基本情況

中共黨員,“百人計劃”人才引進副教授,博士生導師。課題組主要開展土壤-水環境中膠體态污染物遷移行為及機理的研究。從研究方法、界面機制和預測模型等方面開展針對性研究,創新性地開發了多尺度可視化研究手段,有效破解了在“不可見”的土壤環境中,膠體歸趨行為難定量的技術屏障;發現了膠體及土壤介質表面非均質性調控污染物轉化途徑、傳質效率和沉積行為的新機制;構建了量化非均質性貢獻的多過程耦合遷移模型,實現了複雜環境中污染物歸趨的準确預測。研究成果突破了土壤-水環境中膠體态污染物界面作用及遷移行為難定量的技術難題,擴展了膠體遷移理論的内涵,為土壤污染風險評估、修複材料研發及調控策略優化提供了新視角。

迄今發表高水平學術論文64篇,其中自然指數論文17篇,H指數22。近五年,發表第一/通訊作者論文28篇,包括5篇ES&T.(3篇封面論文)、3篇WR、1篇J. Hydrol.等領域内頂刊論文。作為第一完成人,立項污染農田修複技術團體标準3項,編撰生物廢棄物農田回填環境風險分析報告2份,參與制定顆粒污染物管控方法區域規範2項(已頒布實施),申請國家發明專利15項,其中授權4項,授權軟件著作權4項。曾擔任美國水協會AWWA混凝及過濾委員會委員和Wate專刊編輯,目前擔任中國新污染物治理委員會委員,以及領域内重要期刊Micromachines專刊編輯和BiocharEnviron. Sci. Ecotechnol.Chinese Chem. Lett.及B. Environ. Contam. Tox.等期刊的青年編委。主持國家重點研發計劃-政府間國際科技創新合作專項、國家自然科學基金、廣東省傑出青年基金等科研項目9項,獲得中國環境科學學會青年科學家獎優秀獎、廣東省環境科學學會生态環境青年科技獎金獎、加拿大優秀博士論文提名獎及加拿大Aquahacking Summit大賽一等獎等獎項。所帶領的班集體連續兩年被評為優良學風班(2021、2022)。獲“我心目中的良師”稱号(2022),被評為太阳集团app首页優秀班主任(2022)。

 

聯系方式

地址:廣州市大學城外環東路132号太阳集团app首页東校園太阳集团1088vip

郵編:510006

E-mail:jinchao3@mail.sysu.edu.cn

歡迎具有環境工程、環境科學、數值模拟和人工智能等學科背景的碩士、博士、博士後等科研人員加入課題組!

歡迎郵件聯系!

 

教育經曆

2009-092015-06,鐵盧大學,市政工程,博

2007-092009-07,爾濱工業大學,環境工程,碩

2003-092007-07,爾濱工業大學,材料物理,學

 

科研與學術工作經曆

2018-09至今,中山大學,環境工程系,副

2016-052018-09,鐵盧大學,系統設計工程,研究助理教授

2015-072016-04,鐵盧大學,環境工程,博士後

 

主持的科研項目/課題

  • 國家重點研發計劃-國合專項污染農田生态修複關鍵過程和調控技術,首席科學家主持
  • 國家重點研發計劃項目有色金屬礦區地下水重金屬污染防控技術體系,子課題主持
  • 國家自然科學基金委員會青年科學基金項目,主持
  • 廣東省自然科學基金傑出青年項目,主持
  • 廣州市科技計劃項目,主持
  • 廣州市科技計劃項目-重點研發計劃,參與
  • 廣東省自然科學基金面上項目,結題
  • 教育部高校青年教師培育項目,結題
  • 城市水資源與水環境國家重點實驗室,面上項目,結題
  • 中華人民共和國教育部,雙一流引導專項配套,結題
  • 太阳集团app首页“百人計劃”青年傑出人才項目,結題

 

承擔課程

  • 環境工程仿真與控制
  • 環境工程設計及實踐
  • 水污染控制工程
  • 數據庫與信息工程
  • 環境土壤學及實習

 

代表性論文:

  • Zhu S, Luo W, Mo Y, Ding K, Zhang M, Jin C*, Wang S, Chao Y, Tang Y, & Qiu R. (2023). New insights into the role of natural organic matter in Fe-Cr coprecipitation: Importance of molecular selectivity. Environmental Science & Technology, 56(15), 10668-10680. 封面論文
  • Zhang M, Bradford S, Klumpp E, Šimůnek J, Wang S, Wan Q, Jin C*, & Qiu R. (2022). Significance of non-DLVO interactions on the co-transport of functionalized multiwalled carbon nanotubes and soil nanoparticles in porous media. Environmental Science & Technology, 56(15), 10668-10680. (内封面論文
  • Zhu S, Huang X, Yang X, Peng P, Li Z, Jin C*. (2020). Enhanced transformation of Cr (VI) by heterocyclic-N within nitrogen-doped biochar: impact of surface modulatory persistent free radicals (PFRs). Environmental Science & Technology, 54(13), 8123-8132.
  • Jin C, Mo Y, Zhao L, Xiao Z, Zhu S, He Z, Chen Z, Zhang M*, Shu L, & Qiu R*. (2022). Host–endosymbiont relationship impacts the retention of bacteria-containing amoeba spore in porous media. Environmental Science & Technology, 56 (17), 12347-12357. (内封面論文
  • Jin C, Zhao L, Zhao W, Wang L, Zhu S, Xiao Z, Mo Y, Zhang M, Shu L*, Qiu R* (2021). Transport and retention of free-living amoeba spores in porous media: Effects of operational parameters and extracellular polymeric substances. Environmental Science & Technology, 55(13), 8709-8720.
  • Jin C, Ren CL, Emelko MB*. (2016). Concurrent modeling of hydrodynamics and interaction forces improves particle deposition predictions. Environmental Science & Technology, 50(8), 4401-4412.
  • Jin C, Normani SD, Emelko MB*. (2015). Surface roughness impacts on granular media filtration at favorable deposition conditions: Experiments and modeling. Environmental Science & Technology, 49(13), 7879-7888.
  • Zhu S, Mo Y, Luo W, Xiao Z, Jin C*, & Qiu R (2022). Aqueous aggregation and deposition kinetics of fresh and carboxyl-modified nanoplastics in the presence of divalent heavy metals. Water Research, 222, 118877.
  • Chen Z, Meng F, Normani SD, Zhou C, Wu X, Jin C*. (2022). Optimum relative frequency and fluctuating substrate selection in reinforcing anammox-mediated anabolic adaptation. Water Research, 228, 119377.
  • Zhao W, Zhao P, Tian Y, Shen C, Li Z, Jin C*. (2019). Transport and retention of Microcystis aeruginosa in porous media: Impacts of ionic strength, flow rate, media size and pre-oxidization. Water Research, 162, 277-287.
  • Jin C, Zhao W, Normani SD, Zhao P, Emelko MB*. (2017). Synergies of media surface roughness and ionic strength on particle deposition during filtration. Water Research, 114, 286-295.
  • Zhang M, Bradford S, Klumpp E, Šimůnek J, Mo Y, Ding K, Wan Q, Wang S, Jin C*, & Qiu R*. (2023). Divalent cation contributions to the co-transport and deposition of functionalized multi-walled carbon nanotubes in porous media in the presence of bentonite or goethite nanoparticles: Experiment and simulation. Journal of Hydrology, 625, 129909.
  • Zhu S, Mo Y, Luo W, Xiao Z, Jin C*, & Qiu R. (2023). Dissolved organic matter regulates aggregation and deposition of chromium (hydr)oxide colloids: molecular-scale investigation using ESI-FT-ICR-MS. Environmental Science: Nano, 10, 1220-1231. (封面論文
  • Zhu S, Mo Y, Xing J, Luo W, Jin C*, & Qiu R. (2022). Colloidal stabilities and deposition behaviors of chromium (hydr)oxides in the presence of dissolved organic matters: Role of coprecipitation and adsorption. Environmental Science: Nano, 9, 2207-2219.
  • Zhao W, Zhao P, Tian Y, Shen C, Li Z, Peng P, Jin C*. (2020). Investigation for synergies of ionic strength and flow velocity on colloidal-sized microplastic transport and deposition in porous media using the colloidal-AFM probe. Langmuir, 36(22), 6292-6303.
  • Zhu S, Li C, Yang X, Wang S, Duan X*, Jin C*. (2021). Oxidation of amines and their derivatives with persulfate without activation: Impact of mineral oxides and stoichiometric efficiency. Chemical Engineering Journal, 426, 131930.
  • Huang X, Xu B, Zhu S, Ma F, Jin C*. (2021). Overlooked contributions of biochar-derived dissolved organic matter on the adsorption of Pb (Ⅱ): Impacts of fractionation and interfacial force. Journal of Hazardous Materials, 420, 126692.
  • Bai S, Jin C, Zhu S*, Ma F*, Wang L, Wen Q. (2021). Coating magnetite alters the mechanisms and site energy for sulfonamide antibiotic sorption on biochar. Journal of Hazardous Materials, 409, 125024.
  • Zhang M, Bradford SA, Klumpp E, Šimůnek J, Jin C* & Qiu R*. (2021). Non-monotonic contribution of nonionic surfactant on the retention of functionalized multi-walled carbon nanotubes in porous media. Journal of Hazardous Materials, 407, 124874.
  • Zhu S, Wang P, Yang XB, Jin C* & Qiu R*. (2021). Coupling experiments with calculations to understand the thermodynamics evolution for the sorption of zwitterionic ciprofloxacin on oxidizing-aged pyrogenic chars in the aquatic system. Journal of Hazardous Materials, 411, 125101.
  • Zhu S, Zhao W, Wang P, Zhao L, Jin C*, Qiu R. (2021). Co-transport and retention of zwitterionic ciprofloxacin with nano-biochar in saturated porous media: Impact of oxidized aging. Science of the Total Environment, 779, 146417.
  • Chen Z, Huang Y, Meng F, & Jin C*. (2020). Development of a quartz sand protocol for exoproteome exploration from anammox consortia. ACS Sustainable Chemistry & Engineering, 8(38), 14330-14339.
  • Jin C*, Archer G, Parker W. (2018). Current status of sludge processing and biosolids disposition in Ontario. Resources, Conservation and Recycling, 137, 21-31.
  • Li T, Shen C*, Johnson W, Ma H, Jin C, Zhang C, Chu X, Ma K, Xing B*. (2022). Important Role of concave surfaces in deposition of colloids under favorable conditions as revealed by microscale visualization. Environmental Science & Technology, 56(7), 4121-4131
  • Wu W, Zhu S*, Huang X, Wei W, Jin C, Ni BJ*. (2021). Determination of instinct components of biomass on the generation of persistent free radicals (PFRs) as critical redox sites in pyrogenic chars for persulfate activation. Environmental Science & Technology, 55(11), 7690-7701.
  • Chen Z, Meng Y, Sheng B, Zhou Z, Jin C, Meng F*. (2019). Linking exoproteome function and structure to anammox biofilm development. Environmental Science & Technology, 53(3), 1490-1500.
  • Li T, Shen C*, Wu S, Jin C, Bradford SA*. (2020). Synergies of surface roughness and hydration on colloid detachment in saturated porous media: Column and atomic force microscopy studies. Water research, 183, 116068
  • Wang H, Zhang W, Zeng S*, Shen C, Jin C, Huang Y*. (2019). Interactions between nanoparticles and fractal surfaces. Water research, 151, 296-309.

 

 

授權發明專利

  • 一種石英砂協同非離子型表面活性劑提取生物膜胞外蛋白的方法,專利号:ZL201911414079.1
  • 一種增強厭氧氨氧化菌耐沖擊性能的馴化方法及其應用,專利号:ZL202010357615.5
  • 一種快速測量混合微塑料與鉛的紫外檢測法,專利号:ZL202211040626.6
  • 一種快速準确測量鉛濃度的紫外檢測法,專利号:ZL202211040981.3

 

授權實用新型專利

  • 一種光生物反應裝置,專利号:ZL202123304059.4

 

授權軟件著作

  • 原子力顯微鏡數據深度處理及空間受力可視化軟件V1.0,登記号:2023SR0189758
  • 傅立葉變換離子回旋共振質譜數據分析及可視化軟件V1.0,登記号:2023SR0034916
  • 膠體空間受力情況可視化軟件V1.1,登記号:2022SR1177936
  • 非正态分布水質觀測序列的幂變換軟件V1.0,登記号:2019SR0763855