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[1] Tang J, Yu X, Wang Z, et al. Electron and ion kinetics in three-dimensional confined microwave-induced microplasmas at low gas pressures[J]. Aip Advances, 2016, 6(4):373.
[2] Sun Q, Li H, Yan J, Liu L, Yu Z, Yu X. Selection of appropriate biogas upgrading technology-a review of biogas cleaning, upgrading and utilisation[J]. Renewable & Sustainable Energy Reviews, 2015, 51:521-532.
[3] Tuo Y, Jiang H, Li X, Shi L, Yu X, Li P. Kinetic behavior of Pt catalyst supported on structured carbon nanofiber bed during hydrogen releasing from decalin[J]. International Journal of Hydrogen Energy, 2016, 41(25):10755-10765.
[4] Li X, Tuo Y, Jiang H, Duan X, Yu X. Engineering Pt/carbon-nanofibers/carbon-paper composite towards highly efficient catalyst for hydrogen evolution from liquid organic hydride[J]. International Journal of Hydrogen Energy, 2015, 40(36):12217-12226.
[5] Tang J, Cai C, Ming X, Yu X, Zhao S, Tu S, Liu H. Morphology and stress at silicon-glass interface in anodic bonding[J]. Applied Surface Science, 2016, 387:139-148.
[6] Yu W, Tao J, Yu X, et al. A microreactor with superhydrophobic Pt–Al2O3 catalyst coating concerning oxidation of hydrogen off-gas from fuel cell[J]. Applied Energy, 2016.
[7] Lin Y, Yu X*, Wang Z, et al. Effect of Laser-Induced Heating on Raman Measurement within a Silicon Microfluidic Channel[J]. Micromachines, 2015, 6(7): 813-830.
[8] Yu X*, An L, Yang J, et al. CO2 capture using a superhydrophobic ceramic membrane contactor[J]. Journal of Membrane Science, 2015, 496: 1-12.
[9] Yu X*, Yang J, Lu H, et al. Energy-efficient extraction of fuel from Chlorella vulgaris by ionic liquid combined with CO2 capture[J]. Applied Energy, 2015.
[10] Yang J*, Yu X, Yan J, et al. CO2 capture using amine solution mixed with ionic liquid[J]. Industrial & Engineering Chemistry Research, 2014, 53(7): 2790-2799.
[11] Deng W, Yu X, Sahimi M, et al. Highly permeable porous silicon carbide support tubes for the preparation of nanoporous inorganic membranes[J]. Journal of Membrane Science, 2014, 451: 192-204.
[12] Huang J, Yang J, Yu X*, et al. Energy-efficient Extraction of Fuel from Chlorella Combined with CO 2 Capture[J]. Energy Procedia, 2014, 61: 2805-2808.
[13] Yu W, Yu X*, Tu S T. Oxidation of Hydrogen Off-gas from a Fuel Cell Using a Microstructured Reactor with Hydrophobic Pt-Al2O3 Catalyst Coating[J]. Energy Procedia, 2014, 61: 2854-2857.
[14] Yang J, Yu X*, Yan J, et al. CO2 Capture Using Absorbents of Mixed Ionic and Amine Solutions[J]. Energy Procedia, 2014, 61: 2849-2853.
[15] Ai L, Yu X*, Jiang W, et al. Residual Stress Distribution in Hard-Facing of Pressure Relief Valve Seat[J]. Journal of Pressure Vessel Technology, 2014, 136(6): 061403.
[16] Yang J, Yu X*, Yan J, et al. Effects of SO2 on CO2 capture using a hollow fiber membrane contactor[J]. Applied Energy, 2013, 112: 755-764.
[17] Yu X*, Yu W, Li H, et al. Preparation, characterization and application of K-PtCo/Al2O3 catalyst coatings for preferential CO oxidation[J]. Applied Catalysis B: Environmental, 2013, 140: 588-597.
[18] 杨金龙, 赖焕新, 于新海,等. 一种高速剪切搅拌器内流场的研究[C]// 中国工程热物理学会. 2012.
[19] Wen Z, Yu X, Tu S T, et al. Catalytic Biodiesel Production[J]. Air Pollution Prevention and Control: Bioreactors and Bioenergy, 2013: 383-397.
[20] 杨金龙, 赖焕新, 于新海,等. 低比速离心泵半开式叶轮内流场的模拟[J]. 工程热物理学报, 2011, 02期.
[21] Lv Y, Yu X, Tu S T, et al. Experimental studies on simultaneous removal of CO2 and SO2 in a polypropylene hollow fiber membrane contactor[J]. Applied Energy, 2012, 97: 283-288.
[22] Lin Y, Yu X*, Wang Z, et al. Laminar flow diffusion interface control in a microchannel with accurate Raman measurement[J]. Chemical Engineering and Processing: Process Intensification, 2012, 57: 1-7.
[23] Weiling Luan, Hongwei Yang, Zhen Wan, Binxia Yuan, Xinhai Yu, Shan-tung Tu. Mercaptopropionic acid capped CdSe/ZnS quantum dots as fluorescence probe for lead (II)[J]. Journal of Nanoparticle Research, 2012, 14(3): 1-8.
[24] Lv Y, Yu X*, Jia J, et al. Fabrication and characterization of superhydrophobic polypropylene hollow fiber membranes for carbon dioxide absorption[J]. Applied Energy, 2012, 90(1): 167-174.
[25] Lin Y, Yu X*, Wang Z, et al. Design and evaluation of an easily fabricated micromixer with three-dimensional periodic perturbation[J]. Chemical Engineering Journal, 2011, 171(1): 291-300.
[26] Yu X*, Wen Z, Li H, et al. Transesterification of Pistacia chinensis oil for biodiesel catalyzed by CaO–CeO2 mixed oxides[J]. Fuel, 2011, 90(5): 1868-1874.
[27] Yu X*, Li H, Tu S T, et al. Pt–Co catalyst-coated channel plate reactor for preferential CO oxidation[J]. International journal of hydrogen energy, 2011, 36(5): 3778-3788.
[28] Wen Z, Yu X*, Tu S T, et al. Biodiesel production from waste cooking oil catalyzed by TiO2–MgO mixed oxides[J]. Bioresource Technology, 2010, 101(24): 9570-9576.
[29] Yu X*, Wen Z, Lin Y, et al. Intensification of biodiesel synthesis using metal foam reactors[J]. Fuel, 2010, 89(11): 3450-3456.
[30] Li H, Yu X*, Tu S T, et al. Catalytic performance and characterization of Al2O3-supported Pt–Co catalyst coatings for preferential CO oxidation in a micro-reactor[J]. Applied Catalysis A: General, 2010, 387(1): 215-223.
[31] Tu S T, Yu X, Luan W, et al. Development of micro chemical, biological and thermal systems in China: a review[J]. Chemical Engineering Journal, 2010, 163(3): 165-179.
[32] Lv Y, Yu X*, Tu S T, et al. Wetting of polypropylene hollow fiber membrane contactors[J]. Journal of Membrane Science, 2010, 362(1): 444-452.
[33] Lin Y, Yu X*, Wang Z, et al. Measurement of temperature-dependent diffusion coefficients using a confocal Raman microscope with microfluidic chips considering laser-induced heating effect[J]. Analytica chimica acta, 2010, 667(1): 103-112.
[34] Wen Z, Yu X*, Tu S T, et al. Synthesis of biodiesel from vegetable oil with methanol catalyzed by Li-doped magnesium oxide catalysts[J]. Applied energy, 2010, 87(3): 743-748.
[35] Yuan Yao, Wenyong Dong, Shenmin Zhu, Xinhai Yu§ and Deyue Yan. Novel morphology of calcium carbonate controlled by poly (L-lysine)[J]. Langmuir, 2009, 25(22): 13238-13243.
[36] Wen Z, Yu X*, Tu S T, et al. Intensification of biodiesel synthesis using zigzag micro-channel reactors[J]. Bioresource technology, 2009, 100(12): 3054-3060.
[37] Xinhai Y*, Shan-Tung, Zhendong W, et al. Investigation on methanol steam reforming in a microchannel reactor by experiments and mathematical model analysis[J]. International Journal of Green Energy, 2008, 5(4): 281-296.
[38] 姚华堂, 于新海*, 王正东,等. 微反应器中的微制作技术[J]. 微细加工技术, 2006, 第2期:54-60.
[39] Yu X*, Tu S T, Wang Z, et al. Development of a microchannel reactor concerning steam reforming of methanol[J]. Chemical Engineering Journal, 2006, 116(2): 123-132.
[40]袁彪, 于新海*, 王正东,等. 在涂层催化剂上甲醇水蒸气重整的本征动力学研究[J]. 石油化工, 2005, 34(11):1055-1059.
[41] 于新海*, 涂善东, 王正东,等. 甲醇重整微槽道反应器的性能[J]. 华东理工大学学报:自然科学版, 2006, 31(6):792-796.
[42] Yu X*, Tu S T, Wang Z, et al. On-board production of hydrogen for fuel cells over Cu/ZnO/Al 2 O 3 catalyst coating in a micro-channel reactor[J]. Journal of Power Sources, 2005, 150: 57-66.
[43] 于新海*, 涂善东, 王正东,等. 甲醇水蒸气重整微型反应器催化剂涂层的研究[J]. 华东理工大学学报:自然科学版, 2005, 05期(5):653-657.
[44] 于新海*, 王正东, 涂善东,等. Cu/ZnO/CeO2/Al2O3四元涂层催化剂甲醇水蒸气重整本征动力学[J]. 华东理工大学学报:自然科学版, 2006, 第1期(1):103-107.
[45] 杨洁, 严晋跃, 于新海*,等. 基于醇胺+[bmim][BF4]+H2O溶液的CO2捕捉工艺[J]. 华东理工大学学报:自然科学版, 2013, 39(6):641-647.
[46] 于新海*, 王正东, 涂善东,等. Cu/ZnO/Al2O3催化剂涂层工艺参数的优化[J]. 太阳能学报, 2005, 第4期(4):556-562.
[47] 于新海*, 涂善东, 王正东,等. 甲醇重整微槽道反应器加工工艺的研究[J]. 电池, 2006, 04期(4):305-307.
[48] 李宏亮, 董红微, 于新海*,等. PtCoK/Al2O3催化剂涂层选择性氧化脱除富氢气氛中的CO[J]. 精细化工, 2011, 第4期(4):359-363.
[49] 吕月霞, 于新海*, 涂善东. 膜气吸收法分离烟气中CO2的实验[J]. 南京工业大学学报:自然科学版, 2009, 第5期:96-101.