導師介紹：袁偉 教授-華南理工大學機械與汽車工程學院

袁偉教授

（華南理工大學機械與汽車工程學院 ）

基本資訊：

電子郵件：[email protected]

通信位址：廣州市天河區五山路381号30号樓

聯系方式：020-22236365

袁偉，男，1983年生，中共黨員，華南理工大學機械與汽車工程學院教授、博士生導師，科技處副處長（挂職），機械制造及其自動化學科方向帶頭人，美國佐治亞理工學院創新電池研究中心公派進階通路學者。國家優秀青年科學基金獲得者，廣東省傑出青年科學基金獲得者，華南理工大學首屆校長基金最具科研潛質獎獲得者。入選國家萬人計劃領軍人才、科技部中青年科技創新領軍人才、廣東省特支計劃領軍人才、廣東省特支計劃百千萬工程青年拔尖人才、廣東省優秀青年教師培養計劃、廣東省千百十工程培養對象、廣州市珠江科技新星、華南理工大學興華精英學者計劃等。現為“先進電動汽車電源及熱控系統”廣東省工程技術研究中心主任，“節能與新能源綠色制造”廣東省工程技術研究中心常務副主任、“功能結構與器件智能制造”廣東省工程實驗室核心成員，“表面功能結構先進制造”學術團隊新能源系統設計及制造方向負責人。兼任IEEE/PES中國區動力電池專委會常務理事，IEEE進階會員，ASME/ACS/AET/ISNM會員，中國機械工程學會進階會員/極端制造分會委員，中國電工學會青工委副主任委員/電池專委會委員，中國機械工業金屬切削刀具技術協會全國理事，中國仿真學會制造系統仿真專業委員會委員，中國仿真技術産業聯盟理事，大灣區新能源汽車産業創新聯盟理事，華南理工大學人工智能校友會常務理事，廣東省青年科學家協會理事。擔任NMME、AFMs、SmartMat、EEM、JCS、IJEM、《機械科學與技術》、《電子機械工程》、《制造技術與機床》、《汽車技術》、《汽車工藝師》等多個國内外刊物的編委/青年編委，國家自然科學基金、國家重點專項、國家科技獎勵、教育部高層次人才計劃、廣東省自然科學基金等評審專家。

近年主要圍繞綠色能源及先進儲能器件（燃料電池、锂離子電池、超級電容器、微反應器、強化傳熱）表面功能結構設計（跨尺度設計）、制造（微切削、微納制造、複合加工、3D列印）以及系統內建/應用（新能源汽車、測試系統）等開展研究。在Adv Sci、Small、Sci China、ASME Trans、IEEE Trans、CEJ、APEN、RSER、JPS等期刊發表SCI索引論文130餘篇，入選ESI高被引論文4篇，封面論文1篇，其中1篇被評為“2010年中國百篇最具影響國際學術論文”。SCI引用3000餘次，H因子30。獲授權發明專利20餘件，PCT專利3件。主持國家自然科學基金、廣東省自然科學基金、廣東省科技計劃、粵港合作、廣東省重點領域研發計劃（校方）、廣州市科技計劃、中央高校基大學研業務項目、國家重點實驗室開放課題、企業委托項目等20餘項。獲得國家科技進步二等獎1項，廣東省科技進步一等獎1項，廣東省自然科學二等獎1項，廣東省優秀博士學位論文1項。

工作經曆：

2016/04 - 至今，華南理工大學，機械與汽車工程學院，教授（破格）

2012/10 - 2016/03，華南理工大學，機械與汽車工程學院，副教授（破格）

2012/07 - 2012/09，華南理工大學，機械與汽車工程學院，講師

2017/08 - 2018/08，美國佐治亞理工學院，創新電池研究中心，公派進階通路學者

2013/03 - 2013/08，國家自然科學基金委工材學部，兼聘

教育經曆：

2008/09 - 2012/06，華南理工大學，機械與汽車工程學院，博士

2009/10 - 2010/10，澳洲新南威爾士大學，機械制造工程系，公派聯合培養博士

2006/09 - 2008/06，華南理工大學，機械工程學院，碩士（碩博連讀）

2001/09 - 2006/06，華南理工大學，機械工程學院，大學/學士

獲獎及榮譽：

(1) 國家中青年科技創新領軍人才，2018；

(2) 國家優秀青年科學基金，2017；

(3) 廣東省特支計劃科技創新領軍人才，2017；

(4) 華南理工大學校長基金最具科研潛質獎，2017；

(5) 廣東省傑出青年科學基金，2015；

(6) 廣東省特支計劃百千萬工程青年拔尖人才，2015；

(7) 廣州市珠江科技新星專項計劃，2015；

(8) 廣東省優秀青年教師培養計劃，2014；

(9) 廣東省教育廳創新人才，2014；

(10) 廣東省“千百十”工程培養對象，2014；

(11) 華南理工大學青年教師破格晉升進階專業技術職務計劃，2016和2012；

(12) 國家科技進步二等獎，複雜表面熱功能結構形貌特征設計與可控制造關鍵技術，排名6，2016；

(13) 廣東省科技進步一等獎，半導體發光器件跨尺度光功能結構設計與制造關鍵技術，排名14，2017；

(14) 廣東省科學技術（自然科學）二等獎，多尺度微反應功能結構設計及制造基礎研究，排名2，2013；

(15) 廣東省優秀博士學位論文，被動式直接甲醇燃料電池結構優化設計及作用機理研究，2013；

(16) 中國百篇最具影響國際學術論文，2010；

社會與兼職：

(1) IEEE/PES中國區動力電池專委會常務理事；

(2) 中國電工學會青工委副主任委員/電池專委會委員；

(3) 中國機械工程學會進階會員/極端制造分會委員；

(4) ASME/ACS/AET/ISNM會員；

(5) NMME、AFMs、SmartMat、EEM、JCS、《機械科學與技術》、《電子機械工程》、《汽車工程》等多個國内外刊物的編委/青年編委;

(6) 華南理工大學人工智能校友會常務理事；

研究領域：

切削加工；微納制造；複合制造；電化學制造；表面功能結構設計與制造；新能源系統制造；3D列印電池；柔性儲能器件；燃料電池；锂電池；超級電容；微反應器；強化傳熱元器件；電池熱管理

科研項目：

(1) 國家優秀青年科學基金項目，51722504，功能結構與器件制造，2018/01-2020/12，130萬元，在研，主持。

(2) 國家自然科學基金面上項目，51975218，锂離子電池銅集流體表面功能結構微犁削-擠壓複合成形機理及性能研究，2020/01-2023/12，60萬元，在研，主持。

(3) 國家自然科學基金面上項目，51475172，基于切削金屬纖維的甲醇燃料電池多孔流場闆制造及優化基礎研究，2015/01-2018/12，90萬元，在研，主持，機械學科十大優秀結題項目。

(4) 廣東省自然科學基金傑出青年科學基金項目，2015A030306013，高能量密度DMFC多孔流場制造及形/性控制機理研究，2015/08-2019/08，100萬元，結題，主持。

(5) 廣東省重點領域研發計劃，2019B090909001，燃料電池乘用車整車內建及動力系統平台開發，2019/01-2021/12，360萬元（到校），在研，主持（校方）。

(6) 廣東省重點領域研發計劃，2020B090920002，車用燃料電池系統一體化測試裝置開發，2020/01-2022/12，160萬元（到校），在研，主持（校方）。

(7) 廣東省科技計劃項目（産學研項目），2017B090901012，高比能量直接甲醇燃料電池電源關鍵技術開發及應用，2017/01-2019/12，40萬元（到校），結題，主持（校方）。

(8) 廣東省科技計劃項目（公益項目），2017A010104006，面向高比能直接甲醇燃料電池的純甲醇供給關鍵技術研究，2017/01-2018/12，30萬元，結題，主持。

(9) 廣東省科技計劃項目（科裝項目），2017KZ010105，軍民兩用高性能直接甲醇燃料電池電源關鍵技術研發，2017/01-2019/12，50萬元，在研，主持。

(10) 珠海市創新創業團隊項目，ZH01110405180034PWC，基于相變換熱技術的高性能散熱系統開發，2019/12-2022/12，300萬元，在研，主持。

(11) 企業委托橫向項目（甯德新能源科技有限公司），锂電池極耳超音波焊接技術原理研究，2017/08-2018/08，10萬元，在研，主持。

(12) 廣東省科技計劃項目（産學研項目），2014B090901065，面向LED大屏顯示系統的高效散熱關鍵技術開發及産業化，2015/01-2017/12，100萬元，結題，主持。

(13) 廣東省自然科學基金博士啟動項目，S2013040016899，被動式直接甲醇燃料電池多孔阻醇結構制造及優化機理研究，2013/10-2015/10，3萬元，結題，主持。

(14) 中央高校基大學研業務項目（傑青項目），2015ZJ001，純甲醇被動式DMFC多孔流場設計及制造基礎研究，2015/01-2016/12，50萬元，結題，主持。

主要論文：

第一/通訊作者論文：

[1] Xiaoqing Zhang, Wei Yuan*, Yang Yang, Yu Chen, Zhenghua Tang, Chun Wang, Yuhang Yuan, Yintong Ye, Yaopeng Wu, Yong Tang, Immobilizing polysulfide by in situ topochemical oxidation derivative TiC@carbon-included TiO2 core-shell sulfur hosts for advanced lithium-sulfur batteries, Small 2020, 2005998, doi: 10.1002/smll.202005998.

[2] Yao Huang, Yong Tang, Wei Yuan*, Guoyun Fang, Yang Yang, Xiaoqing Zhang, Yaopeng Wu, Yuhang Yuan, Chun Wang, Jinguang Li, Challenges and recent progress in thermal management with heat pipes for lithium-ion power batteries in electric vehicles, Science China: Technological Sciences 2020, doi: 10.1007/s11431-020-1714-1.

[3] Xiaoqing Zhang, Wei Yuan*, Yang Yang, Shaozhong Yang, Chun Wang, Yuhang Yuan, Yaopeng Wu, Wenquan Kang, Yong Tang, Green and facile fabrication of porous titanium dioxide as efficient sulfur host for advanced lithium-sulfur batteries: An air oxidation strategy, Journal of Colloid and Interface Science 2021, 583: 157-165.

[4] Yang Yang, Wei Yuan*, Xiaoqing Zhang, Yuzhi Ke, Zhiqiang Qiu, Jian Luo, Yong Tang, Chun Wang, Yuhang Yuan, Yao Huang, A review on structuralized current collectors for high-performance lithium-ion battery anodes, Applied Energy 2020, 276: 115464.

[5] Wei Yuan*, Yintong Ye, Yang Yang, Xiaoqing Zhang, Baoyou Pan, Ziming Peng, Mulun Wu, Zhiqiang Qiu, Chun Wang, Yuhang Yuan, Zhiguo Yan, Yong Tang, CuO nanoflowers/copper fiber felt integrated porous electrode for lithium ion batteries, Science China: Technological Sciences, doi: 10.1007/s11431-020-1608-x.

[6] Yang Yang, Wei Yuan*, Xiaoqing Zhang, Chun Wang, Yuhang Yuan, Yao Huang, Yintong Ye, Zhiqiang Qiu, Yong Tang, A review on FexOy-based materials for advanced lithium-ion batteries, Renewable and Sustainable Energy Reviews 2020, 127: 109884.

[7] Yang Yang, Wei Yuan*, Wenquan Kang, Yintong Ye, Yuhang Yuan, Zhiqiang Qiu, Chun Wang, Xiaoqing Zhang, Yuzhi Ke, Yong Tang, Silicon-nanoparticle-based composites for advanced lithium-ion battery anodes, Nanoscale 2020, 12: 7461-7484.

[8] Yang Yang, Wei Yuan*, Wenquan Kang, Yintong Ye, Qiqi Pan, Xiaoqing Zhang, Yuzhi Ke, Chun Wang, Zhiqiang Qiu, Yong Tang, A review on silicon nanowire-based anodes for next-generation high-performance lithium-ion batteries from a material-based perspective, Sustainable Energy & Fuels 2020, 4: 1577-1594.

[9] Biaowu Lu, Wei Yuan*, Xiaoqing Su, Ziyi Zhuang, Yuzhi Ke, Yong Tang, Passive direct methanol-hydrogen peroxide fuel cell with reduced graphene oxide supported Prussian Blue as catalyst, Energy Technology 2020, 1901360.

[10] Xiaoqing Su, Wei Yuan*, Biaowu Lu, Tianxiang Zheng, Yuzhi Ke, Ziyi Zhuang, Yonghao Zhao, Yong Tang, Shiwei Zhang, CO2 bubble behaviors and two-phase flow characteristics in single-serpentine sinusoidal corrugated channels of direct methanol fuel cell, Journal of Power Sources 2020, 450: 227621.

[11] Yang Yang, Wei Yuan*, Xiaoqing Zhang, Yuhang Yuan, Chun Wang, Yintong Ye, Yao Huang, Zhiqiang Qiu, Yong Tang, Overview on the applications of three-dimensional printing for rechargeable lithium-ion batteries, Applied Energy 2020, 257: 114002.

[12] Wei Yuan*, Zhiqiang Qiu, Chun Wang, Yuhang Yuan, Yang Yang, Xiaoqing Zhang, Yintong Ye, Yong Tang, Design and interface optimization of a sandwich-structured cathode for lithium-sulfur batteries, Chemical Engineering Journal 2020, 381: 122648.

[13] Wei Yuan*, Ziyi Zhuang, Biaowu Lu, Guoyun Fang, Wenjun Chen, Yong Tang, Novel production and performance of aluminum-based ultra-thin flat heat pipes based on preforming and multi-tooth ploughing, IEEE Transactions on Components, Packaging and Manufacturing Technology 2019, 9(8): 1514-1525.

[14] Wei Yuan*, Baoyou Pan, Zhiqiang Qiu, Ziming Peng, Yintong Ye, Yao Huang, Honglin Huang, Yong Tang, Using orthogonal ploughing/extrusion to fabricate three-dimensional on-chip-structured current collector for lithium-ion batteries, ACS Sustainable Chem. Eng. 2019, 7(15):12910-12919.

[15] Wei Yuan*, Zhiqiang Qiu, Yao Huang, Chun Wang, Honglin Huang, Yang Yang, Xiaoqing Zhang, Jian Luo, Yong Tang, Honeycomb-inspired surface-patterned Cu@CuO composite current collector for lithium-ion batteries, Energy Technology 2019, 7(9): 1900445.

[16] Guoyun Fang, Yao Huang, Wei Yuan*, Yang Yang, Yong Tang, Weida Ju, Fujian Chu, Zepeng Zhao, Thermal management for a tube–shell Li-ion battery pack using water evaporation coupled with forced air cooling, RSC Advances 2019, 9(18): 9951-9961

[17] Guoyun Fang, Wei Yuan*, Zhiguo Yan, Yalong Sun, Yong Tang, Thermal management integrated with three-dimensional heat pipes for air-cooled permanent magnet synchronous motor, Applied Thermal Engineering 2019, 152: 594-604.

[18] Wei Yuan*, Xiaoqing Su, Ziyi Zhuang, Shimin Huang, Aoyu Wang, Yong Tang, Forced under-rib water removal by using expanded metal mesh as flow fields for air-breathing direct methanol fuel cells, International Journal of Hydrogen Energy 2018, 43(42): 19711-19720.

[19] Shimin Huang, Jian Luo, Wei Yuan*, Bote Zhao, Yu Chen, Yong Tang, Three-dimensional porous composite framework assembled with CuO microspheres as anode current collector for lithium-ion batteries, Science China: Technological Sciences 2019, 62: 70-79.

[20] Jian Luo, Wei Yuan*, Shimin Huang, Bote Zhao, Yu Chen, Meilin Liu*, Yong Tang, From checkerboard-like sand barriers to 3D Cu@CNF composite current collectors for high-performance batteries, Advanced Science 2018, 5(7), 1800031.

[21] Wei Yuan*, Fuchang Han, Yu Chen, Wenjun Chen, Jinyi Hu, Yong Tang, Enhanced water management and fuel efficiency of a fully-passive direct methanol fuel cell with super-hydrophilic/-hydrophobic cathode porous flow-field, ASME Transactions-Journal of Electrochemical Energy Conversion and Storage 2018, 15(3): 031003.

[22] Wei Yuan*, Guoyun Fang, Xiaoqing Zhang, Yong Tang, Zhenping Wan, Shiwei Zhang, Heat transfer and friction characteristics of turbulent flow through a circular tube with ball turbulators, Applied Sciences 2018, 8(5): 776.

[23] Guanghan Huang, Yong Tang, Pengtao Wang, Longsheng Lu, Wei Yuan*, Thermal characterisation of micro flat aluminium heat pipe arrays by varying working fluid and inclination angle, Applied Sciences 2018, 8(7): 1052.

[24] Wei Yuan*, Zhiqiang Qiu, Yu Chen, Bote Zhao, Meilin Liu, Yong Tang, A binder-free composite anode composed of CuO nanosheets and multi-wall carbon nanotubes for high-performance lithium-ion batteries, Electrochimica Acta 2018, 267: 150-160.

[25] Wei Yuan*, Guoyun Fang, Zongtao Li, Yonghui Chen, Yong Tang, Using electrospinning-based carbon nanofiber webs for methanol crossover control in passive direct methanol fuel cells, Materials 2018, 11(1): 71.

[26] Zhenhao Tan, Wei Yuan*, Zhiqiang Qiu, Yu Chen, Jian Luo, Yong Tang, A micro-cracked conductive layer made of multi-walled carbon nanotubes for Lithium ion batteries, Energy Technology 2018, 6: 658-669.

[27] Zhenhao Tan, Aoyu Wang, Wei Yuan*, Fuchang Han, Guangzhao Ye, Hongrong Xia, Yong Tang, Dimensional effect of graphite flow field channels of a direct methanol fuel cell under different operating conditions, The Canadian Journal of Chemical Engineering 2018, 96(3): 659-669.

[28] Aoyu Wang, Wei Yuan*, Shimin Huang, Yong Tang, Yu Chen, Structural effects of expanded metal mesh used as a flow field for a passive direct methanol fuel cell, Applied Energy 2017, 208: 184-194.

[29] Wei Yuan*, Xiaotian Xu, Fuchang Han, Guangzhao Ye, Yong Tang, Developing a passive air-breathing tubular direct methanol fuel cell fed with concentrated methanol, International Journal of Green Energy 2017, 14(13): 1100-1109.

[30] Shiwei Zhang, Yalong Sun, Wei Yuan*, Yong Tang, Heng Tang, Kairui Tang, Effects of heat flux, mass flux and channel width on flow boiling performance of porous interconnected microchannel nets, Experimental Thermal and Fluid Science 2018, 90: 310-318.

[31] Xiaoqing Zhang, Yunxiang Huang, Wei Yuan*, Yong Tang, Characterization and performance of Cu (In, Ga) Se2 thin films incorporating low-temperature pre-annealing process, Journal of Alloys and Compounds 2017, 728: 29-36.

[32] Hui Li, Yong Tang, Wei Yuan*, Rui Zhou, Numerical analysis on heat transfer of a complete anti-gravity loop-shaped heat pipe, International Journal of Heat and Mass Transfer 2017, 109: 824-834.

[33] Wenjun Chen, Wei Yuan*, Guangzhao Ye, Fuchang Han, Yong Tang, Utilization and positive effects of produced CO2 on the performance of a passive direct methanol fuel cell with a composite anode structure, International Journal of Hydrogen Energy 2017, 42: 15613-15622.

[34] Wei Yuan*, Zhiguo Yan, Baoyou Pan, Zhiqiang Qiu, Jian Luo, Zhenhao Tan, Yong Tang, Zongtao Li, Hierarchical MCMB/CuO/Cu anode with super-hydrophilic substrate and blind-hole structures for lithium-ion batteries, Journal of Alloys and Compounds 2017, 719: 353-364.

[35] Wei Yuan*, Jian Luo, Baoyou Pan, Zhiqiang Qiu, Shimin Huang, Yong Tang, Hierarchical shell/core CuO nanowire/carbon fiber composites as binder-free anodes for lithium-ion batteries, Electrochimica Acta 2017, 241: 261-271.

[36] Yunxiang Huang, Yong Tang, Wei Yuan*, Xiaoqing Zhang, Qinghui Wang, Coupled effect of pre-alloying treatment and plasma-assisted Se vapor selenization process in Cu(In, Ga)Se2 thin film, Solar Energy 2017, 150: 375-382.

[37] Yunxiang Huang, Yong Tang, Wei Yuan*, Xiaoqing Zhang, Wanyu Wen, Qinghui Wang, Growth and characterization of CIGS thin films by plasma-assisted and thermal-assisted Se vapor selenization process, Journal of Alloys and Compounds 2017, 701: 732-739.

[38] Wei Yuan*, Jian Luo, Zhiguo Yan, Zhenhao Tan, Yong Tang, High-performance CuO/Cu composite current collectors with array-pattern porous structures for lithium-ion batteries, Electrochimica Acta 2017, 226: 89-97.

[39] Xiaoqing Zhang, Yunxiang Huang, Wei Yuan*, Yong Tang, Lin Li, Fabrication of homogeneous CIGS thin film by plasma-enhanced Se vapor selenization coupled with etching process, Materials Letters 2017, 190: 276-279.

[40] Lin Li, Xiaoqing Zhang, Yunxiang Huang, Wei Yuan*, Yong Tang, Investigation on the performance of Mo2N thin film as barrier layer against Fe in the flexible Cu(In,Ga)Se2 solar cells on stainless steel substrates, Journal of Alloys and Compounds 2017, 698: 194-199.

[41] Wei Yuan*, Aoyu Wang, Guangzhao Ye Baoyou Pan, Kairui Tang, Haimu Chen, Dynamic relationship between the CO2 gas bubble behavior and the pressure drop characteristics in the anode flow field of an active liquid-feed direct methanol fuel cell, Applied Energy 2017, 188: 431-443.

[42] Guanghan Huang, Wei Yuan*, Yong Tang, Bin Zhang, Shiwei Zhang, Longsheng Lu, Enhanced capillary performance in axially grooved aluminium wicks by alkaline corrosion treatment, Experimental Thermal and Fluid Science 2017, 82: 212-221.

[43] Yunxiang Huang, Yong Tang, Wei Yuan*, Qinghui Wang, Shiwei Zhang, Influence of surface-modified Mo back contact on post-selenized Cu(In,Ga) Se2 thin films, Materials Science in Semiconductor Processing 2017, 57: 227-232.

[44] Jinyi Hu, Wei Yuan*, Wenjun Chen, Xiaotian Xu, Yong Tang, Fabrication and characterization of superhydrophobic copper fiber sintered felt with a 3D space network structure and their oil–water separation, Applied Surface Science 2016, 389: 1192-1201.

[45] Wei Yuan*, Zhiguo Yan, Zhenhao Tan, Aoyu Wang, Zongtao Li, Yong Tang, Anode optimization based on gradient porous control medium for passive liquid-feed direct methanol fuel cells, Renewable Energy 2016, 89: 71-79.

[46] Wei Yuan*, Aoyu Wang, Zhiguo Yan, Zhenhao Tan, Yong Tang, Hongrong Xia, Visualization of two-phase flow and temperature characteristics of anactive liquid-feed direct methanol fuel cell with diverse flow fields, Applied Energy 2016, 179: 85-98.

[47] Wei Yuan*, Zhiguo Yan, Zhenhao Tan, Wei Chen, Yong Tang, Heat-pipe-based thermal management and temperature characteristics of li-ion batteries, The Canadian Journal of Chemical Engineering 2016, 94: 1901-1908.

[48] Zhaochun Zhang, Wei Yuan*, Jun Deng, Yong Tang, Zongtao Li, Kairui Tang, Methanol catalytic micro-combustor with pervaporation-based methanol supply system, Chemical Engineering Journal 2016, 283: 982-991.

[49] Zhaochun Zhang, Wei Yuan*, Aoyu Wang, Zhiguo Yan, Yong Tang, Kairui Tang, Moisturized anode and water management in a passive vapor-feed direct methanol fuel cell operated with neat methanol, Journal of Power Sources 2015, 297: 33-44.

[50] Wei Yuan*, Zhaochun Zhang, Jun Deng, Yong Tang, Binhai Yu, Operational characteristics of a passive methanol catalytic combustor assisting vapor generation for direct methanol fuel cells. Fuel Processing Technology 2015, 131: 466-472.

[51] Bo Zhou, Wei Yuan*, Jinyi Hu, Yong Tang, Longsheng Lu, Binhai Yu, Uniaxial tensile behavior of porous metal fiber sintered sheet, Transactions of Nonferrous Metals Society of China 2015, 25: 2003-2008.

[52] Jinyi Hu, Wei Yuan*, Zhiguo Yan, Bo Zhou, Yong Tang, Zongtao Li, Fabricating an enhanced stable superhydrophobic surface on copper plates by introducing a sintering process, Applied Surface Science 2015, 355: 145-152.

[53] Wei Yuan*, Xiaoqing Zhang, Shiwei Zhang, Jinyi Hu, Zongtao Li, Yong Tang, Lightweight current collector based on printed-circuit-board technology and its structural effects on the passive air-breathing direct methanol fuel cell, Renewable Energy 2015, 81: 664-670.

[54] Wei Yuan*, Bo Zhou, Jinyi Hu, Jun Deng, Zhaochun Zhang, Yong Tang, Passive direct methanol fuel cell using woven carbon fiber fabric as mass transfer control medium, International Journal of Hydrogen Energy 2015, 40: 2326-2333.

[55] Wei Yuan*, Hongrong Xia, Jinyi Hu, Zhaochun Zhang, Yong Tang, Study on a vapor-feed air-breathing direct methanol fuel cell assisted by a catalytic combustor, ASME Transactions-Journal of Fuel Cell Science and Technology 2015, 12: 011002.

[56] Wei Yuan*, Jinyi Hu, Bo Zhou, Jun Deng, Zhaochun Zhang, Yong Tang, Using woven carbon fiber fabric to construct gradient porous structure for passive direct methanol fuel cells, Functional Materials Letters 2015, 8: 1550009.

[57] Wei Yuan*, Zhaochun Zhang, Jinyi Hu, Bo Zhou, Yong, Tang, Passive vapor-feed direct methanol fuel cell using sintered porous metals to realize high-concentration operation, Applied Energy 2014, 136: 143-149.

[58] Wei Yuan*, Bo Zhou, Jun Deng, Yong Tang, Zhaochun Zhang, Zongtao Li, Overview on the developments of vapor-feed direct methanol fuel cells, International Journal of Hydrogen Energy 2014, 39: 6689-6704.

[59] Wei Yuan*, Jun Deng, Bo Zhou, Zhaochun Zhang, Yong Tang, Performance of a catalytic micro-combustor based on Pt/Al2O3/Ni for methanol fuel cell, Chemical Engineering Journal 2014, 251: 51-57.

[60] Wei Yuan*, Jun Deng, Zhaochun Zhang, Xiaojun Yang, Yong Tang, Study on operational aspects of a passive direct methanol fuel cell incorporating an anodic methanol barrier, Renewable Energy 2014, 62: 640-648.

[61] Wei Yuan*, Yong Tang, Zhaochun Zhang, Bo Zhou, Jun Deng, Operational and structural aspects of a vapor-feed semi-passive direct methanol fuel cell supplied with concentrated methanol, Chinese Science Bulletin 2014, 59: 3216-3221.

[62] Wei Yuan*, Bo Zhou, Yong Tang, Zhaochun Zhang, Jun Deng, Effects of environmental factors on corrosion behaviors of metal-fiber porous components in a simulated direct methanol fuel cell environment, International Journal of Minerals, Metallurgy and Materials 2014, 21: 913-918.

[63] Wei Yuan*, Yong Tang, Xiaojun Yang, Bin Liu, Zhenping Wan, On the processing and morphological aspects of metal fibers based on low-speed multi-tooth dry cutting, International Journal of Advanced Manufacturing Technology 2013, 66: 1147-1157.

[64] Wei Yuan*, Yong Tang, Xiaojun Yang, Bin Liu, Zhenping Wan, Manufacture, characterization and application of porous metal-fiber sintered felt used as mass-transfer-controlling medium for direct methanol fuel cells, Transactions of Nonferrous Metals Society of China 2013, 23: 2085-2093.

[65] Wei Yuan*, Yong Tang, Xiaojun Yang, Limin Bu, Zhenping Wan, Corrosion behavior of porous metal fiber sintered felt in both simulated and practical environment of a direct methanol fuel cell, Corrosion 2013, 69: 25-34.

[66] Wei Yuan*, Yong Tang, Xiaojun Yang. High-concentration operation of a passive air-breathing direct methanol fuel cell integrated with a porous methanol barrier, Renewable Energy 2013, 50: 741-746.

[67] Wei Yuan*, Yong Tang, Xiaojun Yang, Zhenping Wan, Toward Fully- and Semi-passive Operation of a Liquid-Fed Direct Methanol Fuel Cell, Fuel Cells 2013, 13: 249-258.

[68] Wei Yuan*, Yong Tang, Xiaojun Yang, Zhenping Wan, Porous metal materials for polymer electrolyte membrane fuel cells- A review, Applied Energy 2012, 94: 309-329.

[69] Wei Yuan*, Yong Tang, Xiaojun Yang, Bin Liu, Zhenping Wan, Structural diversity and orientation dependence of a liquid-fed passive air-breathing direct methanol fuel cell, International Journal of Hydrogen Energy 2012, 37: 9298-9313.

[70] Wei Yuan*, Yong Tang, Xiaojun Yang, Zhenping Wan, Toward using porous metal-fiber sintered plate as anodic methanol barrier in a passive direct methanol fuel cell, International Journal of Hydrogen Energy 2012, 37: 13510-13521.

[71] Wei Yuan*, Yong Tang, Zhenping Wan, Minqiang Pan, Operational characteristics of a passive air-breathing direct methanol fuel cell under various structural conditions, International Journal of Hydrogen Energy 2011, 36: 2237-2249.

[72] Wei Yuan*, Yong Tang, Qinghui Wang, Zhenping Wan, Dominance evaluation of structural factors in a passive air-breathing direct methanol fuel cell based on orthogonal array analysis, Applied Energy 2011, 88: 1671-1680.

[73] Yong Tang, Wei Yuan*, Minqiang Pan, Zhenping Wan, Experimental investigation on the dynamic performance of a hybrid PEM fuel cell/battery system for lightweight electric vehicle application, Applied Energy 2011, 88: 68-76.

[74] Wei Yuan*, Yong Tang, Minqiang Pan, Zongtao Li, Biao Tang. Model prediction of effects of operating parameters on proton exchange membrane fuel cell performance, Renewable Energy 2010, 35: 656-666.

[75] Yong Tang, Wei Yuan*, Minqiang Pan, Zongtao Li, Guoqing Chen, Yong Li. Experimental investigation of dynamic performance and transient responses of a kW-class PEM fuel cell stack under various load changes, Applied Energy 2010, 87: 1410-1417.

[76] Yong Tang, Wei Yuan*, Minqiang Pan, Biao Tang, Zongtao Li, Zhenping Wan. Effects of structural aspects on the performance of a passive air-breathing direct methanol fuel cell, Journal of Power Sources 2010, 195: 5628-5636.

[77] Yong Tang, Wei Yuan*, Minqiang Pan, Zhenping Wan. Feasibility study of porous copper fiber sintered felt: A novel porous flow field in proton exchange membrane fuel cells, International Journal of Hydrogen Energy 2010, 35: 9661-9677.

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來源：文章來自華南理工大學