耿保友

耿保友

耿保友,男,生於1971年9月,理學博士,教授,博士生導師,現任安徽師範大學科技處副處長。2001年安徽大學碩士畢業,後獲中國科學院固體物理研究所博士學位。2004-2005年香港中文大學訪問學者。主要從事納米催化與能源材料化學、介觀體系物理化學、能納米材料與器件方面的研究。先後為本科生和研究生主講《材料化學與物理 》、《材料結構與現代表征技術》等課程。2012年 獲安徽省自然科學二等獎。

主持項目有國家自然科學基金面上項目“Yolk-Shell納米結構的設計、合成及其催化性能研究”, 教育部“新世紀優秀人才支持計畫”,教育部高等學校博士學科點專項科研基金“金屬納米結構在有機催化合成中的套用研究”等多個項目。在Scientific Reports,Chem. Eur. J.,J. Mater. Chem., J. Phys. Chem. C,CrystEngComm, Appl. Mater. Interfaces.,Langmuir,Nanoscale,Appl. Phys. Lett. Cryst. Growth Des., Sens. Actuators, B,等期刊發表論文70多篇。著有《新材料科技導論》(浙江大學出版社)。

基本介紹

  • 中文名:耿保友
  • 國籍:中國
  • 出生日期:1971年9月
  • 職業:教授
  • 畢業院校安徽大學
  • 學位/學歷:理學博士
  • 職務:安徽師範大學科技處副處長
  • 榮譽稱號:教育部新世紀優秀人才支持計畫
  • 發表論文數量:35篇(截至2019年7月) 
基本情況,榮譽稱號,主持項目,獲獎情況,指導學生,學術成果,

基本情況

學習經歷
職稱職位
  • 教授,博士生導師
講授課程
  • 材料化學與物理
  • 材料結構與現代表征技術
研究領域
  • 納米催化與能源材料化學
  • 介觀體系物理化學
  • 功能納米材料與器件

榮譽稱號

  • 2012年享受省政府特殊津貼
  • 2012年安徽省“學術與技術”帶頭人
  • 2012年安徽省教育工委優秀共產黨員
  • 2011年教育部“新世紀優秀人才支持計畫”
  • 2011年安徽師範大學優秀共產黨員
  • 2006年省“學術與技術帶頭人”後備人選

主持項目

  1. “Yolk-Shell納米結構的設計、合成及其催化性能研究”,國家自然科學基金面上項目,80.0萬元,2013年1月-2016年12月。
  2. 教育部“新世紀優秀人才支持計畫”,50.0萬元,2012年1月-2014年12月。
  3. “金屬納米結構在有機催化合成中的套用研究”,教育部高等學校博士學科點專項科研基金,2013年1月-2015年12月,12.0萬元。
  4. “清潔能源催化及有機催化功能納米材料的可控合成和套用研究”,安徽省傑出青年科學基金滾動項目,5.0萬元,2013年7月-2015年6月。
  5. “汽車用聚丙烯塑膠的石墨烯改性“,安徽省教育廳自然科學重點項目(產學研),5.0萬元,2012年1月-2013年12月。
  6. “金屬/磁性氧化物雙功能複合納米管的製備及生物醫學套用”,國家自然科學基金面上項目,35.0萬元,2010年1月-2012年12月(結題)。
  7. “基於磁性納米鏈的新型感測器製備及其化學和生物敏感性研究”,國家自然科學基金,30.0萬元,2007年1月-2009年12月(結題)。
  8. “金屬氧化物納米結構暴露面的控制及套用研究”,教育部科學技術研究重點項目,10.0萬元,2009年1月-2011年12月。
  9. “功能納米材料與納米結構”,安徽省優秀青年基金項目,15.0萬元,2011年1月-2012年12月(結題)。

獲獎情況

  1. 安徽省自然科學二等獎(排名第一),2012年
  2. 第八屆“安徽省優秀青年科技創新獎”,2011年
  3. 第五屆“挑戰杯”安徽省大學生課外學術科技作品競賽優秀指導教師,2013年
  4. 第四屆“挑戰杯”安徽省大學生課外學術科技作品競賽優秀指導教師,2011年
  5. 論文“Synthesis of Polyhedral ZnSnO3Microcrystals with Controlled Exposed Facets and Their Selective Gas-Sensing Properties”獲安徽省自然科學優秀論文二等獎,排名第一,2010年
  6. 論文“Controllable Synthesis of Single-Crystalline Fe3O4Polyhedra Possessing the Active Basal Facets”獲安徽省自然科學優秀論文三等獎,排名第一,2010年
  7. 論文“Egg albumin as a nanoreactor for growing single-crystalline Fe3O4nanotubes with high yields”獲安徽省自然科學優秀論文三等獎,排名第一,2010年
  8. 論文“Low-temperature growth of β-Ga2O3nanobelts through a simple thermochemical route and their phonon spectra properties”獲安徽省自然科學優秀論文二等獎,排名第一,2007年

指導學生

【指導研究生獲獎】
  1. 王邵臻,國家獎學金,博士研究生,2013年
  2. 俞雪,國家獎學金,碩士研究生,2013年
  3. 周立珍,國家獎學金,碩士研究生,2013年
  4. 蒯龍,朱敬文特等獎學金,2012年
  5. 房彩虹,安徽省優秀百篇碩士論文,2011年
  6. 江漢,朱敬文獎學金,2011年
  7. 劉俊,朱敬文獎學金,2010年
  8. 王倩,朱敬文獎學金,2010年
  9. 房彩虹,朱敬文特等獎學金,2009年
  10. 詹方明,朱敬文獎學金,2009年
  11. 劉小網,安徽省優秀百篇碩士論文,2008年
  12. 劉小網,朱敬文特等獎學金,2007年
【指導本科生獲獎】
  1. 欽青,第五屆“挑戰杯”安徽省大學生課外學術科技作品競賽特等獎,2013年
  2. 蒯龍,第七屆“中國青少年科技創新獎”,2011年
  3. 蒯龍,第十二屆“挑戰杯”全國大學生課外學術科技作品競賽一等獎,2011年
  4. 蒯龍,第四屆“挑戰杯”安徽省大學生課外學術科技作品競賽特等獎,2011年
  5. 蒯龍,第七屆安徽師範大學“師大驕子”十佳大學生稱號,2011年
  6. 蒯龍,第四屆安徽師範大學“挑戰杯”大學生課外學術科技作品競賽特等獎,2010年
  7. 蒯龍,安徽師範大學第三屆學生專利發明大賽特等獎1項,2010年
  8. 蒯龍,安徽師範大學第三屆學生專利發明大賽三等獎1項,2010年
  9. 趙炎妍,第六屆安徽師範大學“師大驕子”十佳大學生稱號,2010年
  10. 郭怡君,第十一屆“挑戰杯”全國大學生課外學術科技作品競賽二等獎,2009年
  11. 郭怡君,第三屆“挑戰杯”安徽省大學生課外學術科技作品競賽特等獎,2009年
  12. 郭怡君,第三屆安徽師範大學“挑戰杯”大學生課外學術科技作品競賽特等獎,2008年

學術成果

[2013]
(71)Wenzheng Li, Long Kuai, Lu Chen &Baoyou Geng*,“Re-growth Etching” to Large-sized Porous Gold Nanostructures,Scientific Reports, 2013, Accepted.
(70) Lu Chen, Long Kuai, Xue Yu, Wenzheng Li, andBaoyou Geng*, Advanced Catalytic Performance of Au–Pt Double-Walled Nanotubes and Their Fabrication through Galvanic Replacement Reaction,Chem. Eur. J.2013, DOI: 10.1002/chem.201301490.
(69) Shaozhen Wang, Long Kuai, Yucheng Huang, Xue Yu, Yadong Liu, Wenzheng Li, Lu Chen, andBaoyou Geng*. A Highly Efficient, Clean-Surface, Porous Platinum Electrocatalyst and the Inhibition Effect of Surfactants on Catalytic Activity.Chem. Eur. J.2013, 19, 240–248. (VIP paper, Back cover)
(68) Wenzheng Li, Long Kuai, Qing Qin andBaoyou Geng*. Ag–Au bimetallic nanostructures: co-reduction synthesis and their component-dependent performance for enzyme-free H2O2sensing.J. Mater. Chem. A, 2013, 1, 7111–7117.
(67) Lu Chen, Long Kuai andBaoyou Geng*. Shell structure-enhanced electrocatalytic performanceof Au–Pt core–shell catalyst.CrystEngComm, 2013, 15, 2133–2136.
[2012]
(66)Yixing Ye,Baoyou Geng*,Magnetic Nanotubes: Synthesis, Properties, and Applications,Crit. Rev. Solid State Mater. Sci.2012, 37, 75-93. (Invited review)
(65) Long Kuai,Baoyou Geng*, Shaozhen Wang and Yan Sang, A General and High-Yield Galvanic Displacement Approach to Au-M (M=Au, Pd, and Pt) Core-Shell Nanostructures with Porous Shells and Enhanced Electrocatalytic Performances,Chem. Eur. J.2012, 18, 9423–9429.
(64) Lizhen Zhou, Long Kuai, Wenzheng Li, andBaoyou Geng*, Ion-Exchange Route to AuCuxOS YolkShell Nanostructures with Porous Shells and Their Ultrasensitive H2O2Detection.Appl. Mater. Interfaces.2012, 4, 6463–6467.
(63) Yixing Ye, Long Kuai andBaoyou Geng*, A template-free route to a Fe3O4-Co3O4yolk-shell nanostructure as a noble-metal free electrocatalyst for ORR in alkaline media,J. Mater. Chem.2012, 22, 19132–19138.
(62)Long Kuai,Xue Yu,Shaozhen Wang,Yan SangandBaoyou Geng*,Au-Pd Alloy and Core-Shell Nanostructures: One-Pot Coreduction Preparation, Formation Mechanism, and Electrochemical Properties,Langmuir2012, 28, 7168–7173.
(61) Xue Yu, Long Kuai andBaoyou Geng*,CeO2/rGO/Pt sandwich nanostructure: rGO-enhanced electron transmission between metal oxide and metal nanoparticles for anodic methanol oxidation of direct methanol fuel cells,Nanoscale2012, 4, 5738–5743.
(60) Nan Yu, Long Kuai, Qing Wang andBaoyou Geng*, Pt nanoparticles residing in the pores of porous LaNiO3nanocubes as high-efficiency electrocatalyst for direct methanol fuel cells,Nanoscale2012, 4, 5386-5393.
(59)Baoyou Geng*, Bo Tao, Xuelian Li and Wenjing Wei,Ni/surfactant-assisted route to porous α-Fe2O3nanoarchitectures,Nanoscale2012, 4, 1671-1676.
(58) Yanyan Zhao, Long Kuai andBaoyou Geng*,Low-cost and highly efficient composite visible light-driven Ag-AgBr/gamma-Al2O3plasmonic photocatalyst for degrading organic pollutants,Catal. Sci. Technol.2012, 2, 1269-1274.
(57) Chunhua Wang, Yixing Ye, Bo Tao andBaoyou Geng*,Hydrothermal route to twinned-hemisphere-like CuO architectures with selective adsorption performance,CrystEngComm2012, 14, 3677-3683.
(56) Jie Yang,Baoyou Geng*, Yixing Ye and Xue Yu, Stick-like titania precursor route to MTiO3(M = Sr, Ba, and Ca) polyhedra,CrystEngComm2012, 14, 2959-2965.
(55) Shaozhen Wang, Long Kuai, Xing Han andBaoyou Geng*,Branched twinned Au nanostructures: facile hydrothermal reduction fabrication, growth mechanism and electrochemical properties,CrystEngComm2012, 14, 6581–6585.
(54)Bo Tao,Qian Zhang,Zezhong Liu, andBaoyou Geng*, Cooperative effect of pH value and anions on single-crystalline hexagonal and circular α-Fe2O3nanorings,Mater. Chem. Phys.2012, 136, 604-612.
[2011]
(53) Long Kuai,Baoyou Geng,* Shaozhen Wang, Yanyan Zhao, Yinchan Luo, and Han Jiang, Silver and Gold Icosahedra: One-Pot Water-Based Synthesis and Their Superior Performance in the Electrocatalysis for Oxygen Reduction Reactions in Alkaline Media,Chem. Eur. J.2011,17, 3482–3489.
(52) Han Jiang,Baoyou Geng*, Long Kuai and Shaozhen Wang, Simultaneous reduction-etching route to Pt/ZnSnO3hollow polyhedral architectures for methanol electrooxidation in alkaline media with superior performance,Chem. Commun.2011,47, 2447–2449.
(51) Long Kuai, Shaozhen Wang andBaoyou Geng*, Gold–platinum yolk–shell structure: a facile galvanic displacement synthesis and highly active electrocatalytic properties for methanol oxidation with super CO-tolerance,Chem. Commun.2011,47, 6093–6095.
(50) Qian Wang,Baoyou Geng*, Bo Tao, A facile room temperature chemical route to Pt nanocube/carbon nanotube heterostructures with enhanced electrocatalysis,J. Power Sources2011, 196, 191–195.
(49) Zhoujing Xing,Baoyou Geng*, Xuelian Li, Han Jiang, Chengxin Feng and Ting Ge, Self-assembly fabrication of 3D porous quasi-flower-like ZnO nanostrip clusters for photodegradation of an organic dye with high performance,CrystEngComm2011,13, 2137–2142.
(48)Baoyou Geng*, Jun Liu, Yanyan Zhao and Chunhua Wang, A room-temperature chemical route to homogeneous core-shell Cu2O structures and their application in biosensors,CrystEngComm2011, 13, 697–701.
(47) Shaozhen Wang, Jiahui You,Baoyou Geng* and Zhiguo Cheng, Fabrication of ZnSe hexagonal prism with pyramid end through the chemical vapour deposition route,CrystEngComm2011, 13, 668–673.
(46) Xuelian Li, Wenjing Wei, Shaozhen Wang, Long Kuai andBaoyou Geng*, Single-crystalline α-Fe2O3oblique nanoparallelepipeds: High-yield synthesis, growth mechanism and structure enhanced gas-sensing properties,Nanoscale2011,3, 718–724.
(45) Chengxin Feng, Shaozhen Wang andBaoyou Geng*, Ti (IV) doped WO3nanocuboids: fabrication and enhanced visible-light-driven photocatalytic performance,Nanoscale2011,3, 3695–3699.
(44) Ting Ge, Long Kuai,Baoyou Geng*, Solution-phase chemical route to branched single-crystalline CdS nanoarchitectures and their field emission property,J. Alloys Compd.2011,509,L353– L358.
[2010]
(43) Qian Wang,Baoyou Geng*, Shaozhen Wang, Yixing Ye and Bo Tao, Modified Kirkendall effect for fabrication of magnetic nanotubes,Chem. Commun.2010, 46, 1899–1901.
(42) Long Kuai,Baoyou Geng*, Xiaoting Chen, Yanyan Zhao, and Yinchan Luo, Facile Subsequently Light-Induced Route to Highly Efficient and Stable Sunlight-Driven Ag-AgBr Plasmonic Photocatalyst,Langmuir2010, 26(24), 18723–18727.
(41) Zhiguo Cheng, Shaozhen Wang, Qian Wang andBaoyou Geng*, A facile solution chemical route to self-assembly of CuS ball-flowers and their application as an efficient photocatalyst,CrystEngComm2010, 12, 144–149.
(40) Dajie Si,Baoyou Geng*, Shaozhen Wang, One-step synthesis and morphology evolution of luminescent Eudoped strontium aluminate nanostructures,CrystEngComm2010, 12, 2722–2727.
(39)Baoyou Geng*,Jun Liu, Chunhua Wang,Multi-layer ZnO architectures: Polymer induced synthesis and their application as gas sensors,Sens. Actuators, B2010, 150, 742–748.
(38) Yan Sang,Baoyou Geng* and Jie Yang, Fabrication and growth mechanism of three-dimensional spherical TiO2architectures consisting of TiO2nanorods with {110} exposed facets,Nanoscale2010, 2, 2109–2113.
(37) Zhiguo Cheng, Shaozhen Wang, Dajie Si,Baoyou Geng*, Controlled synthesis of copper sulfide 3D nanoarchitectures through a facile hydrothermal route,J. Alloys Compd.2010, 492, L44–L49.
(36) Caihong Fang, Shaozhen Wang, Qian Wang, Jun Liu,Baoyou Geng*, Coralloid SnO2with hierarchical structure and their application as recoverable gas sensors for the detection of benzaldehyde/acetone,Mater. Chem. Phys.2010, 122, 30–34.
[2009]
(35) Caihong Fang,Baoyou Geng*, Jun Liu and Fangming Zhan, D-fructose molecule template route to ultra-thin ZnSnO3nanowire architectures and their application as efficient photocatalyst,Chem. Commun.2009, 2350–2352.
(34) Fangming Zhan,Baoyou Geng*, Yijun Guo, Porous Co3O4Nanosheets with Extraordinarily High Discharge Capacity for Lithium Batteries,Chem. Eur. J.2009, 15, 6169–6174.
(33) Qian Wang,Baoyou Geng*, Shaozhen Wang, ZnO/Au Hybrid Nanoarchitectures: Wet-Chemical Synthesis and Structurally Enhanced Photocatalytic PerformanceEnviron. Sci. Technol.2009 43,8968–8973.
(32) Qian Wang,Baoyou Geng*, Shaozhen Wang, Jun Liu, Zhiguo Cheng and Dajie Si, A facile sonochemical route to morphology controlled nickel complex mesostructures,CrystEngComm, 2009, 11, 1317–1322.
(31) Shaozhen Wang, Qian Wang, Jun Liu, Zhiguo Cheng, Dajie Si andBaoyou Geng*, Kinetic manipulation of the morphology evolution of FePO4microcrystals: from rugbies to porous microspheres,CrystEngComm2009, 11, 2510–2515.
(30) Jun Liu,Baoyou Geng,* and Shaozhen Wang, Preparation and Usage of ZnS/Phosphate Heterostructured Hemispheres in Enhanced Photocatalytic Activities,Cryst. Growth Des.2009, 9(10), 4384–4390.
(29)Jun Liu, Shaozhen Wang, Qian Wang,Baoyou Geng*,Microwave chemical route to self-assembled quasi-spherical Cu2O microarchitectures and their gas-sensing properties,Sens. Actuators, B2009, 143, 253–260.
(28)Fangming Zhan,Baoyou Geng*,Yijun Guo, Lei Wang,One-step synthesis of hierarchical carnation-like NiS superstructures via a surfactant-free aqueous solution route,J. Alloys Compd.2009, 482, L1–L5.
(27)B. Y. Geng*, J. Z. Ma, F. M. Zhan,A solution chemistry approach for one-dimensional needle-like SrAl2O4nanostructures with Ln (Ce, Euand Tb) as activator/dopant,J. Alloys Compd.2009, 473, 530–533.
(26)Baoyou Geng*,Jinzhu Ma, Fangming Zhan,A solution phase thermal decomposition molecule precursor route to ZnS: Cunanorods and their optical properties,Mater. Chem. Phys.2009, 113, 534–538.
(25) Nan Yu,Baoyou Geng*, Jiahui You, and Fangming Zhan, Morphology Controllable Synthesis of SrSn(OH)6:EuMicrostructures and Their Transformation to Luminescent SrSnO3: Eu,Sci. Adv. Mater.2009, 1, 18–24.
[2008]
(24)Baoyou Geng*, Caihong Fang, Fangming Zhan, and Nan Yu, Synthesis of Polyhedral ZnSnO3Microcrystals with Controlled Exposed Facets and Their Selective Gas-Sensing Properties,Small2008, 4, No. 9, 1337–1343.
(23)Baoyou Geng*, Fangming Zhan, Han Jiang, Yijun Guo and Zhoujing Xing, Egg Albumin as a Nanoreactor for Growing Single-crystalline Fe3O4Nanotubes with High Yields,Chem. Commun.2008, 5773–5775.(Highlighted byChemical ScienceandNature China).
(22)Baoyou Geng*, Fangming Zhan, Caihong Fang, and Nan Yu, A Facile Coordination Compound Precursor Route to Controlled Synthesis of Co3O4Nanostructures and Their Room-temperature Gas Sensing Properties,J. Mater. Chem.2008, 18, 4977–4984.
(21) Yijun Guo,Baoyou Geng*, Li Zhang, Fangming Zhan, and Jiahui You, Fabrication, Characterization, and Strong Exciton Emission of Multilayer ZnTe Nanowire Superstructures,J. Phys. Chem. C2008, 112, 20307–20311.
(20)B. Y. Geng*, J. Z. Ma and J. H. You, Controllable Synthesis of Single-crystalline Fe3O4Polyhedra Possessing the Active Basal Facets,Cryst. Growth Des.2008, 8(5), 1443–1447.
(19)Baoyou Geng*, Fangming Zhan, Han Jiang, Zhoujing Xing, and Caihong Fang, Facile Production of Self-Assembly Hierarchical Dumbbell-Like CoOOH Nanostructures and Their Room-Temperature CO-Gas-Sensing Properties,Cryst. Growth Des.2008, 8(10), 3497–3500.
(18)Baoyou Geng*, Jiahui You, Fangming Zhan, Mingguang Kong, and Caihong Fang, Controllable Morphology Evolution and Photoluminescence of ZnSe Hollow Microspheres,J. Phys. Chem. C2008, 112, 11301–11306.
(17)Baoyou Geng*,Xiaowang Liu, Qingbo Du, Jinzhu Ma, Xianming Liu,Size-dependent blue luminescent CdS nanocrystals synthesized through a single-source molecular precursor route,Mater. Res. Bull.2008, 43, 1093–1098.
[2005-2007]
(16)B. Y. Geng*, J. Z. Ma, X. W. Liu, Q. B. Du, Hydrophilic polymer assisted synthesis of room-temperature ferromagnetic Fe3O4nanochains,Appl. Phys. Lett.2007, 90, 043120.
(15)B. Y. Geng*, X. W. Liu, J. Z. Ma, and Q. B. Du, Size-dependent optical and electrochemical band gaps of ZnS nanorods fabricated through single molecule precursor route,Appl. Phys. Lett.2007, 90, 183106.(Selected in Virtual Journal of Nanoscience and Nanotechnology)
(14) Xiaowang Liu,Baoyou Geng*, Qingbo Dua, Jinzhu Maa, Xianming Liu, Temperature-controlled self-assembled synthesis of CuO, Cu2O and Cu nanoparticles through a single-precursor route,Mater. Sci. Eng., A2007, 448, 7.
(13)B. Y. Geng*, J. Z. Ma, Q. B. Du, X. W. Liu, Synthesis of hollow carbon nanospheres through a ZnSe nanoparticle template route,Mater. Sci. Eng., A2007, 466, 96.
(12)B. Y. Geng*, X. W. Liu, Q. B. Du, and X. W. Wei, Structure and optical properties of periodically twinned ZnS nanowires,Appl. Phys. Lett.2006, 88, 163104.
(11)B. Y. Geng*, Q. B. Du, X. W. Liu, J. Z. Ma, and X. W. Wei and L. D. Zhang, One-step synthesis and enhanced blue emission of carbon-encapsulated single-crystalline ZnSe nanoparticles,Appl. Phys. Lett.2006, 89, 033115.
(10)Baoyou Geng*, Xiaowang Liu, Xianwen Wei and Shaowu Wang, Large-scale synthesis of single-crystalline ZnO nanotubes based on polymer-inducement,Mater. Res. Bull.2006, 41 (10), 1979-1983.
(9)B. Y. Geng*, X. W. Liu, X. W. Wei, S. W. Wang and L. D. Zhang, Low-temperature growth ofb-Ga2O3nanobelts through a simple thermochemical route and their phonon spectra properties,Appl. Phys. Lett.2005, 87, 113101.
(8)Baoyou Geng*, Xiaowang Liu, Xianwen Wei, Shaowu Wang, Synthesis, characterization and optical properties of regularly shaped, single-crystalline sisal-like ZnO nanostructures,Mater. Lett.2005, 59, 3572–3576.
[2003-2004]
(7)B. Y. Geng*,L. D. Zhang, G. Z. Wang, T. Xie, Y.G. Zhang, and G.W. Meng, Synthesis and photoluminescence properties of ZnMnS nanobelts,Appl. Phys. Lett.2004, 84(12), 2157–2159.
(6)B. Y. Geng*,Y. G. Zhang, G. Wang, T. Xie, G. W. Meng and Lide Zhang, Growth of single-crystal ZnS nanobelts through a low-temperature thermochemistry route and their optical properties,Applied Physics: A2004, 79, 1761–1763.
(5)Baoyou Geng*,Guowen Meng,Lide Zhang,Guozhong Wangand Xinsheng Peng, CdSe-Filled silica nanotubes,Chem. Commun.2003, 2572–2573.
(4)B. Y. Geng*, G. Z. Wang, Z. Jiang, T. Xie, S. H. Sun, G. W. Meng, and L. D. Zhang, Synthesis and optical properties of S-doped ZnO nanowires,Appl. Phys. Lett.2003, 82(26), 4791–4793.
(3)Baoyou Geng*, Yu Lin, Xingsheng Peng, Guowen Meng, Lide Zhang, Large-scale synthesis of single-crystalline Te nanobelts by a low-temperature chemical vapour deposition route,Nanotechnology2003, 14, 983–986.
(2)Baoyou Geng*, Lide Zhang, Guowen Meng, Ting Xie, Xinsheng Peng, Yu Lin, Large-scale synthesis and photoluminescence of single-crystalline b-Ga2O3 nanobelts,J. Cryst. Growth2003, 259, 291–295.
(1)B. Y. Geng*, T. Xie, X. S. Peng, Y. Lin, X. Y. Yuan, G. W. Meng, L. D. Zhang, Large-scale synthesis of ZnO nanowires using a low-temperature chemical route and their photoluminescence properties,Appl. Phys. A2003, 77, 363–366.
會議論文及報告
  1. 耿保友,Au-Pt Core-Rods Nanostructures and Their Superior Electrocatalytic Performance for Methanol Oxidation,中國化學會第六屆全國結構化學學術會議,2012年10月22日至26日,蘇州,邀請報告
  2. 耿保友,低鉑/非鉑納米結構的構築及其對燃料電池的電催化活性,中國化學會第八屆全國無機化學學術會議,2011年7月25日至29日,哈爾濱,邀請報告
  3. 蒯龍,王紹臻,耿保友*,Au-Pd Yolk-Shell 納米結構:構築及直接乙醇燃料電池催化,中國化學會第八屆全國無機化學學術會議論文,2011年7月25日至29日,哈爾濱。
  4. 蒯龍,王紹臻,耿保友*,一步水熱法製備Au@Pd 核殼納米結構及電催化ORR性能,中國化學會第八屆全國無機化學學術會議論文,2011年7月25日至29日,哈爾濱。
  5. 王紹臻,蒯龍,耿保友*,水熱法製備枝杈狀Au 納米結構及其電化學ORR性能,中國化學會第八屆全國無機化學學術會議論文,2011年7月25日至29日,哈爾濱。
  6. 王倩,王紹臻,程志國,耿保友*,鉑基直接甲醇燃料電池催化劑的研究進展,第十屆全國氫能學術會議暨第二屆兩岸三地氫能研討會會議論文,2009年9月17日至20日,天津。
  7. Qian Wang, Shaozhen Wang, Zhiguo Cheng, Jun Liu andBaoyou Geng*,Pt Nanocube/Carbon-Nanotube Heterostructures as Advanced Fuel Cell Electrocatalyst,第十屆全國氫能學術會議暨第二屆兩岸三地氫能研討會牆展,2009年9月17日至20日,天津。
  8. 耿保友*,劉小網,馬金珠,杜慶波,單分散ZnS納米棒的製備及其光學和電化學相關性研究,中國化學會第七屆全國無機化學學術會議論文,2007年7月18日至22日,呼和浩特。
  9. 耿保友,Controllable Synthesis and Properties of Low-dimensional Nanostructures,中國化學會第七屆全國無機化學學術會議分會報告,2007年7月18日至22日,呼和浩特。
專 利
  1. 耿保友,劉小網,一種磁性納米鏈的製備和使用方法,發明專利,專利號:ZL 200610161561.5。
  2. 耿保友,桑艷,一種多功能金紅石型納米二氧化鈦粉體的製備方法,發明專利,專利號:ZL 200810123126.2。
  3. 耿保友,王倩,一維納米複合材料的製備方法,發明專利,專利號:ZL 200910116668.1。
  4. 耿保友,詹方明,四氧化三鈷多孔納米片的製備方法,發明專利,專利號:ZL 200910116443.6。
  5. 耿保友,蒯龍,一種高效納米銀/溴化銀太陽光光催化材料及其製備方法,發明專利,專利號:ZL 2010101741 81.1。
論 著
  • Baoyou Geng,“Controlled Synthesis, Characterizations and Applications of Metal Oxide Nanostructures”, a book chapter of “Metal Oxide Nanostructures and Their Applications”, American Scientific Publishers, 2009.
  • 耿保友,《新材料科技導論》,浙江大學出版社,2007年5月。

相關詞條

熱門詞條

聯絡我們