程和發

1994.09 — 1998.07: 學士，華東師範大學資源與環境學院環境科學系

1999.01 — 2000.12: M.S., School of Civil Engineering and Environmental Science

University of Oklahoma, Norman, Oklahoma, USA

2001.01 — 2002.05: Ph.D. candidate, Department of Civil and Environmental Engineering

University of Michigan, Ann Arbor, Michigan, USA

2002.06 — 2006.09: Ph.D., Department of Civil and Environmental Engineering

Stanford University, Stanford, California, USA ^[1] 

2015.05 — 當前:長聘副教授、研究員，北京大學城市與環境學院環境學系

2009.10 — 2015.04: 研究員，中國科學院廣州地球化學研究所有機地球化學國家重點實驗室

2010.04 — 2011.02: Visiting Assistant Professor, Department of Civil and Environmental

Engineering, Stanford University, Stanford, California, USA

2006.10 — 2010.09: Postdoctoral Fellow (Consulting Assistant Professor after 2009.03)

Department of Civil and Environmental Engineering

Stanford University, Stanford, California, USA ^[1] 

Journal of Contaminant Hydrology, Associate editor

Journal of Hazardous Materials, Editorial board member

《環境化學》，編委 ^[1] 

2014年，中國礦物岩石地球化學學會“侯德封礦物岩石地球化學青年科學家獎”

2014年，中國科學院大學BHBP導師科研獎

2013年，國家自然科學基金委“優秀青年科學基金”項目資助

2012年，國際環境問題科學委員會(SCOPE)，SCOPE-Zhonbgyu Young Scientist Award (1 of 3)

2010年，中國科學院廣州分院、廣東省科學院“優秀青年科技工作者” ^[1] 

項目負責人，“三嗪類農藥在天然和微孔礦物上的吸附及其在礦物微孔內的微波誘導降解”，國家自然科學基金委面上項目，2015-2018，￥106萬。

項目負責人,“環境地球化學”，國家自然科學基金委“優秀青年科學”基金項目，2014-2016，￥100萬。

項目負責人,“土壤與地下水污染”，中組部“青年拔尖人才支持計劃”，2013-2016，￥240萬。 ^[1] 

有機污染物在礦物-水界面上的遷移與轉化、典型重金屬在環境介質中地球化學行為、地下水污染修復、以及中國水資源與能源利用中環境問題的系統分析。 ^[1] 

HefaCheng,ErdanHu,AMethodtoRemoveOrganicPollutantsthroughCouplingMicrowave DegradationbasedonMicroporousMineralAdsorption,US20140027381,2015

程和發，胡二丹，雷震，一種具有自動進樣分析功能的氣相吸附-解吸裝置，實用新型專利ZL201120061945.6，2011 ^[1] 

在 Environmental Science & Technology，Water Research等國際SCI雜誌上發表論文25篇（第一/通訊作者21篇），SCI刊物引用100餘次。其中關於中國水資源危機對策的文章被選為國際環境科學界雜誌Environmental Science & Technology (43: 240 (2009))的封面文章。

1.Wang, L., Cheng, H.*, Birnessite (δ-MnO2) Mediated Degradation of Organoarsenic Feed Additive p-Arsanilic Acid, Environmental Science & Technology 49 (6), 3473-3481 (2015).

2.Hu, Y., Cheng, H.*, Disposal Capacity for Spent Fuel in China Is not Ready yet for the Nuclear Power Boom, Environmental Science & Technology 49 (5), 2596-2597 (2015).

3.Hu, Y., Cheng, H.*, Research Opportunities for Antimicrobial Resistance Control in China’s Factory Farming, Environmental Science & Technology 48 (10), 5364-5365 (2014).

4.Hu, E., Cheng, H.*, Catalytic Effect of Transition Metals on Microwave-induced Degradation of Atrazine in Mineral Micropores, Water Research 57, 8-19 (2014).

5.Cheng, H.*, Hu, Y, Reinhard, M., Environmental and Health Impacts of Artificial Turf: A Review, Environmental Science & Technology 48 (4), 2114-2129 (2014).

6.Hu, Y., Cheng, H.*, The Urgency of Assessing the Greenhouse Gas Budgets of Hydroelectric Reservoirs in China, Nature Climate Change 3 (8), 708-712 (2013).

7.Hu, Y., Cheng, H.*, Application of Stochastic Models in Identification and Apportionment of Heavy Metal Pollution Sources in the Surface Soils of a Large-scale Region, Environmental Science & Technology 47 (8), 3752-3760 (2013).

8.Hu, Y., Cheng, H.*, Development and Bottlenecks of Renewable Electricity Generation in China: A Critical Review, Environmental Science & Technology 47 (7), 3044-3056 (2013).

9.Hu, E., Cheng, H.*, Impact of Surface Chemistry on Microwave-induced Degradation of Atrazine in Mineral Micropores, Environmental Science & Technology 47 (1), 533-541 (2013).

10.Hu, Y., Cheng, H.*, Mercury Risk from Fluorescent Lamps in China: Current Status and Future Perspective, Environment International 44, 141-150 (2012).

11.Cheng, H.*, Hu, Y., Understanding the Paradox of Mercury Pollution in China: High Concentrations in Environmental Matrix yet Low Levels in Fish on the Market, Environmental Science & Technology 46 (9), 4695-4696 (2012).

12.Hu, E., Cheng, H.*, Hu, Y., Microwave-Induced Degradation of Atrazine Sorbed in Mineral Micropores, Environmental Science & Technology 46 (9), 5067-5076 (2012).

13.Cheng, H.*, Hu, Y., Influence of Chain Ordering on Frictional Properties of Self-Assembled Monolayers (SAMs) in Nano-Lubrication, Advances in Colloid and Interface Science 171-172, 53-65 (2012).

14.Cheng, H.*, Hu, Y., Improving China’s Water Resources Management for Better Adaptation to Climate Change, Climatic Change 112 (2), 253-282 (2012).

15.Cheng, H.*, Hu, Y., Mercury in Municipal Solid Waste in China and Its Control: A Review, Environmental Science & Technology 46 (2), 593-605 (2012).

16.Cheng, H.*, Hu, Y., Economic Transformation, Technological Innovation, and Policy and Institutional Reforms Hold Keys to Relieving China’s Water Shortages, Environmental Science & Technology 45 (2), 360-361 (2011).

17.Cheng, H.*, Hu, Y., China Needs to Control Mercury Emissions from Municipal Solid Waste (MSW) Incineration, Environmental Science & Technology 44 (21), 7994-7995 (2010).

18.Cheng, H.*, Hu, Y., Zhao, J., Meeting China’s Water Shortage Crisis: Current Practices and Challenges, Environmental Science & Technology 43 (2), 240-244 (2009).

19.Cheng, H. and Reinhard, M.*, The Rate of 2,2-Dichloropropane Transformation in Mineral Micropores: Implications of Sorptive Preservation for Fate and Transport of Organic Contaminants in the Subsurface, Environmental Science & Technology 42 (8), 2879-2885 (2008).

20.Cheng, H., Reinhard, M.*, Sorption and Inhibited Dehydrohalogenation of 2,2-Dichloropropane in Micropores of Dealuminated Y Zeolites, Environmental Science & Technology 41 (6), 1934-1941 (2007).

21.Cheng, H.*, Zhang, Y., Meng, A., Li, Q., Municipal Solid Waste Fueled Power Generation in China: A Case Study of Waste-to-Energy in Changchun City, Environmental Science & Technology 41 (21), 7509-7515 (2007).

22.Cheng, H., Reinhard, M.*, Sorption of Trichloroethylene in Hydrophobic Micropores of Dealuminated Y Zeolites and Natural Minerals, Environmental Science & Technology 40 (24), 7694-7701 (2006).

23.Cheng, H., Reinhard, M.*, Measuring Hydrophobic Micropore Volumes in Geosorbents from Trichloroethylene Desorption Data, Environmental Science & Technology 40 (11), 3595-3602 (2006).

24.Cheng, H., Sabatini, D. A.*, Simultaneous Removal of Anionic Surfactants and Micellar-Solubilized Contaminants Using Anion-Exchange Resin, Water Research 36 (8), 2062-2076 (2002).

25.Cheng, H., Sabatini, D. A.*, Kibbey, T. C. G., Solvent Extraction for Separating Micellar-Solubilized Contaminants and Anionic Surfactants, Environmental Science & Technology 35 (14), 2995-3001 (2001).

* -- Corresponding Author ^[1]