1)  国家自然科学基金面上项目，52270163，基于聚羟基烷酸酯诱导的水体微生物群落结构演替规律及其种间高阶作用机制研究，2022.1-2026.12，54 万，在研，主持。

2）国家自然科学基金面上项目，51978495，基于亲疏水组分物化性质与水分分布分型耦合对应关系的污泥水分赋存状态界定识别及水-固界面作用机制研究，2020.1-2024.12，60万，在研，主持。

3） 国家自然科学基金-国际（地区）合作与交流项目，51088285，填埋温室气体（甲烷）的释放机制与控制技术研究，2011.6-2011.12，3万，已结题，主持。

4) 国家自然科学基金-国际（地区）合作与交流项目，51078285，基于交替式厌氧、好氧填埋工艺的温室气体减排与污染控制技术研究，2012.4-2014.12，20万，已结题，主持。

5) 国家自然科学基金面上项目，51478327，基于植被与覆盖土复合传输机制的填埋场甲烷释放预测模型构建项目，2015.1-2018.12，90万，已结题，主持。

6) 国家自然科学基金面上项目，51678427，基于植被与覆盖土复合传输机制的填埋场汞释放通量预测模型构建，2017.1-2020.12，64万，在研，主持。

7) 国家自然科学基金面上项目，51278357，填埋场覆盖土-植被-大气间汞的交换机制对汞的形态分布及释放通量的影响研究，2013.1-2016.12，56万， 已结题，主持。

8) 国家自然基金面上项目，20877057，填埋场甲烷化时期腐殖质与汞的非生物作用对其形态分布和释放规律的影响，2009.1-2011.12，28万，已结题，主持。

9) 国家自然基金面上项目，51078285，填埋场植被与覆盖土复合作用对甲烷释放影响机制研究，2010.1-2013.12，37万，已结题，主持。

10） 国家自然科学基金国际合作项目，51110342，填埋场温室气体的释放机制与控制技术研究，2012.4-2014.12，40万，已结题，主持。

11) 日本环境省国际合作项目，非规范填埋场安全、环境稳定性评估体系研究，2010.7-2011.7，120万，已结题，主持。

12) 国家科技部重大国际合作项目，填埋场甲烷减排与资源化技术设备研发及应用，2015.4-2018.3，90万，已结题，主持。

13) 国家科技部重大国际合作项目，基于有机残渣与飞灰共处置的脱氯技术，2013.1-2015.12，60万，已结题，主持。

14）国家重点研发计划，科技部，“长三角典型流域多源有机固废集约化处置集成示范”，2020YFC1908600，300万，课题负责人

15）“水污染控制与治理”国家科技重大专项，科技部，2013ZX07315-002，城市污染水处理厂污泥处理处置技术装备产业化，2013.1-2016.6，2781万，已结题，课题负责人。

16) “水污染控制与治理”国家科技重大专项，科技部，2017ZX07202002-05，重污染河流负荷消减与污染控制技术集成与示范，2017.1-2020.6，340万，在研，子课题负责人。

17) 上海市科学技术委员会，18DZ1206505，长江口水源保护区富营养化防止关键因子控制对策研究，2018.11-2020.10，88万，已结题，课题负责人。

1、主要代表性论文如下：

1)       Accelerating the granulation of anammox sludge inwastewater treatment with the drive of "micro-nuclei": A review.Science of the Total Environment, 2023. 860:p. 13.

2)       Ordered Heterostructured Aerogel with BroadbandElectromagnetic Wave Absorption Based on Mesoscopic Magnetic SuperpositionEnhancement. Advanced Science, 2023: p. 13.

3)       Mechanistic insights intopolyhydroxyalkanoate-enhanced denitrification capacity of microbial community:Evolution of community structure and intracellular electron transfer ofnitrogen metabolism. Science of the Total Environment, 2023. 856: p. 11.

4)       Greenhouse gas emissions from waste sectors inChina during 2006-2019: Implications for carbon mitigation. Process Safety andEnvironmental Protection, 2022. 161:p. 488-497.

5)       Effects of Toll-Like Receptor4 Gene Modified BoneMarrow Mesenchymal Stem Cells (BMSCs) Transplantation on Expression of BasicFibroblast Growth Factor (bFGF) and Follistatin-Like-1 (FSTL1) in MyocardialIschemia-Reperfusion Rats. Journal of Biomaterials and Tissue Engineering,2023. 13(1): p. 151-156.

6)       Highly efficient solid-liquid separation ofanaerobically digested liquor of food waste: Conditioning approach screeningand mechanistic analysis. Science of the Total Environment, 2022. 811: p. 11.

7)       Effective removal of hydrogen sulfide from landfillgases using a modified iron pentacarbonyl desulfurization agent and thedesulfurization mechanism. Science of the Total Environment, 2022. 839: p. 9.

8)       The Effect of Zinc Finger Domain Protein Spalt LikeTranscription Factor 4 (SALL4A)-Mediated DNA Demethylation on CardiacDevelopment and Function. Journal of Biomaterials and Tissue Engineering, 2022.12(7): p. 1385-1390.

9)       PHA stimulated denitrification through regulationof preferential cofactor provision and intracellular carbon metabolism atdifferent dissolved oxygen levels by Pseudomonas stutzeri. Chemosphere, 2022. 309: p. 9.

10)    Mechanism insightsinto liquid polarity regulation for enhanced dewatering of waste-activatedsludge: Specifically focusing on the solid-liquid affinity reduction dependingon phase-transfer and conformational features of amphiphilic protein. WaterResearch, 2022. 221: p. 12.

11)    Influentialmechanism of water occurrence states of waste-activated sludge: Potentiallinkage between water-holding capacity and molecular compositions of EPS. WaterResearch, 2022. 213: p. 12.

12)     Influential mechanism of water occurrencestates of waste-activated sludge: Over-focused significance of cell lysis tobound water reduction. Water Research, 2022. 221: p. 11.

13)    Three Birdswith One Stone: N/P Recovery, Dewaterability Improvement, and FacilitatingLiquid Digestate Treatment of Anaerobically Digested Sludge. Acs SustainableChemistry & Engineering, 2022. 10(37):p. 12402-12410.

14)    Characteristicsof polychlorinated dibenzodioxins/dibenzofurans from a full-scale municipalsolid waste (MSW) incinerator in China by MSW classification. Process Safetyand Environmental Protection, 2022. 161:p. 50-57.

15)    Assessment ofHeavy Metal Pollution in Suburban River Sediment of Nantong (China) andPreliminary Exploration of Solidification/Stabilization Scheme. Water, 2022. 14(14): p. 12.

16)    In SituRemediation Technology for Heavy Metal Contaminated Sediment: A Review.International Journal of Environmental Research and Public Health, 2022. 19(24): p. 15.

17)   Novelmicro-granular sludge process for highly efficient treatment of low-strengthand low C/N ratio municipal wastewater. Chemosphere, 2022, 287.

18)    Co-immobilizationof clinoptilolite and nanostructured hydrated ferric-zirconium binary oxide viapolyvinyl alcohol-alginate covalent cross-linking for simultaneous deep removalof aqueous low-level nitrogen and phosphorus. Arabian Journal of Chemistry,2021, 14(10).

19)    Effectsof Water Level Fluctuations on the Growth Characteristics and CommunitySuccession of Submerged Macrophytes: A Case Study of Yilong Lake, China. Water,2021, 13(20).

20)    Effectsof maternal sugar intake during pregnancy on allergies in offspring A protocolfor systematic review and meta-analysis. Medicine, 2021, 100(42).

21)    Mechanisminsights into polyhydroxyalkanoate-regulated denitrification from theperspective of pericytoplasmic nitrate reductase expression. Science of theTotal Environment, 2021, 754.

22)    Environmentally-friendlydewatering of sewage sludge: A novel strategy based on amphiphilic phase-transferinduced by recoverable organic solvent. Chemical Engineering Journal, 2021,409.

23)    Influentialmechanism of water occurrence states of waste-activated sludge: specificallyfocusing on the roles of EPS micro-spatial distribution and cation-dominatedinterfacial properties. Water Research, 2021, 202.

24)    APhase 2 Study of Camrelizumab for Advanced Hepatocellular Carcinoma: Two-YearOutcomes and Continued Treatment beyond First RECIST-Defined Progression. LiverCancer, 2021.

25)    Introductionto special issue on US-China EcoPartnership: Pathways toward decarbonizingeconomies to mitigate climate change. Environ Prog Sustain Energy, 2021, 40(5).

26)    Real-WorldEffectiveness of Ivabradine in Chinese Patients with Chronic Heart Failure:Interim Analysis of the POSITIVE Study. American Journal of CardiovascularDrugs, 2021.

27)    RapidDetermination of Trace Iodine in Oilfield Brine Based on Oxidation-AtomicEmission Spectrometry. Spectroscopy and Spectral Analysis, 2021, 41(5):1574-1579.

28)    Numericalmodeling of methane oxidation and emission from landfill cover soil couplingwater-heat-gas transfer: Effects of meteorological factors. Process Safety andEnvironmental Protection, 2021, 146: 647-655.

29)    Methaneemissions and energy generation potential from a municipal solid waste landfillbased on inventory models: A case study. Environ Prog Sustain Energy, 2021,40(5).

30)    Implicationsof municipal solid waste disposal methods in China on greenhouse gas emissions.Environ Prog Sustain Energy, 2020, 39(3).

31)    2.75-mum Mid-Infrared GaSb-Based Quantum Well Lasers with Quinary Alloy Barrier.Chinese Journal of Lasers-Zhongguo Jiguang, 2020, 47(7).

32)    Criticalreview on dewatering of sewage sludge: Influential mechanism, conditioningtechnologies and implications to sludge re-utilizations. Water Research, 2020,180.

33)    Reactivecutaneous capillary endothelial proliferation in advanced hepatocellularcarcinoma patients treated with camrelizumab: data derived from a multicenterphase 2 trial. J Hematol Oncol, 2020, 13(1).

34)    Temporalvariation of vegetation at two operating landfills and its implications forlandfill phytoremediation. Environmental Technology, 2020, 41(5): 649-657.

35)    Mercurytransport and fate in municipal solid waste landfills and its implications.Biogeochemistry, 2020, 148(1): 19-29.

36)    Camrelizumabin patients with previously treated advanced hepatocellular carcinoma: amulticentre, open-label, parallel-group, randomised, phase 2 trial. LancetOncology, 2020, 21(4): 571-580.

37)    Effectivenessof anti-PD-1 for hepatocellular carcinoma Reply. Lancet Oncology, 2020, 21(6):E294-E294.

38)    Sequestrationof Sulphide from Biogas by thermal-treated iron nanoparticles synthesized usingtea polyphenols. Environmental Technology, 2020, 41(6): 741-750.

39)    Optimizationof Determination Method of Lithium in Oil-Field Water Based on DOE.Spectroscopy and Spectral Analysis, 2020, 40(8): 2617-2621.

40)    Effectsof plant radial oxygen loss on methane oxidation in landfill cover soil: Asimulative study. Waste Management, 2020, 102: 56-64.

41)    Biologicaldenitrification using PHBV polymer as solid carbon source and biofilm carrier.Biochemical Engineering Journal, 2019, 146: 186-193.

42)    Effectof temperature on tertiary nitrogen removal from municipal wastewater in aPHBV/PLA-supported denitrification system. Environmental Science and PollutionResearch, 2019, 26(26): 26893-26899.

43)    Unravelingthe water states of waste-activated sludge through transverse spin-spinrelaxation time of low-field NMR. Water Research, 2019, 155: 266-274.

44)    Designingan in situ remediation strategy for polluted surface water bodies through thespecific regulation of microbial community. Frontiers of Environmental Science& Engineering, 2019, 13(1).

45)    Impairingthe maintenance of germinative cells in Echinococcus multilocularis bytargeting Aurora kinase. PLoS Negl Trop Dis, 2019, 13(5).

46)    Methaneemissions from landfill: influence of vegetation and weather conditions.Environmental Technology, 2019, 40(16): 2173-2181.

47)    Effectof soil types and ammonia concentrations on the contribution ofammonia-oxidizing bacteria to CH4 oxidation. Waste Management & Research,2019, 37(7): 698-705.

48)    Simulativeanalysis of vegetation on CH4 emission from landfill cover soils: Combinedeffects of root-water uptake, root radial oxygen loss, and plant-mediated CH4transport. J Clean Prod, 2019, 234: 18-26.

49)    Analysisof the effects of vegetation on CH4 emission in landfill cover soils: Combinedeffects of root architectures, radial oxygen loss, root-water uptake andplant-mediated CH4 transportation. Abstracts of Papers of the American ChemicalSociety, 2019, 257.

50)    Enhancedphosphate removal using nanostructured hydrated ferriczirconium binary oxideconfined in a polymeric anion exchanger. Chemical Engineering Journal, 2018, 345:640-647.

51)    Developmentof polymeric iron/zirconium-pillared clinoptilolite for simultaneous removal ofmultiple inorganic contaminants from wastewater. Chemical Engineering Journal,2018, 347: 819-827.

52)    Studyon Phase Transition Process of NaCl-H2O and NaCl-KCl-H2O at Low Temperaturewith in Situ XRD. Spectroscopy and Spectral Analysis, 2018, 38(3): 953-957.

53)    PHBVpolymer supported denitrification system efficiently treated high nitrateconcentration wastewater: Denitrification performance, microbial communitystructure evolution and key denitrifying bacteria. Chemosphere, 2018, 197:96-104.

54)    Effectof influent pH on biological denitrification using biodegradable PHBV/PLAblends as electron donor. Biochemical Engineering Journal, 2018, 131: 24-30.

55)    Effectof different carbon sources on denitrification performance, microbial communitystructure and denitrification genes. Science of the Total Environment, 2018,634: 195-204.

56)    Characterizationof coal gasification slag-based activated carbon and its potential applicationin lead removal. Environmental Technology, 2018, 39(3): 382-391.

57)    Methylmercurylevels in cover soils from two landfills in Xi'an and Shanghai, China:Implications for mercury methylation potentials. Waste Management, 2018, 78:331-336.

58)    Performanceevaluation of zero-valent iron nanoparticles (NZVI) for high-concentration H2Sremoval from biogas at different temperatures. RSC Adv, 2018, 8(25):13798-13805.

59)    Highorder DBR GaSb based single longitude mode diode lasers at 2 mu m wavelength.Journal of Semiconductors, 2018, 39(10).

60)    High-powerGaSb-based microstripe broad-area lasers. Applied Physics Express, 2018, 11(3).

61)    Removalof water nutrients by different aquatic plant species: An alternative way toremediate polluted rural rivers. Ecological Engineering, 2018, 110: 18-26.

62)    Preferentialremoval of phosphorus using modified steel slag and cement combination for itsimplications in engineering applications. Environmental Technology &Innovation, 2018, 10: 264-274.

63)    Laterally-coupleddistributed feedback lasers with optimized gratings by holographic lithographyetching. Journal of Infrared and Millimeter Waves, 2018, 37(2): 140.

64)    Asimple approach to obtain 2.0 mu m GaSb laser by using high-order distributedBragg reflector. Journal of Infrared and Millimeter Waves, 2018, 37(6):653-656.

65)    Asimulation model for methane emissions from landfills with interaction ofvegetation and cover soil. Waste Management, 2018, 71: 267-276.

66)    ASimulation model for estimating methane oxidation and emission from landfillcover soils. Waste Management, 2018, 77: 426-434.

67)    Free-conditioning dewatering of sewage sludgethrough in situ propane hydrate formation, Water Research 145 (2018): 464-472

68)    Development of sludge-derived mesoporous materialwith loaded nano CaO2  and doped Fe forre-utilization of dewatered waste-activated sludge as  dewatering aids, Chemical EngineeringJournal, 2018, 335: 161-168.

69)    Mechanism insights into bio-floc bound watertransformation based on  synchrotronX-ray computed microtomography and viscoelastic acoustic  response analysis, Water Research, 2018, 142:480-489.

70)    Development of sludge-derived mesoporous materialwith loaded nano CaO2  and doped Fe forre-utilization of dewatered waste-activated sludge as  dewatering aids, Chemical EngineeringJournal, 2017.10.3, 335: 161~168.

71)    Exploring the potential of iTRAQ proteomics fortracking the  transformation ofextracellular proteins from enzyme-disintegrated waste  activated sludge, Bioresource Technology, 2017.2,225: 75~83. 

72)    Occurrence State and Molecular Structure Analysisof Extracellular  Proteins withImplications on the Dewaterability of Waste-Activated  Sludge, Environmental Science & Technology,2017.8.15, 51(16):  9235~9243. 

73)    Simultaneous enhancement of sludge dewaterabilityand removal of  sludge-borne heavy metalsthrough a novel oxidative leaching induced by nano-CaO2, Environmental Science And Pollutton Research, 2017.7,24(19):  16263~16275. 

74)    Characterization of chlorine and heavy metals forthe potential  recycling of bottom ashfrom municipal solid waste incinerators as cement additives. Frontiers of Environmental Science & Engineering,  2016, 10(4): 1-9. IF, 1.799.

75)    Development of montmorillonite-supported nano CaO2 forenhanced  dewatering of waste-activatedsludge by synergistic effects of filtration aid and peroxidation. Chemical Engineering Journal, 2016. IF,  5.310.

76)    Enhanced nutrient removal from lake water viabiodegradation of poly  (L-lactide)/poly(3-hydroxybutyrate-co-4-hydroxybutyrate) blends. RSC  Advances, 2016, 6(8): 6528-6539. IF, 3.289.

77)    Enhanced dewatering of waste-activated sludge bycomposite hydrolysis  enzymes. Bioprocessand Biosystems Engineering, 2016, 39(4): 627-639.  IF, 1.901.

78)    Field study of nitrous oxide production with insitu aeration in a  closed landfill site.Journal of the Air & Waste Management Association, 2016, 66(3): 280-287. IF, 1.613.

79)    Hybrid cement-assisted dewatering, solidificationand stabilization of  sewage sludge withhigh organic content. Journal of Material Cycles and  Waste Management, 2016, 18(2): 356-365. IF,1.422.

80)    Methane emissions as energy reservoir: Context,scope, causes and  mitigation strategies.Progress in Energy and Combustion Science, 2016,  56: 33-70. IF, 16.784.

81)    Novel insights into enhanced dewatering of wasteactivated sludge based  on the durableand efficacious radical generating. Journal of the Air  & Waste Management Association, 2016. IF,1.613.

82)    Site specific diel methane emission mechanisms inlandfills: A field  validated processbased on vegetation and climate factors. Environmental  Pollution, 2016. IF, 4.839.

83)    Environmental impacts of a large-scale incineratorwith mixed MSW of  high water contentfrom a LCA perspective. Journal of Environmental  Sciences, 2015, 30: 173-179. IF, 2.208.

84)    Effective landfill gas management strategies formethane control and  reuse technology.Journal of Renewable and Sustainable Energy, 2015,  7(4): 041511. IF, 0.961.

85)    Greenhouse gas emission and its potentialmitigation process from the  waste sectorin a large-scale exhibition. Journal of Environmental  Sciences, 2015, 31: 44-50. IF, 2.208.

86)    Total mercury and methylmercury distributions insurface sediments from  Kongsfjorden,Svalbard, Norwegian Arctic. Environmental Science and  Pollution Research, 2015, 22(11): 8603-8610.IF, 2.760.

87)    The dependence of the methylation of mercury on thelandfill  stabilization process andimplications for the landfill management. Chemosphere, 2015, 119:828–834. IF, 3.698.

88)    Characterization of microalgae-bacteria consortiumcultured in landfill  leachate for carbonfixation and lipid production. Bioresource Technology, 2014, 156(2):322–328. IF, 4.917.

89)    Characteristics of light regime on biofixation ofcarbon dioxide and  growth of Scenedesmusobliquus with light-emitting diodes. Journal of Renewable and Sustainable Energy, 2014, 6(3): 033104. IF, 0.961.

90)    Enhanced dewatering characteristics of wasteactivated sludge with  Fentonpretreatment: effectiveness and statistical optimization.  Frontiers of Environmental Science &Engineering, 2014, 8(2):  267-276. IF,1.799.

91)    Influence of aeration modes on leachatecharacteristic of landfills  that adoptthe aerobic–anaerobic landfill method[J]. Waste Management,  2014, 34(1): 101-111. IF, 3.829.

92)    Indicating landfill stabilization state by usingleachate property from  Laogang RefuseLandfill. Frontiers of Environmental Science &  Engineering, 2014, 8(3): 405-410. IF, 1.799.

93)    Characterization of controlled low-strengthmaterial obtained from  dewatered sludgeand refuse incineration bottom ash: Mechanical and  microstructural perspectives. Journal ofEnvironmental Management, 2013,  129:183-189. IF, 3.131.

94)    Emission characteristics and air–surface exchangeof gaseous mercury at  the largest activelandfill in Asia. Atmospheric Environment, 2013, 79:  188-197. IF, 3.459.

95)    Inhibitory effects of a shock load of Fe(II)-mediated persulfate  oxidation onwaste activated sludge anaerobic digestion. Chemical  Engineering Journal, 2013, 233: 274-281. IF,5.310.

96)    Spectroscopic studies of the effect of aerobicconditions on the  chemicalcharacteristics of humic acid in landfill leachate and its  implication for the environment. Chemosphere,2013, 91(7):1058–1063. IF,  3.698.

97)    The effect of aerobic conditions on thecomplexation ability between  mercury andhumic acid from landfill leachate and its implication for  the environment. Chemosphere, 2013, 92(4):458–463.IF, 3.698.

98)    The effect of aeration position on the spatialdistribution and  reduction of pollutantsin the landfill stabilization process–a pilot scale study. Waste Management & Research, 2013, 31(1): 41-49. IF,  1.338.

99)    Abiotic association of phthalic acid esters withhumic acid of a sludge  landfill.Frontiers of Environmental Science & Engineering, 2012,  6(6): 778-783. IF, 1.799.

100)             Complexionbetween mercury and humic substances from different landfill  stabilization processes and its implicationfor the environment.  Journal ofHazardous Materials, 2012, 59-66. IF, 4.836.

101)             Enhancedremoval of carbon dioxide and alleviation of dissolved oxygen  accumulation in photobioreactor with bubbletank. Bioresouce Technology,  2012,360-365. IF, 4.917.

102)             Enhanceddewaterability of sewage sludge in the presence of Fe  (II)-activated persulfate oxidation.Bioresource Technology, 2012, 116: 259-265. IF, 4.917.

103)             Fluorescenceexcitation–emission matrix combined with regional  integration analysis to characterize thecomposition and transformation  of humicand fulvic acids from landfill at different stabilization  stages. Waste Management, 2012, 32(3):438-447. IF, 3.829.

104)             Novelinsights into enhanced dewaterability of waste activated sludge  by Fe (II)-activated persulfate oxidation[J].Bioresource Technology,  2012, 119: 7-14.IF, 4.917.

105)             Synergeticpretreatment of waste activated sludge by Fe (II)–activated  persulfate oxidation under mild temperaturefor enhanced dewaterabilit.  BioresourceTechnology, 2012, 124: 29-36. IF, 4.917.

106)             Characteristicsof vegetation and its relationship with landfill gas in  closed landfill. Biomass and Bioenergy, 2011,35(3): 1295-1301. IF,  3.249.

107)             Abioticassociation of PAEs with humic substances and its influence on  the fate of PAEs in landfill leachate.Chemosphere, 2010,11: 1362-1367.  IF,3.698.

108)             Characteristicsof environmental factors and their effects on CH4 and  CO2 emissions from a closed landfill: anecological case study of  Shanghai. WasteManagement, 2010, 30(3): 446-451. IF, 3.829.

109)             Effect ofbio-column composed of aged refuse on methane abatement–A  novel configuration of biological oxidationin refuse landfill. Journal  ofEnvironmental Sciences, 2010, 22(5): 769-776. IF, 2.208.

110)             Solidphase extraction of trace Hg (II) on silica gel modified with  2-(2-oxoethyl) hydrazine carbothioamide anddetermination by ICP-AES.  Talanta, 2010,82(5): 1791-1796. IF, 4.035.

111)             Characterizationof refuse landfill leachates of three different stages  in landfill stabilization process. Journal ofEnvironmental Sciences,  2009, 21(9):1309-1314. IF, 2.208.

112)             Landfillrefuse stabilization process characterized by nutrient change.  Environmental Engineering Science, 2009,26(11): 1655-1660. IF, 1.481.

113)             Size-fractionationand characterization of landfill leachate and the  improvement of Cu2+ adsorption capacity insoil and aged refuse. Waste  Management,2009, 29(1): 143-152. IF, 3.829.

114)             Characterizationof humic and fulvic acids extracted from landfill by  elemental composition, 13 C CP/MAS NMR andTMAH-Py-GC/MS. Waste  Management, 2008,28(5): 896-903. IF, 3.829.

115)             Characteristicsand mobility of heavy metals in an MSW landfill:  Implications in risk assessment andreclamation. Journal of Hazardous Materials, 2007, 144(1): 485-491. IF, 4.836.

116)             Spectroscopicstudies of the progress of humification processes in  humic substances extracted from refuse in alandfill. Chemosphere, 2007,  69(9):1446-1453. IF, 3.698.

117)             Adsorptionof phenolic compound by aged-refuse. Journal of Hazardous Materials, 2006,137(1): 410-417. IF, 4.836.

2、主要学术奖励

1）超大城市高密度既有城区有机更新关键技术及其应用，上海市2019科技进步一等奖；

2) 污泥减量的高效驱水关键技术研究及其成套技术的应用，上海市2019科技进步二等奖；

3) 生活垃圾能源化与资源化利用技术及应用，国家2013年科技进步二等奖；

4) 生活垃圾能源化与资源化利用技术及应用，教育部2012年科技进步一等奖；

5) 大宗碱溶性金属废物碱介质提取技术与产业化应用，上海市2010年技术发明二等奖；

6) 生活垃圾填埋场垃圾与土地利用技术，住房与城乡建设部2008年科技进步奖（华夏奖)三等奖；

7) 垃圾资源化循环利用关键技术与应用，上海市2007年技术发明三等奖；

8) 垃圾生物反应床处理生活垃圾渗滤液工艺及工程应用，2007年高等学校技  术发明二等奖；

9) 大型滩涂型生活垃圾填埋场填埋与运营关键技术研究，上海市2004年科技 进步二等奖。

3、代表性发明专利

1)一种旋流回收HPB中硅藻土颗粒的方法, 2021-08-20 CN112079439B.

2)一种沸石-磁铁矿复合材料、制备方法及其生物脱氮除磷的使用方法, 2021-08-20 CN111875054B.

3)一种利用无机复合粉末载体快速启动厌氧氨氧化的方法, 2021-06-11 CN111892161B.

4)一种聚羟基脂肪酸酯-硅藻土复合材料及制备方法和应用, 2020-11-03 CN111875055A.

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