董浩然

湖南大學教授, 博導, 香港科技大學環境工程專業博士學位，擔任環境科學系主任，環境生物與控制教育部重點實驗室副主任，獲得國家優秀青年科學基金，入選湖南省“湖湘青年英才”、湖南大學“嶽麓學者”。

主要研究方向是土壤/地下水污染原位修復，環境納米技術，納米顆粒/污染物在地下環境中的歸趨和遷移行為研究。主持/參與10餘項國家/省部級科研項目，已在環境領域國際權威期刊發表論文80餘篇，申請/授權12項國家發明專利, 榮獲2019年度教育部高等學校科學研究優秀成果獎自然科學獎二等獎,2021年度中國有色金屬科技成果獎二等獎。現為《Chinese Chemical Letters》（中國化學快報）青年編委，《能源環境保護》青年編委，《Water》期刊編委， 國際水協會IWA-YWP委員，國家科技專家庫專家，湖南省科技專家庫專家，湖南省建設項目專家庫專家，湖南省環境治理行業協會環保專家庫專家等。 ^[1] 

環境納米技術，地下水污染原位修復；重金屬污染治理；納米顆粒/污染物在地下環境中的歸趨和遷移行為；飲用水處理技術 。 ^[1] 

2019年發表論文：

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. ^[1] 

8. 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.

2018年發表論文：

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年發表論文：

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年發表論文：

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年發表論文：

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年以前發表論文：

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)

1.Haoran Dong, Lo, I. M. C., 2012. Environmental fate assessment of As(V)-treated nano zero-valent iron (As-NZVI) for the sustainable development of NZVI technology. The Twenty-fifth KKCNN Symposium on Civil Engineering. 22-24 October, Busan, Korea.

2.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. The 4th IWA-ASPIRE Conference & Exhibition. 2-6 October, Tokyo, Japan.

3.Haoran Dong, Guan X.H., Ma J., 2010. Effects of Phosphate and Silicate on Chromium Removal by Fe(II) in Anoxic Aqueous System. The 6th International Conference On Interfaces Against Pollution. May, Beijing, China. ^[1] 

4.Guan X.H., Haoran Dong, Ma J., 2010. Simultaneous removal of chromium and arsenate by Fe(II) from contaminated groundwater. 239th ACS National Meeting, March, San Francisco, USA.

5.Guan X.H., Haoran Dong, Ma J., 2009. Co-removal of chromium and arsenate by Fe(II). The 2nd IWA Asia Pacific Regional Young Water Professional Conference, November, Beijing, China.

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. ^[1] 

1. 關小紅， 董浩然，馬軍， 2009. 鐵基化合物修復受Cr(VI)/As(V) 複合污染地下水的方法，出版號101503240. ^[1] 

2. 董浩然，曾亞蘭，曾光明，趙鳳，吳亞南，謝炎鍇，何琦，2017. 去除水體中重金屬鉻的方法，ZL 201510360401.2.