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劉長坤職務:環境工程系主任 職稱:副教授 辦公電話:0755-26536157 EMAIL:liuck@szu.edu.cn |
一、簡歷
在深圳大學化學與環境工程學院環境工程系從事研究,擔任副系主任,副教授,碩士生導師。2003年畢業于天津大學高分子材料與工程專業,獲學士學位;2008年畢業于新加坡國立大學,獲博士學位,并在2008-2010年期間在新加坡國立大學進行博士后研究工作。2010年開始在深圳大學化學與環境工程學院工作。主要在環境領域從事吸附劑、膜材料等水處理材料的制備與應用、材料表面改性及功能化、水污染控制技術及機理等方面的研究。現主持國家自然科學基金1項、廣東省自然科學基金1項,深圳市科技研發及創新創業專項資金項目3項,參與國家自然科學基金面上項目1項。在Journal of Membrane Science、Water Research、Desalination、Journal of Colloid and Interface Science、RSC Advances、International Journal of Biological Macromolecules、Current Opinion in Chemical Engineering、Langmuir、Biofouling等國際著名期刊上發表論文20余篇,其中第一作者文章被引頻次已達300多次。
二 科研人員
博士后:趙新振(獲得中國博士后科學基金面上資助);伏振宇(深圳大學優秀博士后入站獎勵計劃)
研究生:梁曉燕(國家獎學金獲得者,深圳大學優秀研究生獎),雷曉斌,賈繼珍,王琳
三、課題組參加的主要學術會議
第八屆全國環境化學大會。地點:廣州。
中國化學會第30屆學術年會。地點:大連。
第九屆全國膜與膜過程學術報告會。地點:上海。
廣東院士高峰年會。地點:深圳。
中國溶膠凝膠學術研討會。地點:昆明。
四、對學生基本要求
勤于思考,做事踏實,勤奮好學,責任心及動手能力較強。
五、本課題組目前正在招收水污染控制、吸附技術及材料、膜技術及材料、材料表面改性等方向的研究生及博士后,感興趣的申請人請發送個人簡歷到liuck@szu.edu.cn
劉長坤,男,博士,副教授,碩士研究生導師,環境工程系副主任,深圳大學“荔園優秀青年教師”。2003年畢業于天津大學高分子材料與工程專業,獲學士學位;2008年畢業于新加坡國立大學,獲博士學位,并在2008-2010年期間在新加坡國立大學進行博士后研究工作。2010年開始在深圳大學化學與環境工程學院工作。主要在環境領域從事吸附材料、膜材料等水處理材料的制備與應用、材料表面改性及功能化、水污染控制技術及機理等方面的研究。主持國家自然科學基金2項、廣東省自然科學基金1項,深圳市科技研發及創新創業專項資金項目4項。在Journal of Membrane Science, Water Research, Chemical Engineering Journal, Desalination, Journal of Colloid and Interface Science, RSC Advances, International Journal of Biological Macromolecules, Current Opinion in Chemical Engineering, Langmuir, Biofouling等國際著名期刊上發表論文20余篇,其中第一作者文章被引頻次已達340余次
研究領域
主要在環境領域從事吸附材料、膜材料等水處理材料的制備與應用、材料表面改性及功能化、水污染控制技術及機理等方面的研究
1.研究方向(Research Interest):吸附與膜分離 新型吸附技術以及功能型吸附劑的研發 重金屬、消毒副產物等水體污染物的控制及去除技術 功能型膜材料(超濾、正滲透膜等)的研發及其水處理應用 表面接枝聚合物刷等表面改性技術在吸附劑和膜制備上的應用 2.科研項目(Research Projects) 國家自然科學基金面上項目(NSFC),2018-2021,項目負責人(PI) 國家自然科學基金青年基金(NSFC),2014-2016,項目負責人(PI) 廣東省自然科學基金博士啟動項目(NSF of Guangdong),2012-2014,項目負責人(PI) 深圳市科技研發資金自由探索項目(R&D Foundation of Shenzhen),2018-2020,項目負責人(PI) 深圳市科技研發資金自由探索項目(R&D Foundation of Shenzhen),2016-2018,項目負責人(PI) 深圳市海外高層次人才創新創業項目(R&D Foundation of Shenzhen),2014-2016,項目負責人(PI) 深圳市科技研發資金基礎研究項目(R&D Foundation of Shenzhen),2014-2016,項目負責人(PI) 深圳大學科研啟動項目(R&D Foundation of SZU),2011-2013,項目負責人(PI) 深圳大學教學改革研究項目(R&D Foundation of SZU),2015-2016,項目負責人(PI)
近期論文
[1] Zhao X.,Liu C.* Efficient removal of heavy metal ions based on the optimized dissolution-diffusion-flow forward osmosis process, Chemical Engineering Journal,2018, 334, 1128-1134. [2]Liu C., Lei X., Wang L., Jia J., Liang X., Zhao X., Zhu H. Investigation on the removal performances of heavy metal ions with the layer-by-layer assembled forward osmosis membranes, Chemical Engineering Journal,2017, 327, 60-70. [3] Fu Z., Jia J., Li J.,Liu C.* Transforming waste expanded polystyrene foam into hyper-crosslinked polymers for carbon dioxide capture and separation, Chemical Engineering Journal,2017, 323, 557-564. [4] Zhao X., Li J.,Liu C.* A novel TFC-type FO membrane with inserted sublayer of carbon nanotube networks exhibiting the improved separation performance. Desalination,2017, 413, 176-183. [5] Zhao X.,Liu C.* Inhibiting the concentration polarization of FO membranes based on the wettable microporous supporting layer and the enhanced dense skin layer. Journal of Applied Polymer Science,2017, 134, 45133. [6] Zhao X., Li J.,Liu C.* Improving the separation performance of the forward osmosis membrane based on the etched microstructure of the supporting layer. Desalination,2017, 408, 102-109 [7]Liu C., Lei X., Liang X., Jia J., Wang L. Visible sequestration of Cu2+ ions using amino-functionalized cotton fiber. RSC Advances,2017, 7, 9744-9753. [8]Liu C., Jia J., Liu J., Liang X. Hg selective adsorption on polypropylene-based hollow fiber grafted with polyacrylamide. Adsorption Science and Technology,2017, Accepted. [9]Liu C., Liang X., Liu J., Lei X., Zhao X. Preparation of the porphyrin-functionalized cotton fiber for the chromogenic detection and efficient adsorption of Cd2+ ions. Journal of Colloid and Interface Science,2017, 488, 294-302. [10] Zhao X.,Liu C.* Enhancing the permeation and fouling resistance of PVDF microfiltration membrane by constructing an auto-soak surface. RSC Advances,2016, 6, 113267-113274. [11] Zhao X.,Liu C.* Irreversible fouling control of PVDF ultrafiltration membrane with "fouled surface" for mimetic sewage treatment. RSC Advances,2016, 6, 94184-94192. [12] Zhao X.,Liu C.* One-step fabricated bionic PVDF ultrafiltration membranes exhibiting innovative antifouling ability to the cake fouling. Journal of Membrane Science,2016, 515, 29-35. [13]Liu C., Liang X., Liu J., Liu Y., Luo J., Zhu H. Efficient removal of Cd(II) ions from aqueous solutions via visible capturing. RSC Advances,2016, 6, 38430-38436 [14]Liu C., Liang X., Liu J., Yuan W. Desorption of copper ions from the polyamine-functionalized adsorbents: Behaviors and mechanisms. Adsorption Science and Technology,2016, 34, 455-468. [15]Liu C., Luo X., Wang F., Luo Z., Zhao X. Copper ion adsorption behaviors in a fixed-bed column filled by triethylenetetramine functionalized microspheres. Rare Metal Materials and Engineering,2016, 45, 180-183 [16]Liu C., Wu Y., Zhao L., Huang X. Preparation of acetylsalicylic acid-acylated chitosan as a novel polymeric drug for drug controlled release. International Journal of Biological Macromolecules,2015, 78, 189-194. [17]Liu C., Bai R. Recent advances in chitosan and its derivatives as adsorbents for removal of pollutants from water and wastewater. Current Opinion in Chemical Engineering,2014, 4, 62-70. [18] Yuan W.*, Wu Q.,Liu C.*, Luo Z., Li Z. Effect of Phase Purity on Dielectric Properties of CaCu3+xTi4O12 Ceramics. Solid State Sciences,2013, 24: 58-61. [19]Liu C., Bai R. Extended study of DETA-functionalized PGMA adsorbent in the selective adsorption behaviors and mechanisms for heavy metal ions of Cu, Co, Ni, Zn and Cd. Journal of Colloid and Interface Science,2010, 350 (1): 282-289. [20]Liu C., Bai R., Hong L., Liu T. Functionalization of adsorbent with different aliphatic polyamines for heavy metal ion removal: Characteristics and performance. Journal of Colloid and Interface Science,2010, 345 (2): 454-460. [21]Liu C., Bai R., Ly Q. Selective removal of copper and lead ions by diethylenetriamine-functionalized adsorbent: Behaviors and mechanisms. Water Research,2008, 42 (6-7): 1511-1522. [22]Liu C., Bai R., Hong L. Diethylenetriamine-grafted poly(glycidyl methacrylate) adsorbent for effective copper ion adsorption. Journal of Colloid and Interface Science,2006, 303 (1): 99-108. [23] Wan W.,Liu C., Sun H., Luo Z., Yuan W., Wu H., Qiu Tai. Low-toxic gelcasting of giant dielectric-constant CaCu3Ti4O12 ceramics from the molten salt powder. Journal of the European Ceramic Society,2015, 35 (13): 3529. [24] Yuan S.,Liu C., Pehkonen S.O., Bai R., Neoh K.G., Ting Y.P., Kang E.-T. Surface functionalization of Cu-Ni alloys via grafting of a bactericidal polymer for inhibiting biocorrosion by Desulfovibrio desulfuricans in anaerobic seawater. Biofouling,2009, 25 (2): 109. [25] Li N., Bai R.,Liu C.Enhanced and selective adsorption of mercury ions on chitosan beads grafted with polyacrylamide via surface-initiated atom transfer radical polymerization. Langmuir,2005, 21 (25): 11780. [26] Zhu X., Bai R., Wee K.-H.,Liu C., Tang S.-L. Membrane surfaces immobilized with ionic or reduced silver and their anti-biofouling performances. Journal of Membrane Science,2010, 363 (1-2): 278.
[1] Zhao X., Li J., Liu C.* A novel TFC-type FO membrane with inserted sublayer of carbon nanotube networks exhibiting the improved separation performance. Desalination, 2017, 413, 176-183.
[2] Zhao X., Liu C.* Inhibiting the concentration polarization of FO membranes based on the wettable microporous supporting layer and the enhanced dense skin layer. Journal of Applied Polymer Science, 2017, Accepted.
[3] Zhao X., Li J., Liu C.* Improving the separation performance of the forward osmosis membrane based on the etched microstructure of the supporting layer. Desalination, 2017, 408, 102-109.
[4] Liu C., Lei X., Liang X., Jia J., Wang L. Visible sequestration of Cu2+ ions using amino-functionalized cotton fiber. RSC Advances, 2017, 7, 9744-9753.
[5] Liu C., Jia J., Liu J., Liang X. Hg selective adsorption on polypropylene-based hollow fiber grafted with
polyacrylamide. Adsorption Science and Technology, 2017, Accepted.
[6] Zhao X., Liu C.* Enhancing the permeation and fouling resistance of PVDF microfiltration membrane by constructing an auto-soak surface. RSC Advances, 2016, 6, 113267-113274.
[7] Liu C., Liang X., Liu J., Lei X., Zhao X. Preparation of the porphyrin-functionalized cotton fiber for the chromogenic detection and efficient adsorption of Cd2+ ions. Journal of Colloid and Interface Science, 2017, 488, 294-302.
[8] Zhao X., Liu C.* Irreversible fouling control of PVDF ultrafiltration membrane with "fouled surface" for mimetic sewage treatment. RSC Advances, 2016, 6, 94184-94192.
[9] Zhao X., Liu C.* One-step fabricated bionic PVDF ultrafiltration membranes exhibiting innovative antifouling ability to the cake fouling. Journal of Membrane Science, 2016, 515, 29-35.
[10] Liu C., Liang X., Liu J., Liu Y., Luo J., Zhu H. Efficient removal of Cd(II) ions from aqueous solutions via visible capturing. RSC Advances, 2016, 6, 38430-38436.
[11] Liu C., Liang X., Liu J., Yuan W. Desorption of copper ions from the polyamine-functionalized adsorbents: Behaviors and mechanisms. Adsorption Science and Technology, 2016, 34, 455-468.
[12] Liu C., Luo X., Wang F., Luo Z., Zhao X. Copper ion adsorption behaviors in a fixed-bed column filled by triethylenetetramine functionalized microspheres. Rare Metal Materials and Engineering, 2016, 45, 180-183.
[13] Liu C., Wu Y., Zhao L., Huang X. Preparation of acetylsalicylic acid-acylated chitosan as a novel polymeric drug for drug controlled release. International Journal of Biological Macromolecules, 2015, 78, 189-194.
[14] Liu C., Bai R. Recent advances in chitosan and its derivatives as adsorbents for removal of pollutants from water and wastewater. Current Opinion in Chemical Engineering, 2014, 4, 62-70.
[15] Yuan W.*, Wu Q., Liu C.*, Luo Z., Li Z. Effect of Phase Purity on Dielectric Properties of CaCu3+xTi4O12 Ceramics. Solid State Sciences, 2013, 24: 58-61.
[16] Liu C., Bai R. Extended study of DETA-functionalized PGMA adsorbent in the selective adsorption behaviors and mechanisms for heavy metal ions of Cu, Co, Ni, Zn and Cd. Journal of Colloid and Interface Science, 2010, 350 (1): 282-289.
[17] Liu C., Bai R., Hong L., Liu T. Functionalization of adsorbent with different aliphatic polyamines for heavy metal ion removal: Characteristics and performance. Journal of Colloid and Interface Science, 2010, 345 (2): 454-460.
[18] Liu C., Bai R., Ly Q. Selective removal of copper and lead ions by diethylenetriamine-functionalized adsorbent: Behaviors and mechanisms. Water Research, 2008, 42 (6-7): 1511-1522.
[19] Liu C., Bai R., Hong L. Diethylenetriamine-grafted poly(glycidyl methacrylate) adsorbent for effective copper ion adsorption. Journal of Colloid and Interface Science, 2006, 303 (1): 99-108.
[20] Wan W., Liu C., Sun H., Luo Z., Yuan W., Wu H., Qiu Tai. Low-toxic gelcasting of giant dielectric-constant CaCu3Ti4O12 ceramics from the molten salt powder. Journal of the European Ceramic Society, 2015, 35 (13): 3529.
[21] Yuan S., Liu C., Pehkonen S.O., Bai R., Neoh K.G., Ting Y.P., Kang E.-T. Surface functionalization of Cu-Ni alloys via grafting of a bactericidal polymer for inhibiting biocorrosion by Desulfovibrio desulfuricans in anaerobic seawater. Biofouling, 2009, 25 (2): 109.
[22] Li N., Bai R., Liu C. Enhanced and selective adsorption of mercury ions on chitosan beads grafted with polyacrylamide via surface-initiated atom transfer radical polymerization. Langmuir, 2005, 21 (25): 11780.
[23] Zhu X., Bai R., Wee K.-H., Liu C., Tang S.-L. Membrane surfaces immobilized with ionic or reduced silver and their anti-biofouling performances. Journal of Membrane Science, 2010, 363 (1-2): 278.
