环境科学与工程系
 首页  师资队伍  环境科学与工程系
English Resume

盖庆春

职称  教授
职务  
主讲课程  《高分子材料》(本科),《膜科学与工程》(硕士)
研究方向  1. 膜技术分离及在废水处理、海水淡化、食品及药物中间体浓缩等方面的应用 2. 新型膜材料和新能源的开发
办公室  环境与资源学院实验北楼314室
电子邮件  g15980581230@163.com
办公电话  

人物简介

盖庆春,女,博士,博士生导师,"闽江学者"特聘教授。主要致力于膜科学与工程方面的研究,应用于能源,环境,废水处理、海水淡化、食品及医药科学等领域;主要涉及有机高分子膜,高分子/纳米材料混合基质膜,纳滤膜,超滤膜,微滤膜,正渗透膜以及各类型膜在能源产品开发,能源持久性发展,废水处理,海水淡化,食品、药物中间体分离提纯浓缩等各方面的应用。现已在国外著名SCI期刊,如Environ. Sci. Technol.、Water Res.、Chem. Comm.、J. Membr. Sci.等发表多篇论文;申请了3项美国专利,其中2项已授权。

学习经历

• 化学博士, 新加坡国立大学
• 化学硕士, 南开大学
• 化学学士, 曲阜师范大学

工作经历

• 教授,福州大学环境与资源学院,2015.4 - 至今
• 博士后研究员, 新加坡国立大学化学过程与分子生物学, 2009.5 - 2015.3
• 助理研究员, 新加坡国立大学化学系, 2007.7 - 2009.4

讲授课程

《高分子材料》(本科),《膜科学与工程》(硕士)

科研项目

1. PBI材料和PBI-FO膜的研究及其在污水处理中的应用(国家自然科学基金项目,66万),2017.1-2020.12
2. 汲取液的研究及在海水淡化中的应用 (福建省自然科学基金项目,4万),2016.4-2019.4
3. 膜技术在水处理中的应用 (福建省闽江学者特聘教授项目, 300万),2015.5-2017.4
4. 中空纤维耐溶剂纳滤膜耐溶剂性能的增强 (10万),2015.12-2016.12

获奖经历

因在 “膜科学技术在能源和水资源的可持续性,更好的品质生活”方面的贡献,新加坡工程学会2010年授予“享有盛誉的工程成就奖”.

出版著作

《Recent Developments in Forward Osmosis Processes》

近年发表的主要论文

专利:	
1.	Q.C. Ge, T.S. Chung, J. Su, Y. Cui, Forward Osmosis System Using Coordination Complexes, 2014. 9,USA,WO 2014/163589 A1.
2.	M.M. Ling, T.S. Chung, K.Y. Wang, Q.C. Ge, J. Su, Forward osmosis process using hydrophilic magnetic nanoparticles as draw solutes. WO 2011/099941.

期刊文章:
1.	W. Xu, Q. Chen, Q.C. Ge*, Recent advances in forward osmosis (FO) membrane: Chemical modifications on membranes for FO processes. Desalination 419 (2017), 101-116.
2.	Q.C. Ge*, G. Amy, T.S. Chung*, Ferric and cobaltous hydroacid complexes for forward osmosis (FO) processes. Water Research 122 (2017) 580-590.
3.	Q.C Ge*, L.M. Yang, J. Cai, W. Xu, Q. Chen, M. Liu, Hydroacid magnetic nanoparticles in forward osmosis for seawater desalination and efficient regeneration via integrated magnetic and membrane separations. Journal of Membrane Science 520 (2016), 550-559.
4.	Q.C. Ge, G. Han, T.S. Chung, Effective As(III) Removal by A Multi-Charged Hydroacid Complex Draw Solute Facilitated Forward Osmosis-Membrane Distillation (FO-MD) Processes, Environmental Science & Technology, 50 (2016), 2363-2370.
5.	Q.C. Ge, T.S. Chung, Oxalic Acid Complexes: Promising Draw Solutes for Forward Osmosis (FO) in Protein Enrichment, Chemical Communications, 51 (2015), 4854-4857.
6.	Q.C. Ge, F.J. Fu, T.S. Chung, Ferric and cobaltous hydroacid complexes for forward osmosis (FO) processes. Water Research 58 (2014), 230-238.
7.	G. Han, Q.C. Ge, T.S. Chung, Conceptual demonstration of novel closed-loop pressure retarded osmosis process for sustainable osmotic energy generation using hydroacid complex as draw solution. Applied Energy. 132 (2014), 383-393.
8.	Y. Cui, Q.C. Ge, X.Y. Liu, T.S. Chung, Novel forward osmosis process to effectively remove heavy metal ions. Journal of Membrane Science 467 (2014), 188-194.
9.	Q.C. Ge, T.S. Chung, Hydroacid complexes: A new class of draw solutes to promote forward osmosis (FO) processes. Chemical Communications 49 (2013), 8471-8473. 
10.	Q.C. Ge, M.M. Ling, T.S. Chung, Draw solution in forward osmosis process: development, challenge and prospects for the future. Journal of Membrane Science 442 (2013), 225-237.
11.	Q.C. Ge, P. Wang, C. Wan, T.S. Chung, G. Amy, Polyelectrolyte-promoted forward osmosis-membrane distillation (FO-MD) hybrid process for dye wastewater treatment. Environmental Science & Technology 46 (2012), 6236–6243.
12.	Q.C. Ge, J. Su, G. Amy, T.S. Chung, Exploration of polyelectrolytes as draw solutes in forward osmosis processes. Water Research 46 (2012), 1318–1326.
13.	Q.C. Ge, J. Su, T.S. Chung, G. Amy, Hydrophilic superparamagnetic nanoparticles: synthesis, characterization and application in forward osmosis processes. Industrial & Engineering Chemistry Research 50 (2011), 382-388.
14.	T.S. Chung, X. Li, R.C. Ong, Q.C. Ge, H. Wang, G. Han, Emerging forward osmosis (FO) technologies and challenges ahead for clean water and clean energy applications. Current Opinion in Chemical Engineering 1 (2012), 246–257.
15.	Q.C. Ge, G.T. Dalton, M.G. Humphrey, M. Samoc, T.S.A. Hor, Structural and Non-Linear Optical Properties of Aligned Heterotrinuclear [RuII-(Spacer)-MII-(Spacer)-RuII] Complexes (M = Pd, Pt; spacer = 4-ethynylpyridine). Chemistry – An Asian Journal 4 (2009), 998-1005.
16.	Q.C. Ge, T. C. Corkery, M.G. Humphrey, M. Samoc, T.S.A. Hor, Organobimetallic RuII-ReI 4-Ethynylpyridyl Complexes: Structures & Non-Linear Optical Properties. Dalton Transactions (2009), 6192-6200. 
17.	Q.C. Ge, T.S.A. Hor, Stepwise assembly of linearly-aligned Ru–M–Ru (M = Pd, Pt) heterotrimetallic complexes with 4-ethynylpyridine spacer. Dalton Transactions (2008), 2929-2936. 
18.	Q.C. Ge, Y. Guo, H. Lin, H.K. Lin, S. Zhu, Kinetics and mechanism of the catalytic dehydration of HCO3− by zinc(II) complexes of tripod ligands. International Journal of Chemical Kinetics 36 (2004), 197-203.  
19.	Q.C. Ge, Y. Guo, H. Lin, H.K. Lin, S. Zhu, Stoichiometrical coordination behaviour of hexaza tripodal ligands towards zinc(II), copper(II), nickel(II) and cobalt(II). Transition Metal Chemistry (Dordrecht, Netherlands) 28 (2003), 572-578.  
20.	Q.C. Ge, Y. Guo, H.K. Lin, S. Zhu, Kinetics studies on the hydrolysis of NA ester catalyzed by Zinc (II) complexes of 1,3,5-tris (2’, 5’- diazaoctane) benzene. Acta Scientiarum Naturalium Universitatis Nankaiensis 36 (2003), 15-21.
21.	Q.C. Ge, Y. Guo, S. Li, H K. Lin, X. Wang, S. Zhu, Y. Chen, Thermodynamic properties of complexes of 1, 3, 5 – tri (n-2, 5-diaminohexaane)-benzene with Co(II), Ni(II), Cu(II) and Zn(II). Acta Scientiarum Naturalium Universitatis Nankaiensis 34 (2001), 13-19.
22.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, La(III) complex of phenanthroline bridging polyamine as efficient catalyst for the hydrolysis of ATP. Indian Journal of Chemistry, Section A: Inorganic, Bio-inorganic, Physical, Theoretical & Analytical Chemistry 42A (2003), 1076-1080.
23.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, Kinetics and mechanism of promoted hydrolysis of 4-nitrophenyl acetate by zinc(II)-tripod: different roles of mononuclear and trinuclear species. International Journal of Chemical Kinetics 36 (2004), 41-48. 
24.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, C. Zhou, Multiple interactions in Zn(II) ternary systems of phenanthroline bridging polyaza ligand and adenosine, 5’-triphosphate. Indian Journal of Chemistry, Section A: Inorganic, Bio-inorganic, Physical, Theoretical & Analytical Chemistry 42(A) (2003), 287-291.
25.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, C. Zhou, Recognition promoted by Zn2+ between phenanthroline bridging polyaza ligands and nucleotides — Zn2+ acts as ‘messenger’ between the receptor and substrate. Journal of Molecular Recognition 16 (2003), 102-111.
26.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, C. Zhou, The different roles of metal ions and water molecules in the recognition and catalyzed hydrolysis of ATP by phenanthroline-containing polyamines. Biophysical Chemistry 105 (2003), 119-131.  
27.	Y. Guo, Q.C. Ge, H.K. Lin, S. Zhu, H. Lin, The role of copper(II) ion in regulating H-bonding and coulombic interactions in copper(II)/tripod/polyphosphate systems. Transition Metal Chemistry (Dordrecht, Netherlands) 28 (2003), 609-615.  
28.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, Synthesis, thermodynamic properties and kinetics of the acid-catalyzed dissociation of nickel(II) diamido polyamino complexes. Transition Metal Chemistry (Dordrecht, Netherlands) 28 (2003), 668-675.
29.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, The different roles of metal ions and water molecule in the hydrolysis of ATP catalyzed by phenanthroline-based polyamines. Inorganic Chemical Communications 6 (2003), 308-312.
30.	Y. Guo, Q.C. Ge, H. Lin, H.K. Lin, S. Zhu, Thermodynamic studies on supramolecular interactions of metal ions with nucleotides/tripods ligands. Polyhedron 21 (2002), 1005-1015.  
31.	Y. Guo, Q.C. Ge, H. Lin, S. Zhu, C. Zhou, Stability study of novel transition metal complexes containing polyamine ligands of phenanthroline, Journal of Nankai University 35 (2002) 61-67.

会议文章:
1.	Q.C. Ge, M.M. Ling, G. Amy, T.S. Chung, Polyelectrolytes-promoted forward osmosis processes, Euromembrane 2012, London, UK, Sept. 23-27, 2012. 
2.	M.M. Ling, Q.C. Ge, T.S. Chung, Molecular design of draw solutions for forward osmosis technology, International Water Association, Busan, Korea, Sept. 16-21, 2012. 
3.	Q.C. Ge, J. Su, G. Amy, T.S. Chung, Novel draw solution of polyelectrolytes in forward osmosis processes, 22nd Annual Meeting of the North American Membrane Society, New Orleans, USA, Jun. 9-13, 2012.
4.	M.M. Ling, Q.C. Ge, J. Su, G. Amy, T.S. Chung, Molecular designs of novel draw solutes in forward osmosis for desalination, Desalination for the Environment - Clean Water and Energy, Barcelona, Spain, Apr. 22-24, 2012.
5.	Q.C. Ge, J. Su, T.S. Chung, Hydrophilic superparamagnetic nanoparticles: synthesis, characterization and performance in forward osmosis processes, AIChE Annual Meeting 2010, Salt Lake City, USA, Nov. 8-12, 2010.
6.	Q.C. Ge, T.S.A. Hor, Use of directional bifunctional spacers to construct µ2,-alkynyl-bridged multinuclear systems, 6th International Symposium by Chinese Inorganic Chemists (ISCIC-6) & 9th International Symposium by Chinese Organic Chemists (ISCOC-9), Singapore, Dec. 17-20, 2006.
7.	Q.C. Ge, T.S.A. Hor, Multimetallic assembly of Ru(II) complexes with -4-ethynylpyridine-type spacers, XXXVIth International Conference on Coordination Chemistry, Cape Town, South Africa, Aug. 13-18, 2006.
8.	Q.C. Ge, T.S.A. Hor, Ru(II)-based heterometallic assembly with 4-ethynylpridine-type spacers, Pacifichem 2005, Honolulu, Hawaii, USA, Dec.15-20, 2005.
9.	Q.C. Ge, T.S.A. Hor, RuII-based a with 4-pyridylacetylide spacer, Singapore International Chemical Conference 4, Singapore, Dec. 8-10, 2005.
10.	Q.C. Ge, T.S.A. Hor, Nitrito-bridged heterodinulear complexes, 5th International Symposium by Chinese Inorganic Chemists (ISCIC-5) & 8th International Symposium by Chinese Organic Chemists (ISCOC-9), Hong Kong, Dec. 19-22, 2004.