研究领域
金属腐蚀与防护、材料电化学、腐蚀电化学和电化学技术等的研究及开发应用。主要研究内容有:金属表面电化学改性处理技术的开发应用;钢筋混凝土腐蚀机理及其测试技术的研究;电化学传感器的研制及应用;新型多功能钢筋缓蚀剂的研究和应用;纳米TiO2复合膜制备及其光电化学性能的研究。
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Fabrication of heterostructured SrTiO3/TiO2 nanotube array films and their use in photocathodic protection of stainless steel. Electrochimica Acta, 2014, 121: 361-368.
TiO2 nanotube films prepared by anodization in glycerol solutions for photocathodic protection of stainless steel. Journal of The Electrochemical Society, 2014, 161(4): C231-C235.
Photogenerated cathodic protection of stainless steel by liquid-phase-deposited sodium polyacrylate/TiO2 hybrid films. Corrosion Science, 2013, 68 :214-222.
Fabrication and photoelectrochemical properties of ZnS/Au/TiO2 nanotube array films[J]. Physical Chemistry Chemical Physics, 2013, 15(11): 4041-4048.
EIS analysis on chloride-induced corrosion behavior of reinforcement steel in simulated carbonated concrete pore solutions. Journal of Electroanalytical Chemistry, 2013, 688 :275-281.
Highly efficient CdSe/CdS co-sensitized TiO2 nanotube films for photocathodic protection of stainless steel. Electrochimica Acta, 2012, 83: 59-64.
CdSe/CdS quantum dots co-sensitized TiO2 nanotube array photoelectrode for highly efficient solar cells. Electrochimica Acta, 2012, 79:175-181.
Corrosion behavior of epoxy/zinc duplex coated rebar embedded in concrete in ocean environment, Construction and Building Materials, 2012, 28(1):72-78.
Liquid phase deposition (LPD) of TiO2 thin films as photoanodes for cathodic protection of stainless steel. Journal of Alloys and Compounds. 2012, 513: 552-558.
In situ measurement of the transport processes of corrosive species through a mortar layer by FTIR-MIR. Cement and Concrete Research, 2012, 42(1):95-98.
Anticorrosion Properties of Modified Nano-TiO2 Films Prepared by a Sol-Gel Method. Acta Physico-Chimica Sinica, 2012, 28 (2): 393-398.
Effective monitoring of corrosion in reinforcing steel in concrete constructions by a multifunctional sensor[J]. Electrochimica Acta, 2011, 56(4):1881-1888.
Low-temperature liquid phase deposited TiO2 films on stainless steel for photogenerated cathodic protection applications. Applied Surface Science 2011, 257(16): 7330-7334.
A highly efficient ZnS/CdS@TiO2 photoelectrode for photogenerated cathodic protection of metals. Electrochimica Acta, 2010, 55(28)8717-8723.
Photocathodic protection properties of three-dimensional titanate nanowire network films prepared by a combined sol-gel and hydrothermal method. Electrochemistry Communications, 2010, 12(11): 1626-1629.
Study on the corrosion behavior of reinforcing steel in simulated concrete pore solutions using in-situ Raman spectroscopy assisted by electrochemical techniques. Electrochimica Acta, 2010, 55(20): 5677-5682.
Effect of nitrite and chloride ions on the corrosion behavior of reinforcing steel in simulated concrete pore solutions. Acta Metallurgica Sinica, 2010, 46(2): 245-250.
Photogenerated cathodic protection of flower-like, nanostructured, N-doped TiO2 film on stainless steel. Surface & Coatings Technology, 2010, 205 (2): 557-564.
Corrosion behavior of reinforcing steel in simulated concrete pore solutions: A scanning micro-reference electrode study. Electrochimica Acta, 2009, 54(16): 4067-4072.
Study on the effect of chloride ions on the passive film on reinforcing steel in simulated concrete pore solutions by electrochemical techniques. Acta Metallurgica Sinica, 2008, 44(3):346-350.
Study on the localized corrosion behavior of reinforcing steel by scanning microelectrode technique. Journal of building materials, 2008, 11(1): 33-37.
Electrochemical corrosion behavior of copper clad laminate in NaCl solution. Acta Physico-Chimica Sinica, 2007, 23 (9): 1342-1346.
Study on the corrosion behavior of reinforcing steel in cement mortar by electrochemical noise measurements. Electrochimica Acta, 2007, 52(12): 3976-3984.
In situ measurement of CI- concentrations and pH at the reinforcing steel/concrete interface by combination sensors. Analytical Chemistry, 2006, 78(9): 3179-3185.
Study on hydrophobic nano-titanium dioxide coatings for improvement in corrosion resistance of type 316L stainless steel. Corrosion, 2005, 61 (10): 943-950.