Professor Gan PAN
Group page: http://www.gangpan-environment.com/eng/index.aspx
Research Gate: https://www.researchgate.net/profile/Gang_Pan2/
Work Address:
Research Center for Eco-environmental Sciences, Chinese Academy of Sciences
18 Shuangqing Road, Beijing 100085, China
Email: gpan@rcees.ac.cn
Tel: +86 10 62849686
Research Areas
Environmental Science
Environmental engineering
Ecology
Education
PhD. (1996) Environmental Chemistry, University of East Anglia, UK
MSc. (1989) Physical Chemistry, Ocean University of China, China
BSc. (1982) Physical Chemistry, Ocean University of China, China
Experience
Work Experience
1982-1991 Lecturer, Department of Chemistry, Ocean University of China, Qingdao, China
1991-1993 The Royal Fellowship of the Royal Society, University of East Anglia, Norwich, UK
1996-1998.1 Post-doc research fellow, School of Earth Sciences, University of Leeds, Leeds, UK
1998.1– 98.12 Research Fellow, Department of Environmental Sciences, University of Plymouth, UK
1999.1– 2000.2 Senior research fellow, T H Huxley School, Imperial College, London SW7 2BP, UK
2000- now Professor and deputy director, Department of Environmental Nanomaterials, Research Center for Eco-environmental Sciences, Chinese Academy of Sciences, Beijing, China
Teaching Experience
Honors & Distinctions
Vice president, Aquatic Environment Committee, Chinese Society of Environment
Board member, Synchrotron Committee, Chinese Society of Physics
Board member, Chinese Society of Limnology and Oceanography
Board member, Chinese Society of Environmental Nanotechnology
National First Prize of Environmental Science and Technology, China (2009)
“Scientists of the Year” (2010, Chinese national annual award)
Publications
Papers
2016 papers
1. Wang, L., Zhang, C.B., Gao, F. and Pan, G., Needleless electrospinning for scaled-up production of ultrafine chitosan hybrid nanofibers used for air filtration, RSC Advances, 2016, DOI: 10.1039/C6RA24557A
2. Wang,L., Miao, X.J., Pan, G., Microwave induced interfacial nanobubbles,Langmuir, DOI: 10.1021/acs.langmuir.6b01620
3. Pan, G., He, G.Z., Zhang, M.Y., Zhou, Q., Tyliszczak, T., Tai, R., Guo, J., Bi L., Wang L., and Zhang, H.G.. Nanobubbles at hydrophilic particle-water interfaces. Langmuir, DOI: 10.1021/acs.langmuir.6b01483
4. Wang, L.J., Pan, G., Shi, W.Q., Wang, Z.B., Zhang, H.G., Manipulating nutrient limitation using modified local soils: A case study at Lake Taihu (China), Water Research, 2016, 101:25-35
6. Ololade Isaac Ayodele, Zhou, Q., Pan, G., Influence of oxic/anoxic condition on sorption behavior of PFOS in sediment, Chemosphere, 2016, 150:798-803
7. Wang, Z.B., Zhang, H.G., Pan, G., Ecotoxicological assessment of flocculant modified soil for lake restoration using an integrated biotic toxicity index, Water Research, 2016, 97:133-141
8. Shi, W.Q., Tan, W.Q., Wang, L.J., Pan, G., Removal of microcystis aeruginosa using cationic starch modified soils, Water Research, 2016, 97:19-25
11. Zhang, T.L., Pan, G., Qin, Z., Temperature effect on photolysis decomposing of perfluorooctanoic acid, Journal of Environmental Sciences, 2016, 42:126-133
2015 papers
12. Zhang, T.L., Pan, G., The degradation pathways and mineralization of perfluorooctanoic acid (PFOA), Chinese Science Bulletin, 2015, 60(17):1574-1591(Chinese)
14. Zhu, Z.B., Zhou, Q., Zhang, M.Y., He, G.Z., Pan, G., Zhao, Y., Simultaneous multifunctional sorption of PFOS and Cr (VI) on activated carbon prepared by one-step microwave activation. Water, Air, & Soil Pollution, 2015, 226: 259
16. Li, L., Pan, G., Cyanobacterial bloom mitigation using proteins with high isoelectric point and chitosan-modified soil, J Appl Phycol, 2015, 28(1):357-363
17. Li, H., Pan, G., Simultaneous Removal of Harmful Algal Blooms and Microcystins Using Microorganism- and Chitosan-Modified Local Soil. Environmental science & technology, 2015, 49(10): 6249-6256
18. Zhang, M.Y., He, G.Z., Pan, G., Binding mechanism of arsenate on rutile (110) and (001) planes studied using grazing-incidence EXAFS measurement and DFT calculation. Chemosphere, 2015,122:199-205
19. Li, L., Zhang, H.G., Pan, G., Influence of zeta potential on the flocculation of cyanobacteria cells using chitosan modified soil, Journal of Environmental Sciences, 2015,28(2):47-53
2014papers
21. Mackay, E., Maberly, S., Pan, G., et al. Geoengineering in lakes: welcome attraction or fatal distraction? Inland Waters , 2014, 4:349-356
22. Spears, B., Maberly, S., Pan, G., et al. Geo-Engineering in Lakes: A Crisis of Confidence? Environmental science & technology. 2014, 48 (17),:9977–9979
23. Zhang, M.Y., He, G.Z., and Pan, G., Structure and stability of arsenate adsorbed on α-Al2O3 single-crystal surfaces investigated using grazing-incidence EXAFS measurement and DFT calculation. Chemical Geology. 2014, 389(11), 104-109
24. Bi, L., Pan, G., Facile and green fabrication of multiple magnetite nano-cores@void@porous shell microspheres for delivery vehicles, Journal of Materials Chemistry A, 2014, 2:3715-3718
25. Li, H., Pan, G., Enhanced and continued degradation of microcystins using microorganisms obtained through natural media. Journal of microbiological methods, 2014, 96:73–80
26. Zhou, Q., Pan, G., Xiong, Z., Ding, C.C., Zhao, D.Y., Manipulation of particle size and sorption capability of nano-scale magnetite via controlling surface coating, Science of Advanced Materials, 2014, 6 (3), 441-447.
27. Bi, L., Pan, G., Preparation and application of hollow microspheres with porous shell via microorganism self-template method, Chinese Science Bulletin, 2014,59(25):2440-2451
28. Dai, L.C., Pan, G., The effects of red soil in removing phosphorus from water column and reducing phosphorus release from sediment in Lake Taihu, Water Science & Technology, 2014, 5(69):1052-1058
29. Gang Pan, Qin Zhou, Xuan Luan, Q Shiang Fu, Distribution of perfluorinated compounds in Lake Taihu (China): Impact to human health and water standard, Science of the Total Environment, 2014,487:778-784
31. Luan, X., Zhou, Q., Bi, L., Pan, G.,Zhu, G.W., Sorption behavior and mechanism of perfluorooctanesulfonate(pfos)on chlorella and chlorella residues, Chinese Journal of Environmental Engineering, 2014,8(3):897-902
2013papers
36. Zhou Q., Pan, G., Zhang J. Effective sorption of perfluorooctane sulfonate(pfos) on hexadecyltrimethylammonium bromide immobilized mesoporous sio2 hollow sphere. Chemosphere, 2013, 90 (9), 2461-2466
37. Lili Dai, Qingyun Yan, Liang Li, Hong Li, Lijing Wang, Weisong Feng, Gang Pan, Yuhe Yu, microplankton community dynamics during the algae removal process for nutrient control, Fresenius Environmental Bulletin, 2013, 22(12b), 3759-3767
2012 papers:
44. Pan, G., Dai, L.C., Li, L., He, L.C., Li, H., Bi, L., Gulati, R., Reducing the recruitment of sedimented algae and nutrient release into the overlying water using modified soil/sand flocculation-capping in eutrophic lakes, Environmental Science & Technology, 2012, 46(9): 5077-5084
46. Pan,G., Yang, B., Effect of surface hydrophobicity on the formation and stability of oxygen nanoscale gas state, ChemPhysChem, 2012, 13, 2205-2212
47. Chen, J., Pan, G., Harmful algal blooms mitigation using clay/soil/sand modified with xanthan and calcium hydroxide, Journal of Applied Phycology, 2012, 24, 1183-1189
48. Pan, G., Zhang, Z.G., Li, L.W., Li, L., Wang, D., Matos Maria C, A case study to restore water retention and ecosystem functioning in Wenying Lake (China), Lakes & Reservoirs: Research & Management, 2012, 17, 185-190
49. He, G.Z., Pan G., Zhang, M.Y., XANES Analysis of Spectral Properties and Structures of Arsenate Adsorption on TiO2 Surfaces, journal of synchrotron radiation, 2012, 19, 394-399
50. Pan, G., Wang, D., Liu, Y.Y., Photocatalytic degradation pathways and adsorption modes of H-acid in TiO2 suspensions, Chinese Science Bulletin 2012, 57(10):1102-1108 (IF:1.321)
51. Wang, D., Pan, G., Dai, Li., Li, Q.X.,Yang, B., Effect of modified local soil induced ecological restoration (MLS-IER) technology on variation of phytoplankton community, Chinese Journal of Environmental Engineering, 2012,7(7):2159-2164
2011 papers
52. Pan, G., He, G.Z., Zhang, M.Y., (2011). Advances in Interfacial Adsorption Thermodynamics: Metastable-Equilibrium Adsorption (MEA) Theory, Thermodynamics - Interaction Studies - Solids, Liquids and Gases, Juan Carlos Moreno-Pirajan (Ed.), ISBN: 978-953-307-563-1, InTech, pp. 519-542
53. He, G.Z., Pan, G., Zhang, M.Y., Waychunas, G., Coordination Structure of Adsorbed Zn(II) at Water-TiO2 Interfaces, Environmental Science & Technology, 2011, 25(5),1873-1879
54. Pan, G., Chen, J., Anderson D., Modified local sands for the mitigation of harmful algal blooms, Harmful Algae, 2011, 10, 381-387
55. Pan, G., et al., In-lake algal bloom removal and submerged vegetation restoration using modified local soils, Ecological Engineering, 2011, 37, 302-308
56. Pan, G., Interfacial thermodynamics: Inherent limitations of classical adsorption theories, Mineralogical Magazine, 2011, 1592
57. He, G. Z.; Pan, G.; Zhang, M. Y., Studies on the Reaction Pathway of Arsenate Adsorption at Water-TiO2 Interfaces Using Density Functional Theory. Journal of Colloid and Interface Science, 2011, 364, 476-481
58. Zhang, M.Y., Pan, G., Zhao, D.Y., He, G.Z., XAFS study of starch stabilized magnetite nanoparticles and surface speciation of arsenate, Environmental Pollution,2011, 159, 3509-3514
59. Ding, C., Pan., G., Zhang, M., Study on preparation of starch-coated Fe3O4 and its phosphate removal properties, Chinese Journal Environmental Engineering, 2011, 5, 2167- 2172
60. Yang, B.,Chu, Z.S., Pan,G.,, Measurement of Gas Vacuole in Cyanobacteria and Its Pretreatment Methods, Agricultural Science & Technology, 2011, 12, 1096-1099
61. Zhou, Y., Pan, G., Chen, H., Effect of in-situ capping on contaminated sediment remediation using local soil, Chinese Journal Environmental Engineering, 2011, 5, 2459- 2463
62. Xiao, C., Yan, H., Wang, J., Wei, W., Ning, J., Pan, G., Microcystin-LR biodegradation by Sphingopyxis sp. USTB-05, Frontiers of Environmental Science and Engineering in China, 2011, 5 (4), 526-532
Patents
1. Pan, G., Xu , R., Zhang, M.Y., An advanced adsorbent for phosphorus removal from waters, Chinese patent application No:2016110007802
2.Pan,G., Yuan, Y.T., Li, H., Zhang, H.G., A method for obtaining sustainable microcystins degradation bacteria, Chinese patent application No:201510289034.1
3.Pan,G., Li, H., Li, L., A method for one-step preparation of Al3+-chitosan-flayash lyash tri-component flocculants for removing algae and turbidity in eutrophic waters, Chinese patent application No:201410141698.9
4. Pan, G., An apparatus for invasive weeds control in aquaculture waters ,Chinese patent application No:201420063714.2
5. Pan, G., A corrugated sheet design that can either drainage or reserve water, Chinese patent application No:201420041671.8
6.Pan,G., A simple device for simultaneous algae, weeds, bacteria, dissolved oxygen, and nutrient control in aquaculture fishing , Chinese patent application No:201410030571.x
7. Pan, G., Zhang, T.L., Method and device for complete and unlimited air pollution purification for indoor air, Application No.:201310642607.5
8. Pan, G., Bi, L., Microspheres with multiple magnetic nano-cores@void@porous shell and fabrication method, Application No.:201310447529.3
9. Pan G., Zhang Z.G., Zhang M.L., Li L., Yang B., A kind of automatic algae removal boat used to control the lake algae blooms. Patent No.:ZL200810057673.5
10.Pan, G., Shang, Y,Y., Dai, L,C., Li, H., Method and material for sediment remediation in polluted natural waters, Application No.:201210180985.1
11.Pan, G., Wang, L,J., Zhang, Z,G., et al,A remote controlled dispenser for applying modified local soil technology in urban landscape water bodies,Application No.:201210325832.1
12. Pan, G., Tina, B,H., Chen, H., et al, A method to transform algal bloom into submerged vegetation using modified local soil, Application No.:ZL200510099736.X
13. Pan, G.,A method to synthesis modified local soil materials for lake and reservoir pollution control, Application No.:CN201110194044.9
14. Pan, G.,A method to harvest algae in deep natural waters, Application No.:CN201110190392.9
15. Pan, G.,A nano-knife method to cut and decompose persistent toxic molecules based on non-chemical and non-biological principle, Application No.:CN201110069820.2
16.Pan, G., Zhang, M,Y., Wang, L,J., et al, A landscape method for improving and maintaining inland lake water quality, Application No.:CN201110032722.1
17. Pan, G., You C., Yang, Bo., A efficient method using modified clay, soil or sand to remove algal blooms through flocculation, Application No.:CN201010104197.5
18. Pan, G., Wang, D., Dai, L.C., Zhou, Y., Yang B.,A method for turning algae dominated lake to submerged vegetation dominated lake using sticky clays, Application No.:CN201010104186.7
19. Pan, G., Zhou, Y., Chen, H., Yang, B., Using soils laden with oxygen as seed dressing in the aquatic macrophyte reconstruction,Application No.:CN2010101042003
20. Pan, G., Li, Q,X., Yang, B., A method for removing large-scale odor substances in water,Application No.:CN2010101041890
21. Pan, G., Ding, C,C., A kind of nano-scale ferric sorbent possessing high adsorption capability,Application No.:CN201010167901.1
22. Pan, G., Wang, D., Chen, J., A method for mitigation of harmful algal blooms using modified sands,Application No.:CN201010214522.3
23. Pan, G., Wang ,D., Li, Q,X., Li, L., method for quick removal of black water aggregation,Application No.:CN201010288173.X
24. Gang Pan, Binghui Tian, Hao Chen, Mulan Zhang, Xianzheng Yuan,Composite material and method for removing harmful algal blooms and turning then into sunmerged macrophytes,Patent No.:US7,758,752
25. Pan, G., Tian, B,H., Chen, H., Multifunctional vehicle/boat equipment used for removal of lake and sea algae blooms and restoration of ecosystems,Patent No.:ZL 2006 1 0007598.2
26. Pan Gang,Yuan xianzheng, Tian Binghui, Chen Hao, Zhang Mulan,Composite material and method for removing harmful algal blooms and turning them into submerged macrophytes.Patent No.:2005336317(Australia)
27. Pan G., Yang B., Li L., Liao L.B., Ding C.C., Wang D., A method using nano-bubbles to restore lakes and the anaerobic sediments. Application No.: 200910080563.5
28. Pan G., Zhang Z.G., Chen H., Zhang M.L., Tian B.H., Yang B., A kind of automatic algae removal boat used for spraying the modified soils. Application No.: 200810057673.5
29. Pan G., Zhang M.L., Chen J., Zhang X.W. A method and equipment to quantitative control of the submerged aquatic plants biomass and to prevent overproduction. Application No.:200810101251.3
30. Pan G., Zhang M.L., Tian B.H., Yang B., Li L., An approach to quick recover the submerged vegetation during the water quality improvement. Application No.: 200810101432.6
31. Pan G., Zhang M.L., A kind of method to clear the algae blooms and the automatic algae removal boat. Application No.: 200810103598.1
32. Pan G., Li L., A efficient and convenient method used nano ferric oxide materials to control non-point source pollution. Application No.: 200810224313.X
33. Pan G., Yuan X.Z., Zhang M.L., Chen H., A method used to store and transfer the algae flocculants. Application No.: 200610165424.9
34. Pan G., Yuan X.Z., Technology used to control the water eutrophication and to fix the phosphorus, Patent No.: ZL200510063410.1
35. Pan G., Tian B.H., Chen H., Zhang M.L., Yuan X.Z., A kind of clay flocculation technology to change the algae bloom to submerged vegetation. Application No.:200510099736.X
36. Pan G., Tian B.H., Chen H., A kind of composite materials used for water bloom removal and conversion algae into underwater plants and the related methods, PCT/CN2005/002363
37. Yan H., Pan G., Zhang M.M., A method to remove the microcystins by biodegradation. Patent No.: ZL02156462.0
38. Pan G., Zou H., An algae flocculants and application technology to remove the red tide organism and eutrophication . Patent No.:ZL02155284.3 patent granted on 3 December 2004.
39. Pan G., Zou H., Chen H., Modified lake sediments technology to control the eutrophication and the second contamination of lake sediments. Patent No.: ZL200310113305.5
40. Pan G., Zhang M.M., Yan H., Technology to control the red tide organism and eutrophication. Patent No.:ZL01134528.4
41. Pan G., 2002, An in-situ method and apparatus for selectively killing HIV virus in live human blood. PCT/CN02/00507
42. Pan G., A method for simultaneously clearing up harmful algal blooms and harnessing organic pollutants to promote the primary productivity in the sea, UK patent publication (GB 2337749), patent granted on 6 March 2002.
43. Pan G., A method for eliminating HIV in blood and a device for treating AIDS with non-pharmacotherapy. UK patent publication (GB2400013), patent gtanted on 23 Nov.2005.
44. Pan G., A method for eliminating HIV in blood and a device for treating AIDS with non-pharmacotherapy. South Africa patent publication (2004/5411), patent gtanted on 25 May 2005.
45. Pan G., A method for eliminating HIV in blood and a device for treating AIDS with non-pharmacotherapy. USA patent publication (10/497,792), patent gtanted on 17 Oct.2006
Research Interests
Aquatic ecological engineering (eutrophication and algal bloom control)
Environmental micro/nano interfacial processes
Students
已指导学生
王媛 01 19367
李薇 01 19367
常国华 01 19367
余运波 01 19367
贾成霞 01 19367
邹华 01 19367
李贤良 01 19367
秦延文 01 19367
袁宪正 02 19367
刘媛媛 02 19368
朱孟强 02 19367
张木兰 01 19368
杨玉环 01 19367
张宪伟 02 19367
李垒 01 19368
张美一 01 19367
徐丛 02 19367
高爽 02 19367
张增光 01 19368
杨波 01 19368
陈静 01 19367
周莹 02 19367
丁程程 02 19367
游春 01 19367
李巧霞 02 19368
王丹 01 19368
何广智 01 19367
尚媛媛 02 19368
代立春 01 19368
李宏 01 19368
李梁 01 19368
毕磊 01 19368
王志斌 01 19368
张提亮 01 19368
袁玉婷 02 19368
施文卿 01 19368
现指导学生
王丽静 01 19368
徐睿 01 19367
苗肖君 01 19367
季骁楠 01 19367
唐颖 01 19367
靳晓光 02 67011
刘晨 02 67011
苏静 01 19367
陈俊 01 19367
王开琦 02 63224
汪辰 02 67011
姚崇超 01 19367