劉志祥,博士,研究員,1999年於哈爾濱工程大學電化學工程與工藝專業獲得工學學士學位, 2002年於哈爾濱工程大學套用化學專業獲得工學碩士學位,2003年~2004年赴德國曼海姆套用科技大學留學,2006年於清華大學化學工程與技術專業獲得博士學位。2006年留在清華大學核能與新能源技術研究院工作,任助理研究員,2011年晉升副研究員。2012年作為引進人才赴西南交通大學電氣工程學院工作,聘為研究員。
2016年作為高層次人才引進,成為佛山科技學院特聘教授。
基本介紹
- 中文名:劉志祥
- 國籍:中國
- 民族:漢族
- 職業:佛山科技學院研究員
- 畢業院校:清華大學
- 主要成就:1.第19屆全國發明展覽會金獎2.第20屆全國發明展覽會金獎
- 代表作品:空冷、自增濕式質子交換膜燃料電池發電機
研究工作
科研成果
[2]. Liu ZX, Yang LZ, Mao ZQ, Zhuge WL, Zhang YJ, Wang LS. Behavior of PEMFC in starvation. J. Power Sources. 2006, 157(1): 166-176 (SCI檢索號: 057HW, EI檢索號: 2006239917252, 被引用41次)
[3]. Liu ZX, Mao ZQ, Wang C. A two dimensional partial flooding model for PEMFC. J. Power Sources. 2006, 158(2): 1229-1239 (SCI檢索號: 088WW, EI檢索號: 20063610099323, 被引用21次)
[4]. Liu ZX, Mao ZQ, Wang C, Zhuge WL, Zhang YJ. Numerical simulation of a mini PEMFC stack. J. Power Sources. 2006, 160(2): 1111-1121(SCI檢索號:096YA, EI檢索號:20063910139654, 被引用13次)
[5]. Liu ZX, Qiu ZM, Luo Y, Mao ZQ, Wang C. Operation of first solar-hydrogen system in China. Int. J. Hydrogen Energy. 2010,35(7):2762-2766 (SCI檢索號:583QF, EI檢索號: 20101612868211, 被引用7次)
[6]. Liu ZX, Mao ZQ, Xu JM, Hess-Mohr N, Schmidt VM. Operation conditions optimization of hydrogen production by propane autothermal reforming for PEMFC application. Chinese J. Chem. Eng. 2006, 14(2): 259-265 (SCI檢索號: 038IQ, EI檢索號: 2006279979842, 被引用6次)
[7]. Liu ZX, Zhang HY, Wang C, Mao ZQ. Numerical simulation for rib and channel position effect on PEMFC performances. Int. J. Hydrogen Energy. 2010, 35(7): 2802-2806 (SCI檢索號: 583QF, EI檢索號: 20101612868219, 被引用3次)
[8]. Liu ZX, Mao ZQ, Xu JM, Hess-Mohr N, Schmidt VM. Modelling of a PEM fuel cell system with propane ATR reforming. Fuel Cells. 2006, 6(5): 376-386 (SCI檢索號: 102HG, EI檢索號: 20064510228024)
[9]. Liu ZX, Yang Y, Lu WZ, Wang C, Chen M, Mao ZQ. Durability test of PEMFC with Pt-PFSA composite membrane. Int. J. Hydrogen Energy, (2011), doi:10.1016/j.ijhydene. 2011.03.094 (EI檢索號: IP51488491)
[10]. 劉志祥,錢偉,郭建偉,張傑,王誠,毛宗強. 質子交換膜燃料電池材料. 化學進展,2011,23(2~3): 487-500(SCI檢索號: 742WR)
[11]. Wang C, Liu ZX, Mao ZQ, Xu JM, Ge KY. Preparation and evaluation of a novel self-humidifying Pt/PFSA composite membrane for PEM fuel cell. Chem. Eng. J. 2005, 112(1-3): 87-91(SCI檢索號: 971JR, EI檢索號: 2005399386552, 被引用9次)
[12]. Lu WZ, Liu ZX, Wang C, Mao, ZQ, Zhang ML. Proton Exchange Membrane Fuel Cell with Humidifying Zone. Chinese J. Chem. Eng. 2010, 18(5): 856-862 (SCI檢索號: 682GH, EI檢索號: 20104513363840)
[13]. Lu WZ, Liu ZX, Wang C, Mao, ZQ, Zhang ML. The effects of pinholes on proton exchange membrane fuel cell performance. Int. J. Energy Res. 2011 35(1): 24-30 (SCI檢索號: 704SU, EI檢索號: 20110113540657)
[14]. Huang HB, Mao ZQ, Liu ZX, Wang C. Development of novel low-temperature SOFCs with co-ionic conducting SDC-carbonate composite electrolytes. Electrochem. Commun. 2007, 9(10): 2601-2605 (SCI檢索號: 223kJ, EI檢索號: 20073810818121, 被引用43次)
[15]. Wu HJ, Wang C, Liu ZX, Mao ZQ. Influence of operation conditions on direct NaBH4/H2O2 fuel cell performance. Int. J. Hydrogen Energy. 2010, 35(7): 2648-2651 (SCI檢索號: 583QF, EI檢索號: 20101612868190, 被引用8次)
[16]. Huang JB, Mao ZQ, Liu ZX, Wang C. Performance of fuel cells with proton-conducting ceria-based composite electrolyte and nickel-based electrodes. J. Power Sources. 2008, 175(1): 238-243 (SCI檢索號: 253IY, EI檢索號: 20074810950958, 被引用29次)
[17]. Sun W, Zhang SQ, Liu ZX, Wang C, Mao ZQ. Studies on the enhanced photocatalytic hydrogen evolution over Pt/PEG-modified TiO2 photocatalysts. Int. J. Hydrogen Energy. 2008, 33(4): 1112-1117 (SCI檢索號: 284KQ, EI檢索號: 20081011133617, 被引用24次)
[18]. Gao Z, Mao ZQ, Wang C, Liu ZX. Development of trimetallic Ni-Cu-Zn anode for low temperature solid oxide fuel cells with composite electrolyte. Int. J. Hydrogen Energy. 2010, 35(23): 12897-12904 (SCI檢索號: 687AE, EI檢索號: 20104513363726)
[19]. Gao Z, Mao ZQ, Wang C, Liu ZX. Preparation and characterization of La1-xSrxNiyFe1-yO3- delta cathodes for low temperature solid oxide fuel cells. Int. J. Hydrogen Energy. 2010, 35(23): 12905-12910 (SCI檢索號: 687AE, EI檢索號: 20104513363725, 被引用1次)
[20]. Sun W, Zhang S, Wang C, Liu ZX, Mao ZQ. Enhanced photocatalytic hydrogen evolution over CaTi1-xZrxO3 composites synthesized by polymerized complex method. Cata. Lett. 2007, 119(1-2): 148-153 (SCI檢索號: 221NP, EI檢索號:20074310890583, 被引用8次)
[21]. Zhang YJ, Wang C, Wan NF, Liu ZX, Mao, ZQ. Study on a novel manufacturing process of membrane electrode assemblies for solid polymer electrolyte water electrolysis. Electrochem. Commun. 2007, 9(4): 667-670 (SCI檢索號: 161YS, EI檢索號: 20071410529368,被引用17次)
[22]. Gao Z, Mao ZQ, Wang C, Liu ZX. Novel SrTixCo1-xO3-delta cathodes for low-temperature solid oxide fuel cells. Int. J. Hydrogen Energy, 2011, 36(12): 7229-7233 (SCI檢索號: 777NN; EI檢索號:20112013985926)
[23]. Sun W, Zhang SQ, Wang C, Liu ZX, Mao ZQ. Effects of cocatalyst and calcination temperature on photocatalytic hydrogen evolution over BaTi4O9 powder synthesized by the polymerized complex method. Cata. Lett. 2008, 123(3-4): 282-288 (SCI檢索號: 315VY, EI檢索號: 20082711345713, 被引用3次)
[24]. Gao Z, Mao ZQ, Huang HB, Gao RF, Wang C, Liu ZX. Composite cathode La0.15Bi0.85O1.5 -Ag for intermediate-temperature solid oxide fuel cells. Mater. Chem. Phys. 2008, 108(2-3): 290-295 (SCI檢索號: 289VH, EI檢索號: 20080711096304, 被引用5次)
[25]. Gao Z, Mao ZQ, Wang C, Huang JB, Liu ZX. Composite electrolyte based on nanostructured Ce0.8Sm0.2O1.9-SDC for low temperature solid oxide fuel cells. Int. J. Energy Res. 2009, 33(13): 1138-1144 (SCI檢索號: 510CW, EI檢索號: 20100512681199, 被引用5次)
[26]. Gao Z, Huang JB, Mao ZQ, Wang C, Liu ZX. Preparation and characterization of nanocrystalline Ce0.8Sm0.2O1.9 for low temperature solid oxide fuel cells based on composite electrolyte. Int. J. Hydrogen Energy. 2009, 35(2): 731-737 (SCI檢索號: 558DB, EI檢索號:20100212627226, 被引用9次)
[27]. Bao C, Su QQ, Mi WL, Li ZY, Bi QA, Ji ZH, Liu ZX, Mao ZQ. A 10kW-scale Distributed Power Plant of Natural Gas-Proton Exchange Membrane Fuel Cell. Chinese J. Chem. Eng. 2010, 18(6): 988-994(SCI檢索號: 705WU, EI檢索號: 20110113555617, 被引用1次)
[28]. Gao Z, Raza R, Zhu B, Mao ZQ, Wang C, Liu ZX. Preparation and characterization of Sm0.2Ce0.8O1.9/Na2CO3 nanocomposite electrolyte for low-temperature solid oxide fuel cells. Int. J. Hydrogen Energy, 2011, 36(6): 3984-3988 (SCI檢索號: 747PL , EI檢索號:20111113741807)
[30]. 吳海軍,王誠,劉志祥,張萍,毛宗強. NaBH4的製備現狀及其在燃料電池氫源中的套用前景. 太陽能學報, 2008, 29(2):227-233 (EI檢索號:20081411183594)
[31]. 徐利艷,董國君,劉志祥,龔凡,毛宗強. 鹼性介質中空氣電極性能的研究, 太陽能學報, 2009, 30(7):990-995 (EI檢索號: 20093712305049)
[32]. 呂維忠, 王誠, 劉志祥, 張密林, 毛宗強. 非對稱氣體擴散電極對空冷自增濕質子交換膜燃料電池性能的影響. 太陽能學報, 2010,31(9):1135-1140 (EI檢索號: 20104813430621)
[34]. 劉志祥, 王誠, 吳兵, 王利生, 毛宗強. 微型氫空質子交換膜燃料電池系統. 電源技術 , 2006,(12): 982-985
[35]. 劉志祥, 吳兵, 王利生, 毛宗強. 大活性面積PEMFC的電流密度分布. 電池,2009,(1):12-14
[36]. 呂維忠, 劉志祥, 王誠, 張密林. PEMFC用氫-空自增濕MEA的性能.電池, 2010, 40(3):127-130
[37]. 王海燕,劉志祥,毛宗強,岳琪. SPE電解池催化劑載體的研究. 化工新型材料,2009, 37(1): 32-33,59
[38]. 吳海軍,王誠,劉志祥,張萍,毛宗強. 操作條件對直接NaBH4/H2O2燃料電池性能影響. 電源技術,2008,32(10):666-668,676
[39]. 盛金鵬,王誠,劉志祥,龔凡,吳海軍,毛宗強. 國產材料燃料電池膜電極的性能研究. 電源技術,2009,33(3):182-184
[40]. 毛宗強,黃建兵,王誠,劉志祥. 低溫固體氧化物燃料電池研究進展. 電源技術,2008,32(2):75-79
[2]. 毛宗強,謝曉峰,劉志祥.第9章-燃料電池的套用與前景.毛宗強等編著,化學工業出版社,2005,北京
[2]. 劉志祥,王誠,毛宗強.一種帶單體電池增濕區的燃料電池, ZL200910086830.x1, 2011
[3]. 段世傑,毛宗強,王誠,劉志祥,徐鵬.一種潤滑油的製備方法, ZL200710122083.1, 2009
[4]. 高瑞峰,曾凡蓉,毛宗強,劉志祥,王誠.固體氧化物燃料電池用微晶玻璃封接材料及其封接方法, ZL2007 10118113.1, 2011
[2]. 劉志祥,王誠,毛宗強. 儲氫單元及耦合型燃料電池. 201010120265.7
[3]. 劉志祥,王誠,毛宗強. 太陽能蓄電系統及太陽能供電系統. 201010612466.9
[4]. 劉志祥,王誠,毛宗強. 生物燃料電池. 201110252831.4
[5]. 劉志祥,王誠,毛宗強. 燃料電池. 201110252840.3
[6]. 劉志祥,王誠,毛宗強. 燃料電池膜電極的製備方法. 201110223762.4
[7]. 劉志祥,王誠,毛宗強. 燃料電池膜電極. 201110223768.1
[8]. 劉志祥,王誠,毛宗強. 一種電化學反應器用複合極板及其製作方法. 201110228927.7
[9]. 劉志祥,王誠,何向明,李建軍,郭建偉,高劍. 混合動力電源系統. 201110181489.3
[10]. 王誠,劉志祥,毛宗強. 一種燃料電池一體化單元模組及其電堆. 200810225434.6
[11]. 王誠,劉志祥,毛宗強. 一種聚合物電解質膜電極的製備方法. 201010285500.6
[12]. 王誠,吳海軍,劉志祥,毛宗強. 一種固體電解質膜電極製備方法. 200710178487.2
[13]. 郭建偉,何向明,王誠,劉志祥,蒲薇華,李建軍. 金納米粒子的製備方法. 201010259928.3
[14]. 郭建偉,張麗娜,王莉,王誠,何向明,劉志祥. 碳納米管金屬粒子複合物的製備方法. 201010579196.6
[15]. Liu ZX, Wang C, Mao ZQ. Solar Power Storage Module, And Solar Power Storage System And Solar Power Supply System Having Same. US 13/105126
[16]. Guo JW, Zhang LN, Wang L, Wang C, He XM, Liu ZX. Method For Making Carbon Nanotube Based Composite. US 13/053652
[17]. Guo JW, He XM, Wang C, Liu ZX, Pu WH, Li JJ. Method For Synthesizing Gold Nanoparticles. US 12/949992