刘太楷,男,1984年10月生,工学博士,正高级工程师,硕士生导师。广东省科学院“百人计划”C类人才引进。
发表论文30余篇,其中SCI/EI论文20余篇。申请发明专利30余件,授权发明专利10余件。 主持和参与国家项目、省、市级项目4项,受企业委托项目2余项,经费总计约1500万元。
邮箱:liutaikai@gdinm.com
热喷涂技术,电解水制氢,SOFC
1.期刊论文
[1] X.G. Jiang et al, Hierarchical microporous Ni-based electrodes enable “Two Birds with One Stone” in highly efficient and robust anion exchange membrane water electrolysis (AEMWE), Chemical Engineering Journal, 486(2024): 150180.
[2] X.G. Jiang et al, A novel multi-channel porous structure facilitating mass transport towards highly efficient alkaline water electrolysis, J. Energy Chemistry, 93(2024): 511-518.
[3] T. Liu et al, Mechanism of corrosion and sedimentation of nickel electrodes for alkaline water electrolysis, Materials Chemistry and Physics, 303(2023): 127806.
[4] X.G. Jiang et al, Improved 3D porous structures of Ni electrodes prepared by high-pressure cold spray and post annealing for water splitting, Int. J. Hydrogen Energy, 47(2022): 13226-133.
[5] T. Jiang, et al, Dynamic Self-Optimization of Hierarchical Nial Architecture Catalysing Oxygen Evolution Reaction in Alkaline Water Electrolysis, Applied Materials Today, 28(2022): 101526.
[6]Y.P. Zhang et al, A novel nickel electrode with gradient porosity distribution for alkaline water splitting, Int. J. Hydrogen Energy, 45(2020): 24248-24252.
[7]X.G. Jiang et al, Performance of Nickel Electrode for Alkaline Water Electrolysis Prepared by High Pressure Cold Spray, Int. J. Hydrogen Energy, 45(2020): 33007-33015.
[8] T. Liu et al, Improving plasma sprayed Raney-type nickel–molybdenum electrodes towards high-performance hydrogen evolution in alkaline medium, Scientific Reports, 10(2020): 10948.
[9] T. Liu et al, Experimental and Numerical Study of the effect of Gas-shrouded Plasma Spraying on Cathode Coating of Alkaline Electrolysis Cells, Journal of Thermal Spray Technology, 27(2018): 35-49.
[10] T. Liu et al, A Study of the Influence of the Surrounding Gas on the Plasma Jet and Coating Quality during Plasma Spraying,Plasma chemistry and plasma process, 37(2017): 1009-1032.
2.专利
[1] 一种用于电解水制气的电解单元、电解水制气装置及其应用与电解水制气工艺,发明专利, ZL202010733141.X,刘太楷,邓春明,刘敏,张亚鹏,姜欣格,授权。
[2] 电解水制气装置和方法,发明专利,ZL202010712332.8,刘太楷,邓春明,刘敏,宋琛,授权。
[3] 一种电化学反应装置,实用新型,CN202120028340.0,刘敏,刘太楷,宋琛,董东东,文魁,邓春明,马文有,授权。
[4] 一种电化学反应装置及其制作方法,发明专利,CN202110015798.7, 刘敏,刘太楷,宋琛,董东东,文魁,邓春明,马文有,实审。
[5] 基于增材制造的金属支撑型自密封固体氧化物燃料电池/电解池及电堆,发明专利,ZL202011112244.0,刘敏,宋琛,刘太楷,董东东,邓春明,周克崧,张亚鹏,文魁,邓畅光,马文有,授权。
[6] 电解单元、直驱式电解水制气装置、系统与电解制气场及其应用,ZL202210623893.X, 刘太楷,宋琛,毛杰,邓春明,邓畅光,刘敏,周克崧。
[7] SOLID OXIDE FUEL CELL/ELECTROLYTIC CELL AND ELECTRIC STACK PREPARED BASED ON ADDITIVE MANUFACTURING, US11502320B2, Liu Min, Song Chen, Liu Taikai, Dong Dongdong, Zhou Kesong et al。
[8]一种电解水制氢装置及其应用,ZL202111439029.6, 刘太楷,宋琛,邓春明,邓畅光,刘敏
[9] 一种电堆测温装置及方法,CN202311176753.3, 刘太楷,刘敏,宋琛,文魁,董东东。毛杰,邓春明,邓畅光,周克崧。
[10]固体氧化物燃料电池的燃料加湿装置、方法和应用,CN2024103408957,刘太楷,刘敏,宋琛,文魁,邓春明,邓畅光
