022)121479.
14.Shuxue Xiang; Haoran Dong*; Yangju Li; Junyang Xiao; Qixia Dong; Xiuzhen Hou; Dongdong Chu. A comparative study of activation of peroxymonosulfate and peroxydisulfate by greigite (Fe3S4) for the degradation of sulfamethazine in water. Separation and Purification Technology 290 (2022)120873.
2021年发表论文:
1. Yangju Li, Haoran Dong*, Long Li, Lin Tang, Ran Tian, Rui Li, Jie Chen, Qianqian Xie, Zilan Jin, Junyang Xiao, Shuangjie Xiao, Guangming Zeng. Recent advances in waste water treatment through transition metal sulfides-based advanced oxidation processes. Water Research 192 (2021) 116850.
2.Li, Yangju, Haoran Dong*, Li, Long, Xiao, Junyang, Xiao, Shuangjie,Jin, Zilan. Efficient degradation of sulfamethazine via activation of percarbonate by chalcopyrite. Water Research 202 (2021) 117451.
3. Jin, Zilan, Xiao, Shuangjie, Haoran Dong*, Xiao, Junyang, Tian, Ran, Chen, Jie Li, Yangju, Li, Long. Adsorption and catalytic degradation of organic contaminants by biochar: Overlooked role of biochar's particle size.Journal of hazardous materials 422 (2021) 126928.
4. Tian, R., Haoran Dong*, Chen, J., Li, R., Xie, Q.Q., Li, L., Li, Y.Q.,Jin, Z.L.,Xiao, S., Xiao, J. Electrochemical behaviors of biochar materials during pollutant removal in wastewater: A review. Chemical Engineering Journal 425(2021) 130585.
5.Xie, Qianqian, Li, Long, Dong,Haoran Dong*, Rui, Tian, Ran, Chen, Jie. Influence of several crucial groundwater components on the toxicity of nanoscale zero-valent iron towards Escherichia coli under aerobic and anaerobic conditions. Chemosphere 285 (2021) 131453.
2020年发表论文:
1. Wang, B; Haoran Dong*; Li, L; Wang, YY; Ning, Q; Tang, L; Zeng, GM. 2020. Influence of different co-contaminants on trichloroethylene removal by sulfide-modified nanoscale zero-valent iron. Chemical Engineering Journal,381,122773.
2. Haoran Dong⁎, Qin Ning, Long Li, Yaoyao Wang, Bin Wang, Lihua Zhang, Ran Tian, Rui Li, Jie Chen, Qianqian Xie. 2020. A comparative study on the activation of persulfate by bare and surface-stabilized nanoscale zero-valent iron for the removal of sulfamethazine. Separation and Purification Technology,230,115869.
3. Li, Rui; Dong, Haoran*; Tian, Ran; Chen, Jie; Xie, Qianqian; Activation of sulfite by different Fe-0-based nanomaterials for oxidative removal of sulfamethazine in aqueous solution, Separation and Purification Technology, 2020, 250:117230.
4. Tian, Ran; Dong, Haoran*; Chen, Jie; Li, Rui; Xie, Qianqian; Amorphous Co3O4 nanoparticles-decorated biochar as an efficient activator of peroxymonosulfate for the removal of sulfamethazine in aqueous solution, Separation and Purification Technology, 2020, 250:117246.
5. Cheng, Yujun; Dong, Haoran*; Hao, Tianwei*; CaCO3 coated nanoscale zero-valent iron (nZVI) for the removal of chromium(VI) in aqueous solution, Separation and Purification Technology, 2020, 257(117967).
6. Ning, Qin; Dong, Haoran*; Li, Long; Wang, Yaoyao; Wang, Bin; Removal of Trichloroethylene by Sulfide-Modified Nanoscale Zerovalent Iron Coated with Different Stabilizers in Aqueous Solution, Water, Air, and Soil Pollution, 2020, 231(4):161.
7.Chen, Jie; Dong, Haoran*; Tian, Ran; Li, Rui; Xie, Qianqian; Remediation of Trichloroethylene-Contaminated Groundwater by Sulfide-Modified Nanoscale Zero-Valent Iron Supported on Biochar: Investigation of Critical Factors, Water, Air, and Soil Pollution, 2020, 231(8):432.
8. Wu, Yanan; Haoran Dong*; Tang, Lin*; Li, Long; Wang, Yaoyao; Ning, Qin; Wang, Bin; Zeng, Guangming. Environmental science and pollution research. 27,2786-2796.
2019年发表论文:
1. Haoran Dong*, Long Li, Yue Lu, Yujun Cheng, Yaoyao Wang, Qin Ning, Bin Wang, Lihua Zhang, Guangming Zeng. 2019. Integration of nanoscale zero-valent iron and functional anaerobic bacteria for groundwater remediation: A review. Environment International(SCI 2017 IF=7.297).
2. Haoran Dong⁎, Kunjie Hou, Weiwei Qiao, Yujun Cheng, Lihua Zhang, Bin Wang, Long Li, Yaoyao Wang, Qin Ning, Guangming Zeng. 2019. Insights into enhanced removal of TCE utilizing sulfide-modified nanoscale zero-valent iron activated persulfate.Chemical Engineering Journal 359,1046–1055 (SCI 2017 IF=6.735).
3. Yujun Cheng, Haoran Dong*, Yue Lu, Kunjie Hou, Yaoyao Wang, Qin Ning, Long Li, Bin Wang, Lihua Zhang, Guangming Zeng. 2019. Toxicity of sulfide-modified nanoscale zero-valent iron to Escherichia coli in aqueous solutions.Chemosphere 220,523-530 (SCI 2017 IF=4.427).
4. Haoran Dong*, Yujun Cheng, Yue Lu, Kunjie Hou, Lihua Zhang, Long Li, Bin Wang, Yaoyao Wang,Qin Ning, Guangming Zeng. 2019. Comparison of toxicity of Fe/Ni and starch-stabilized Fe/Ni nanoparticles toward Escherichia coli.Separation and Purification Technology 210,504–510 (SCI 2017 IF=3.927).
5. Junmin Deng, Haoran Dong⁎, Long Li,Yaoyao Wang, Qin Ning, BinWang, Guangming Zeng. 2019. Ca(OH)2 coated nanoscale zero-valent iron as a persulfate activator for the degradation of sulfamethazine in aqueous solution. Separation and Purification Technology,227, 115731 (SCI 2017 IF=3.927).
6.Yaoyao Wang, Haoran Dong⁎, Long Li, Ran Tian, Jie Chen, Qin Ning, Bin Wang, Lin Tang, Guangming Zeng. 2019. Influence of feedstocks and modification methods on biochar’s capacity to activate hydrogen peroxide for tetracycline removal.Bioresource Technology, 291,121840.
7.Haoran Dong⁎, Bin Wang, Long Li, Yaoyao Wang, Qin Ning, Ran Tian, Rui Li, Jie Chen, Qianqian Xie. 2019. Activation of persulfate and hydrogen peroxide by using sulfide-modified nanoscale zero-valent iron for oxidative degradation of sulfamethazine: A comparative study. Separation and Purification Technology, 218, 113-119.
8. Dong, HR; Li, L; Wang, YY; Ning, Q; Wang, B; Zeng, GM. 2019. Aging of zero-valent iron-based nanoparticles in aqueous environment and the consequent effects on their reactivity and toxicity. WATER ENVIRONMENT RESEARCH. DOI: 10.1002/wer.1265.
2018年发表论文:
1. Haoran Dong*; Cong Zhang; Junmin Deng; Zhao Jiang; Lihua Zhang; Yujun Cheng; Kunjie Hou; Lin Tang; Guangming Zeng. 2018. Factors influencing degradation of trichloroethylene by sulfide-modified nanoscale zero-valent iron in aqueous solution. Water Research 135,1-10(SCI 2017 IF=7.051).
2. Haoran Dong*; Zhao Jiang; Junmin Deng; Cong Zhang; Yujun Cheng; Kunjie Hou; Lihua Zhang; Lin Tang; Guangming Zeng. 2018. Physicochemical transformation of Fe/Ni bimetallic nanoparticles during aging in simulated groundwater and the consequent effect on contaminant removal. Water Research 129,51-57(SCI 2017 IF=7.051).
3. Haoran Dong*, Zhao Jiang, Cong Zhang, Junmin Deng, Kunjie Hou, Yujun Cheng, Lihua Zhang,Guangming Zeng. 2018. Removal of tetracycline by Fe/Ni bimetallic nanoparticles in aqueous solution. Journal of Colloid and Interface Science 513, 117–125(SCI 2017 IF =5.091).
4.Junmin Deng, Haoran Dong*, Cong Zhang, Zhao Jiang, Yujun Cheng, Kunjie Hou, Lihua Zhang, Changzheng Fan. 2018. Nanoscale zero-valent iron/biochar composite as an activator for Fentonlike removal of sulfamethazine.Separation and Purification Technology 202, 130–137 (SCI 2017 IF=3.927).
2017年发表论文:
1. Haoran Dong*, Guangming Zeng. 2017.Correspondence:‘Flammable ice’— extract with caution. Nature 546:599 (doi:10.1038/546599a )(SCI 2017 IF = 41.577).
2. Haoran Dong*, Qi He, Guangming Zeng, Lin Tang, Lihua Zhang, Yankai Xie, Yalan Zeng, Feng Zhao. 2017. Degradation of trichloroethene by nanoscale zero-valent iron (nZVI) and nZVI activated persulfate in the absence and presence of EDTA.Chemical Engineering Journal 316, 410–418(SCI 2017 IF=6.735).
3. Yankai Xie, Haoran Dong*, Guangming Zeng, Lihua Zhang, Yujun Cheng, Kunjie Hou, Zhao Jianga, Cong Zhang, Junmin Deng. 2017. The comparison of Se(IV) and Se(VI) sequestration by nanoscale zero-valent iron in aqueous solutions: The roles of solution chemistry.Journal of Hazardous Materials,338,306-312.(SCI 2017 IF=6.434).
4. Haoran Dong*, Junmin Deng, Yankai Xie, Cong Zhang, Zhao Jiang, Yujun Cheng, Kunjie Hou, Guangming Zeng.2017. Stabilization of nanoscale zero-valent iron (nZVI) with modified biochar for Cr(VI) removal from aqueous solution.Journal of Hazardous Materials, 332, 2017, 79-86. (SCI 2017 IF=6.434).
5. Yankai Xie, Haoran Dong*, Guangming Zeng, Lin Tang, Zhao Jiang, Cong Zhang, Junmin Deng, Lihua Zhang, Yi Zhang. 2017. The interactions between nanoscale zero-valent iron and microbes in the subsurface environment: a review. Journal of Hazardous Materials,321,390–407. (SCI 2017 IF=6.434) (ESI highly cited paper).
6. Haoran Dong*, Cong Zhang,Kunjie Hou,Yujun Cheng,Junmin Deng,Zhao Jiang,Lin Tang, Guangming Zeng. 2017. Removal of trichloroethylene by biochar supported nanoscale zero-valent iron in aqueous solution. Separation and Purification Technology, 188, 188-196. (SCI 2017 IF=3.927)
7. Haoran Dong*, Feng Zhao, Qi He, Yankai Xie, Yalan Zeng, Lihua Zhang, Lin Tang, Guangming Zeng. 2017. Physicochemical transformation of carboxymethyl cellulose-coated zero-valent iron nanoparticles (nZVI) in simulated groundwater under anaerobic conditions. Separation and Purification Technology 175, 376–383. (SCI 2017 IF=3.927)
8. Haoran Dong*, Yalan Zeng, Yankai Xie, Qi He, Feng Zhao, Yang Wang Y, Guangming Zeng. 2017. Single and combined removal of Cr(VI) and Cd(II) by nanoscale zero-valent iron in the absence and presence of EDDS. Water Science and Technology, 76(5),1261-1271.(SCI 2017 IF=1.247)
2016年发表论文:
1. Haoran Dong*, Feng Zhao; Guangming Zeng; Lin Tang; Changzheng Fan; Lihua Zhang; Yalan Zeng; Qi He; Yankai Xie; Yanan Wu. 2016. Aging study on carboxymethyl cellulose-coated zero-valent iron nanoparticles in water: Chemical transformation and structural evolution. Journal of Hazardous Materials. 312,234-242.(SCI 2017 IF=6.434)
2. Haoran Dong*, Yankai Xie, Guangming Zeng, Lin Tang, Jie Liang, Qi He, Feng Zhao, Yalan Zeng, Yanan Wu. 2016. The dual effects of carboxymethyl cellulose on the colloidal stability and toxicity of nanoscale zero-valent iron. Chemosphere, 144, 1682-1689(SCI 2017 IF=4.427) (ESI highly cited paper).
3. Haoran Dong*, Kito Ahmad, Guangming Zeng, Zhongwu Li, Guiqiu Chen, Qi He, Yankai Xie, Yanan Wu, Feng Zhao, Yalan Zeng. 2016. Influence of fulvic acid on the colloidal stability and reactivity of nanoscale zero-valent iron. Environmental Pollution. 211, 363-369.(SCI 2017 IF=4.358)
4. Haoran Dong*; Qi He; Guangming Zeng; Lin Tang; Chang Zhang; Yankai Xie; Yalan Zeng; Feng Zhao; Yanan Wu. 2016. Chromate removal by surface-modified nanoscale zero-valent iron: Effect of different surface coatings and water chemistry. Journal of Colloid and Interface Science. 471:7-13.(SCI 2017 IF =5.091).
5. Haoran Dong*, Yalan Zeng; Guangming Zeng; Danlian Huang; Jie Liang; Feng Zhao; Qi He; Yankai Xie; Yanan Wu. 2016. EDDS-Assisted Reduction of Cr(VI) by Nanoscale Zero-Valent Iron.Separation and Purification Technology. 165,86–91.(SCI 2017 IF=3.927).
2015年发表论文:
1.Haoran Dong*, Guangming Zeng, Lin Tang, Changzheng Fan, Chang Zhang, Xiaoxiao He, Yan He. 2015. An overview on limitations of TiO2-based particles for photocatalytic degradation of organic pollutants and the corresponding countermeasures.Water Research,79, 128-146. (SCI 2017 IF=7.051)(ESI hot paper).
2.Xiaohong Guan, Yuankui Sun, Hejie Qin, Jinxiang Li, Irene M.C. Lo, Di He, Haoran Dong*. 2015. The Limitations of Applying Zero Valent Iron Technology in Contaminants Sequestration and the Corresponding Countermeasures: The Development in Zero Valent Iron Technology in the Last Two Decades (1994-2014).Water Research, 75, 224-248.(SCI 2017 IF=7.051)(ESI hot paper).
3. Haoran Dong*, Guangming Zeng, Chang Zhang, Jie Liang, Kito Ahmad, Piao Xu, Xiaoxiao He, Mingyong Lai. 2015. Interaction between Cu2+ and different types of surface-modified nanoscale zero-valent iron (SM-NZVI) during their transport in the porous media. Journal of Environmental Sciences. 32,180-188.(SCI 2017 IF=3.12)
2014年以前发表论文:
1. Haoran Dong, Lo, I. M. C., 2014. Transport of Surface-Modified Nano Zero-Valent Iron (SM-NZVI) in Saturated Porous Media: Effects of Surface Stabilizer Type, Subsurface Geochemistry, and Contaminant Loading. Water Air Soil Pollut.DOI 10.1007/s11270-014-2107-6. (SCI 2017 IF=1.769)
2.Haoran Dong, Lo, I. M. C., 2013. Influence of calcium ions on the colloidal stability of surface-modified nano zero-valent iron in the absence or presence of humic acid. Water Res., 47: 2489-2496. (SCI 2017 IF=7.051)
3.Haoran Dong, Lo, I. M. C., 2013. Influence of humic acid on the colloidal stability of surface-modified nano zero-valent iron. Water Res., 47: 419-427. (SCI 2017 IF=7.051)
4.Haoran Dong, Guan, X. H., Lo, I. M. C., 2012. Fate of As(V)-treated nano zero-valent iron: Determination of arsenic desorption potential under varying environmental conditions by phosphate extraction. Water Res., 46: 4071-4080. (SCI 2017 IF=7.051)
5.Yin, K., Lo, I. M. C., Haoran Dong, Rao, P. H, Mak, M. S. H., 2012. Lab-scale simulation of the fate and transport of nano zero-valent iron in subsurface environments: Aggregation, sedimentation, and contaminant desorption. J. Hazard. Mater., 227-228:118-125. (SCI 2017 IF=6.434)
6.Haoran Dong, Guan X.H., Wang D.S., Ma J., 2011. Individual and Combined Influence of Calcium and Anions on Simultaneous Removal of Chromate and Arsenate by Fe(II) under Suboxic Conditions. Sep. Purif. Technol., 80: 284-292. (SCI 2017 IF=3.927)
7.Haoran Dong, Guan X.H., Wang D.S., Li C.Y., Yang X., Dou X.M., 2011. A novel application of H2O2–Fe(II) process for arsenate removal from synthetic acid mine drainage (AMD) water. Chemosphere, 85: 1115-1121. (SCI 2017 IF=4.427)
8.Guan X.H., Haoran Dong, Ma J., Lo I. M. C., Dou X.M., 2011. Performance and Mechanism of Simultaneous Removal of Chromium and Arsenate by Fe(II) from Contaminated Groundwater. Sep. Purif. Technol., 80: 179-185. (SCI 2017 IF=3.927)
9.Guan X.H., Haoran Dong, Ma J., 2011. Influence of Phosphate, Humic Acid and Silicate on the Transformation of Chromate by Ferrous Iron. Sep. Purif. Technol., 78: 253-260. (SCI 2017 IF=3.927)
10.Guan X.H., Haoran Dong, Ma J., Lo I. M. C., 2011. Simultaneous Removal of Chromate and Arsenate from Contaminated Groundwater by Ferrous Sulfate: Batch Uptake Behavior. J. Environ. Sci-China. 23: 372-380. (SCI 2017 IF=3.12)
11.Guan X.H., Haoran Dong, Ma J., Jiang L., 2009. Removal of arsenic from water: Effect of competing anions on As(III) removal in KMnO4-Fe2+ process. Water Res., 43:3891-3899. (SCI 2017 IF=7.051)
12.Guan X.H., Ma J., Haoran Dong, Jiang L., 2009. Removal of arsenic from water: Effect of Ca2+ on As(III) removal in KMnO4-Fe2+ process. Water Res., 43:5119-5128. (SCI 2017 IF=7.051)
著作章节:
Guan X.H., Haoran Dong, 2017. Chapter 9: Remediation of heavy metal in the environment. Chapter 9: Simultaneous Removal of Chromium and Arsenate: A Case Study Using Ferrous Iron. Publisher.Publisher: Taylor and Francis & CRC Press.
授权专利:
1. 关小红, 董浩然,马军, 2009. 铁基化合物修复受Cr(VI)/As(V) 复合污染地下水的方法,出版号101503240.
2. 董浩然,曾亚兰,曾光明,赵凤,吴亚南,谢炎锴,何琦,2017. 去除水体中重金属铬的方法,ZL 201510360401.2.
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课题组学生:
在读:2019级(李龙【博】;2021级(肖钧洋【博】;张浩轩);2022级(邓俊敏【博后】,黄道芬【博】,董洁【博】,李希婷,李杏,张思琦,赵梦溪,张畅);2023级(尹文俊【博后】,肖双洁【博】,董孜琦,彭博,赖本富,赵泉灵)
已毕业:2014级(谢炎锴【留学比利时攻读博士】;何琦;曾亚兰;赵凤);2015级(江朝;张聪【澳门大学攻读博士】;邓俊敏【留学法国攻读博士】);2016级(程禹君【澳门大学攻读博士】;侯坤杰【湖大攻读博士】); 2017级(王斌;宁沁;王瑶瑶); 2018级(李睿;陈洁;田冉;解倩倩);2019级(金紫兰;肖双洁);2020级(李杨菊【博】,楚东东,董琪霞,侯秀珍,相淑雪)
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