研究室主任 研究室主任

最小化 最大化

  

        马鹏程研究员,兰州大学学士(化学,2001年)、硕士(高分子化学与物理,2004年),香港科技大学博士(机械工程学,2008年)。曾获得香港特区"输入内地人才计划"(2008-2010年)、德国洪堡学者(2010-2012年)等荣誉。2012年回国并在中科院新疆理化所组建环境功能高分子复合材料团队。先后获得新疆杰出青年自然科学基金、中德科研合作计划、中组部"西部之光"计划优秀入选者等奖励。此外,马博士获得由Elsevier出版社和Composites Part A杂志联合颁发的2015年度最佳审稿人奖(Composites Part A-Editor's Top Reviewer Award 2015)以及Composites Science and Technology、Carbon、Chemical Engineering Journal等学术期刊优秀审稿人(Outstanding Reviewer),以表彰其在学术服务领域做出的杰出贡献。鉴于在化学科学研究领域取得的出色成就以及为推动化学科学应用和发展做出的卓越贡献,马博士2018年当选为英国皇家化学会会士(FRSC)。

        马博士科研工作集中于高分子基复合材料及其在环境、工程等领域的基础和应用研究。在上述领域完成专著1部,撰写专著章节2篇,发表论文52篇,论文被他人引用次数超过4300次。目前共持有12项授权发明专利且6项已经转让/技术许可至工业界,研发出一系列具有自主知识产权的油水分离用高分子纳米复合材料及技术装备,并获得商业订单。团队与企业合作推动油水分离材料在石化行业含油污水处理领域的应用,项目获得2017年"第六届中国创新创业大赛新材料行业总决赛"全国三等奖(初创组唯一)。

联系我们 联系我们

最小化 最大化

中国科学院新疆理化技术研究所
环境科学与技术研究室
地址:新疆乌鲁木齐市北京南路40-1号
邮编:830011 
联系人:马鹏程研究员
电话:    +86-991-3691037 
传真:    +86-991-3838957
电子邮件:mapc@ms.xjb.ac.cn

实验室简介 实验室简介

最小化 最大化

 

定位:以国家和新疆社会经济可持续发展中的环保需求为牵引,结合国际科学前沿和新疆优势特色资源,开展与环境安全和污染监控等相关的、具有区域特色的基础和应用基础研究及产业化工程应用研发。

发展目标:在油田、化工等行业污染治理、新疆流域水体点源/面源污染监控等方面取得重要进展,获得3-5项具有自主知识产权的国际水平先进技术和成果,并在实际工程中得到应用,为解决新疆跨越式经济发展中的环境问题提供技术支撑。经过5-10年的努力,在新疆建成国内外有影响的、以中青年科学家为骨干的科研创新团队,成为国际合作、优秀人才培养、新兴交叉学科发展和企业产学研的重要基地。

重要论文 重要论文

最小化 最大化
  1. Xing D, Xi XY, Ma PC*. Factors governing the tensile strength of basalt fibre. Composites Part A: Applied Science and Manufacturing, 2019, 119, 127-133.
  2. Gogoi N, Bashir B, Yang Z, Ma PC*. Supramolecular assembly of leaf-like fluorescent tetraphenylethylene through polymer-directed inter-locking. Composites Communications, 2019, 11, 45-51.
  3. Lv P, Yang SD, Ma PC*. Bio-based oil gelling agent for effective removal of oil spills from water surface. Materials Chemistry Frontiers, 2018, in press.
  4. Hao B, Cui L, Mu L, Ma Q, Yang SD, Ma PC*. Stretchable and compressible strain sensor based on carbon nanotube foam/polymer nanocomposites with three dimensional networks. Composites Science and Technology, 2018, 163, 162-170.
  5. Chen L, Yang SD, Mu L, Ma PC*. Three-dimensional titanium dioxide/graphene hybrids with improved performance for photocatalysis and energy storage. Journal of Colloid and Interface Science, 2018, 512, 647-656.
  6. Yang SD, Chen L, Wang C, Rana M, Ma PC*.Surface roughness induced superhydrophobicity of graphene foam for oil-water separation. Journal of Colloid and Interface Science, 2017, 508, 254-262.
  7. Hao B, Förster T, Mäder E, Ma PC*. Modification of basalt fiber using pyrolytic carbon coating for sensing application. Composites Part A, 2017, 101, 123-128.
  8. Wang CC, Yang S, Ma Q, Jia X*, Ma PC*. Preparation of carbon nanotubes/graphene hybrid aerogel and its application for the adsorption of organic compounds. Carbon, 2017, 118, 765-771.
  9. Rana M, Asim S, Hao B, Yang S, Ma PC*. Carbon nanotubes on highly interconnected carbonized cotton for flexible and light-weight energy storage. Advanced Sustainable System, 2017, 1700022.
  10. Chen JT, Shen CH, Yang SD, Masud R, Ma PC*. Acid and temperature dual-responsive cotton fabrics with polymer coating. Composites Communications, 2017, 4, 10-15.
  11. Rana M, Chen JT, Yang S, Ma PC*. Biomimetic superoleophobicity of cotton fabrics for efficient oil-water separation. Advanced Materials Interfaces, 2016, 3, 1600128.
  12. Hao B, Ma Q, Yang SD, Mäder E, Ma PC*. Comparative study on monitoring structural damage in fiber-reinforced polymers using glass fibers with carbon nanotubes and graphene coating. Composites Science and Technology, 2016, 129, 38-45.
  13. Rana M, Hao B, Mu L, Chen L, Ma PC*. Development of multi-functional cotton fabrics with Ag/AgBr-TiO2 nanocomposite coating. Composites Science and Technology, 2016, 122, 104-122.
  14. Mu L, Yang S, Hao B, Ma PC*. Ternary silicone sponge with enhanced mechanical properties for oil-water separation. Polymer Chemistry, 2015, 6, 5869-5875.
  15. Chen L, Yang S, Hao B, Ruan J, Ma PC*. Preparation of fiber-based plasmonic photocatalyst and its photocatalytic performance under the visible light. Applied Catalysis B: Environmental, 2015, 166-167, 287-294.
  16. Chen L, Yang SD, Mäder E, Ma PC*. Controlled synthesis of hierarchical TiO2 nanoparticles on glass fibers and their photocatalytic performance. Dalton Transactions, 2014, 43, 12743-12753.
  17. Yang SD, Chen L, Mu L, Ma PC*. Magnetic graphene foam for efficient adsorption of oil and organic solvents. Journal of Colloid and Interface Science, 2014, 430, 337-344.
  18. Ma PC*, Zhang Y. Perspectives of carbon nanotubes/polymer nanocomposites for wind blade materials. Renewable and Sustainable Energy Reviews, 2014, 30, 651-660.
  19. Ma PC*, Liu JW, Gao SL, Mäder E. Development of functional glass fibers using nanocomposites coating: A comparative study. Composites Part A, 2013, 44, 16-22.
  20. Liu L, Ma PC*, Khan SU, Xu M, Kim JK. Strain-sensitive Raman spectroscopy and electrical resistance of carbon nanotube-coated glass fibre sensors. Composites Science and Technology, 2012, 72, 1548-55.
  21. Ma PC*, Zheng QB, Mäder E, Kim JK. Behavior of load transfer in functionalized carbon nanotube/epoxy nanocomposites. Polymer, 2012, 53, 6081-8.
  22. Ma PC, Siddiqui NA, Mäder E, Kim JK. Correlation between electrokinetic potential, dispersibility and surface chemistry and energy of carbon nanotubes. Composites Science and Technology, 2011, 71, 1644-1651.
  23.  Lan Wang, Ling Zang, Jincai Zhao, Chuanyi Wang*, Green synthesis of shape-defined anatase TiO2 nanocrystals wholly exposed with {001} and {100} facets. Chemical Communications, 2012, 48, 11736-11738.
  24. 2.  Xiaoye Xin, Tao Xu, Jiao Yin, Lan Wang*, Chuanyi Wang*, Management on the location and concentration of Ti3+ in anatase TiO2 for defects-induced visible-light photocatalysis. Applied Catalysis B: Environmental, 2015, 176, 354-362.
  25. 3.  Lan Wang, Xu Wang, Sifang Cui, Xiaoyun Fan, Baiyi Zu, Chuanyi Wang*, TiO2 supported on silica nanolayers derived from vermiculite for efficient photocatalysis. Catalysis Today, 2013, 216, 95-103.
  26. 4.  Xiaoye Xin, Tao Xu, Lan Wang*, Chuanyi Wang*, Ti3+-self doped brookite TiO2 single-crystalline nanosheets with high solar absorption and excellent photocatalytic CO2 reduction. Scientific Reports, 2016, 6, 23684.
  27. 5.  Lan Wang, Haisen Ta, Chaitanya Ullal, Fu Wang*, Chuanyi Wang, Guohui Dong, Aptamer functionalized silver clusters for STED microscopy. RSC Advances, 2017, 7, 11821.
  28. 6  Lan Wang*, Xu Wang, Yin Jiao, Chuanyi Wang*, Insights into the physicochemical characteristics from vermiculite to silica nanosheets. Applied Clay Science, 2016, 132-133,17-23.
  29. 7.  Lan Wang*, Xu Wang, Zhaoyang Chen, Pengcheng Ma, Effect of doubly organo-modified vermiculite on the properties of vermiculite/polystyrene nanocomposites. Applied Clay Science, 2013, 75-76, 74-81.
  30. 8.  Lan Wang, Zhaoyang Chen*, Xu Wang, Shiyou Yan, Junhua Wang, Yanwei Fan, Preparations of organo-vermiculite with large interlayer space by hot solution and ball milling methods: A comparative study. Applied Clay Science, 2011, 51, 151-157.
  31. 9.  Lan Wang*, Xu Wang, Jiao Yin , Yunqing Zhu, Chuanyi Wang*, Silica induced oxygen vacancies in supported mixed-phase TiO2 for photocatalytic degradation of phenol under visible light irradiation. Catalysis Communications, 2016, 87, 98-101.
  32. 10. Mao, X. Y.; Wang, L. *; Gu, S. Q.; Duan, Y. Y.; Zhu, Y. Q.; Wang, C. Y.; Lichtfouse, E., Synthesis of a three-dimensional network sodium alginate-poly(acrylicacid)/attapulgite hydrogel with good mechanic property and reusability for efficient adsorption of Cu2+ and Pb2+. Environ Chem Lett, 2018, 16, 653-658
  33. 11. Xinyou Mao, Lan Wang*, Chuanyi Wang*, Efficient adsorptions of Cu2+ and Pb2+ from aqueous solutions by sodium alginate-poly (acrylic acid)/attapulgite semi-IPN hydrogel. Environmental Chemistry Letters. DOI:10.1007/s10311-018-0746-3.
  34. 12 Gu, S. Q.; Wang, L. *; Mao, X. Y.; Yang, L. P.; Wang, C. Y., Selective Adsorption of Pb(II) from Aqueous Solution by Triethylenetetramine-Grafted Polyacrylamide/Vermiculite. Materials. 2018, 11.
  35. Yang Sudong, Shen Chengmin, Chen Lin, Wang Chunchun, Lv Peng, A vapor-liquid deposition strategy to prepare superhydrophobic and superoleophilic graphene aerogel for oil-water separation,ACS Applied Nano Materials, 2018,1:531-540.
  36. Yang Sudong, Chen Lin, Ma Peng-Cheng, Three-dimensional titanium dioxide/graphene hybrids with improved performance for photocatalysis and energy storage, Journal of Colloid and Interface Science, 2018, 512: 647-656;
  37. Yang Sudong, Chen Lin, Ma Peng-Cheng, Surface roughness induced superhydrophobicity of graphene foam for oil-water separation, Journal of Colloid and Interface Science, 2017, 508: 254-262;
  38. Yang Sudong, Wang Chunchun, Ma Qin, Ma, Peng-Cheng, Jia Xin, Preparation of carbon nanotubes/graphene hybrid aerogel and its application for the adsorption of organic compounds,Carbon, 2017,118:765-771.
  39. Yang Sudong, Chen Lin, Mu Lei, Hao Bin, Chen, Junteng, Ma Peng-Cheng, Graphene foam with hierarchical structures for the removal of organic pollutants from water, RSC Advances, 2016, 6(6): 4889-4898;
  40. Yang Sudong, Chen Lin, Mu Lei, Hao Bin, Ma Peng-Cheng, Low cost carbon fiber aerogel derived from bamboo for the adsorption of oils and organic solvents with excellent performances, RSC Advances, 2015, 5(48): 38470-38478;
  41. Yang Sudong, Chen Lin, Mu Lei, Ma Peng-Cheng, Magnetic graphene foam for efficient adsorption of oil and organic solvents,Journal of Colloid and Interface Science, 2014, 430: 337-344;
  42. Yang Sudong, Dong Jing, Yao Zhaohui, Shen Chengmin, Shi Xuezhao, Tian, Yuan, Lin Shaoxiong, Zhang Xiaogang, One-Pot Synthesis of Graphene-Supported Monodisperse Pd Nanoparticles as Catalyst for Formic Acid Electro-oxidation, Scientific Reports, 2014,4: 4501-4501;
  43. Yang Sudong, Shen Chengmin, Tian Yuan, Zhang Xiaogang, Gao Hong-Jun, Synthesis of cubic and spherical Pd nanoparticles on graphene and their electrocatalytic performance in the oxidation of formic acid, Nanoscale,2014,6: 13154-13162;
  44. Yang Sudong, Shen Chengmin, Lu Xiangjun, Tong Hao, Zhu Jiajia, Zhang Xiaogang, Gao Hong-Jun, Preparation and electrochemistry of graphene nanosheets–multiwalled carbon nanotubes hybrid nanomaterials as Pd electrocatalyst support for formic acid oxidation, Electrochimica Acta, 2012, 62: 242-249;
  45. Yang Sudong, Shen Chengmin, Lu Xiangjun, Tong Hao, Zhu Jiajia, Zhang Xiaogang, Gao Hong-Jun,Graphene nanosheets polypyrrole hybid material as a highly active catalysts support for formic acid electro-oxidation, Nanoscale, 2011, 3(8):3277-3284.
  46. Yang Sudong, Zhang Xiaogang, Mi Hongyu, Ye Xiangguo, Pd nanoparticles supported on functionalized multi-walled carbon nanotubes (MWCNTs) and electrooxidation for formic acid,J. Power Sources, 2008,175:26-322.
  47. Chen Junteng, Shen Caihong, Yang Sudong*, Masud Rana,Ma Peng-Cheng, Acid and temperature dual-responsive cotton fabrics with polymer coating, Composites Communications, 2017, 4 : 10-15.
  48. X. Kang, H. Zhu, C. Wang, K. Sun, J. Yin*, J Colloid Interf Sci, 2018, 509, 369-383.
  49. H. Ye, H. Li, F. Jiang, J. Yin*, H. Zhu, Electrochim Acta, 2018, 266, 170-177.
  50. F. Jiang, H. Ye, H. Li, J. Yin*, H. Zhu, Chem Commun, 2018, 54, 4971-4974.
  51. K. Sun, H. Li, H. Ye, J. Yin*, H. Zhu, ACS Appl. Mater. Interfaces., 2018, 10, 18657-18664.
  52. H. Ye, F. Jiang, H. Li, Z. Xu, J. Yin*, H. Zhu, Electrochim Acta, 2017, 253, 319-323.
  53. X. Kang, C. Wang, J. Yin*, Chem Electro Chem, 2017, 4, 1-10.
  54. J. Yin, Y. Zhu, X. Yue, L. Wang, H. Zhu, Electrochim Acta, 2016, 201, 96-105.
  55. J. Yin, D. Zhang, H. Zhu, Electrochim Acta, 2014, 136, 504-512.
  56. J. Yin, L. Qi, H. Wang, Electrochim Acta, 2013, 88, 208-216.
  57. J. Yin, L. Qi, H. Wang, ACS Appl. Mater. Interfaces., 2012, 4, 2762-2768.
  58. J. Yin, C. Zheng, L. Qi, H. Wang, J Power Sources, 2011, 196, 4080-4087.
  59. J. Yin, L. Qi, H. Wang, ACS Appl. Mater. Interfaces., 2011, 3, 4315-4322.
  60. J. Yin, J. Jia, L. Zhu, Microchim. Acta, 2009, 166, 151-156.
  61. Su L, Xie J, Xu Y, Wang L, Wang Y*, Ren M. Preparation and lithium storage performance of yolk–shell Si@ void@ C nanocomposites. Physical Chemistry Chemical Physics. 2015;17(27):17562-5.
  62. Su L, Wu X, Hei J, Wang L, Wang Y*. Mesoporous Mn3O4 Nanobeads/Graphene Hybrids: Facile Gel‐Like Film Synthesis, Rational Structure Design, and Excellent Performance for Lithium Storage. Particle & Particle Systems Characterization. 2015;32(7):721-7.
  63. Su L, Sha Y, Jiang J, Wang L, Wang Y*. EG-Assisted synthesis and electrochemical performance of ultrathin carbon-coated LiMnPO 4 nanoplates as cathodes in lithium ion batteries. Journal of Nanomaterials. 2015;16(1):212.
  64. Su L, Jiang J, Wang L, Wang Y*, Ren M. MnO QD/Graphene Dot Fabrics: A Versatile Nanohybrid Material. ChemElectroChem. 2015;2(6):789-94.
  65. Su L, Hei J, Wu X, Wang L, Wang Y*. Highly‐Dispersed Ni‐QDs/Mesoporous Carbon Nanoplates: A Universal and Commercially Applicable Approach Based on Corn Straw Piths and High Capacitive Performances. ChemElectroChem. 2015;2(12):1897-902.
  66. Qintang Li*, Jiao Wang, Nana Lei, Minhao Yan, Xiao Chen, Xiu Yue*, “Phase behaviours of a cationic surfactant in deep eutectic solvents: from micelles to lyotropic liquid crystals”, Phys. Chem. Chem. Phys. 2018, 20, 12175-12181.
  67. Xiu Yue*, Xiaoyun Fan, Qintang Li, Xiao Chen, Chuanyi Wang*, “Aggregation Behaviors of Alkyl Ether Carboxylate Surfactants in Water”, J. Mol. Liq, 2017, 227, 161-167.
  68. Xiu Yue, Xiao Chen*, Qintang Li, Zhaohong Qian, “Soft aggregates formed by a nonionic phytosterol ethoxylate and β-cyclodextrin inclusion in aqueous solution”, Colloids and Surfaces A, 2015, 482, 79-86.
  69. Xiu Yue, Xiao Chen*, Qintang Li, Zhihong Li, “Lyotropic liquid crystalline phases formed by phyosterol ethoxylates in organic solvent”, Langmuir, 2013, 29, 11013-11021. 
  70. Xiu Yue, Xiao Chen*, Qintang Li, “Comparison of aggregation behaviors of a phytosterol ethoxylate surfactant in protic and aprotic ionic liquids”, J. Phys. Chem. B, 2012, 116, 9439–9444.
  71. Xiu Yue, Xiao Chen*, Xudong Wang, Zhihong Li, “Lyotropic liquid crystalline phases formed by phyosterol ethoxylates in room-temperature ionic liquids”, Colloids and Surfaces A, 2011, 392, 225-232.
  72. Linjuan Guo, Zheng Yang, and Xincun Dou*, Artificial Olfactory System for Trace Identification of Explosive Vapors Realized by Optoelectronic Schottky Sensing, Advanced Materials, 2017, 29,
      1604528 (IF=18.96)
  73.  Zheng Yang, and Xincun Dou*, Emerging and Future Possible Strategies for Enhancing 1D Inorganic Nanomaterials-based Electrical Sensors towards Explosives Vapors Detection, Advanced Functional Materials 2016, 26,2406–2425. (IF=11.4)
  74. Zhaofeng Wu, ChaoyuZhou, Baiyi Zu, Yushu Li, and Xincun Dou*, Contactless and Rapid Discrimination of Improvised Explosives Realized by Mn2+ Doping Tailored ZnS Nanocrystals, Advanced Functional Materials, 2016, 26, 4578–4586. (IF=11.4)

  75. Zheng Yang, Xincun Dou*, Shengli Zhang, Linjuan Guo, Baiyi Zu, Zhaofeng Wu and Haibo Zeng, A High-Performance Nitro-Explosives Schottky Sensor Boosted by Interface Modulation, Adv. Funct. Mater. 2015, 25, 4039–4048 (IF=11.4)
  76. Yuxiang Li, Baiyi Zu*,Yanan Guo, Kun Li, Haibo Zeng* and Xincun Dou*, Surface Superoxide Complex Defects-Boosted Ultra-sensitive ppb-level NO2 Gas Sensors, Small, 2016, 12, 1420–1424. (IF=8.4)
  77. Jiang Qu, Yuru Ge, Baiyi Zu*, Yuxiang Li, and Xincun Dou*, Transition-Metal-Doped p-type ZnO Nanoparticle-based Sensory Array for Instant Discrimination of Explosives Vapors, Small, 2016, 12, 1369–1377. (IF=8.4)
  78. Chaoyu Zhou, Zhaofeng Wu, Yanan Guo, Yushu Li, Hongyu Cao, Xuefang Zheng* and Xincun Dou*, Ultrasensitive, Real-time and Discriminative Detectionof Improvised Explosives by Chemiresistive Thin-film Sensory Array of Mn2+ Tailored Hierarchical ZnS, Scientific Reports, 2016, 6, 25588. (IF=5.228)
  79. Yang, Z., Guo, L., Zu, B., Guo, Y., Xu, T., and Dou, X. C.*, CdS/ZnO Core/Shell Nanowire-Built Films for Enhanced Photodetecting and Optoelectronic Gas-Sensing Applications. Advanced Optical Materials 2014, 2, 738-745. (IF=5.2
  80. Guo, L. J., Zu, B. Y., Yang, Z., Cao, H. Y., Zheng X. F., and Dou, X. C.*, APTS and rGO Co-Functionalized Pyrenated Fluorescent Nanonets for Highly Sensitive Sensing of TNT Vapor. Nanoscale, 2014, 6, 1467-1473. (IF=7.8)
  81. Zu, B. Y., Guo, Y. N., and Dou, X. C.*, Nanostructure-Based Optoelectronic Sensing of Vapor Phase Explosives - A Promising but Challenging Method, Nanoscale, 2013, 5, 10693-10701. (IF=7.8)
  82. Dou, X. C.*; Sabba, D.; Mathews,N.; Wong, L. H.; Lam, Y. M.; Mhaisalkar, S. Hydrothermal Synthesis of High Electron Mobility Zn-doped SnO2 Nanoflowers as Photoanode Material for Efficient Dye Sensitized Solar Cells. Chem. Mater. 2011,23, 3938-3945. (IF=9.4)
  83. Dou, X. C.*; Mathews, N.; Wang,Q.; Pramana, S. S.; Lam, Y. M.; Mhaisalkar, S. Novel Zn-Sn-O nanocactus with excellent transport properties as photoanode material for high performancedye-sensitized solar cells. Nanoscale 2011,3, 4640-4646. (IF=7.8)
  84. Dou, X. C.; Li, G. H.; Lei, H. C.Kinetic versus thermodynamic control over growth process of electrodeposited Bi/BiSb superlattice nanowires. Nano Lett. 2008,8, 1286-1290. (IF=13.8)
  85. Zhaofeng Wu, Chaoyu Zhou, Baiyi Zu, Yushu Li, and Xincun Dou*, Contactless and Rapid Discrimination of Improvised Explosives Realized by Mn2+ Doping Tailored ZnS Nanocrystals, Adv. Funct. Mater., 2016, 26, 4578–4586. (IF=11.382, 被“Materials Views中国”亮点报道,被自然科学基金委材料学部推荐宣传报道)
  86. Zheng Yang, Xincun Dou*, Shengli Zhang, Linjuan Guo, Baiyi Zu, Zhaofeng Wu and Haibo Zeng*, A High-Performance Nitro-Explosives Schottky Sensor Boosted by Interface Modulation, Advanced Functional Materials, 2015, 25,4039–4048.(IF=11.382,卷首插画,SCI引用12次)
  87. Yuxiang Li, Baiyi Zu*, Yanan Guo, Kun Li, Haibo Zeng, and Xincun Dou*, Surface Superoxide Complex Defects-Boosted Ultra-sensitive ppb-level NO2 Gas Sensors, Small, 2016, 12(11), 1420–1424.(IF=8.315,被“Materials Views中国”亮点报道)
  88.  Jiang Qu, Yuru Ge, Baiyi Zu*, Yuxiang Li, and Xincun Dou*, Transition-Metal-Doped p-type ZnO Nanoparticle-based Sensory Array for Instant Discrimination of Explosives Vapors, Small, 2016, 12(10), 1369–1377. (IF=8.315,被“Materials Views中国”亮点报道)
  89.  Linjuan Guo, Baiyi Zu(共同一作), Zheng Yang, Hongyu Cao, Xuefang Zheng*, and Xincun Dou*, APTS and rGO co-functionalized pyrenated fluorescent nanonets for representative vapor phase nitroaromatic explosive detection, Nanoscale, 2014, 6(3), 1467-1473. (IF=7.76,SCI引用32次)
  90. Baiyi Zu, Yanan Guo, and Xincun Dou*, Nanostructure-based optoelectronic sensing of vapor phase explosives – a promising but challenging method, Nanoscale, 2013, 5, 10693-10701. (IF=7.76,观点文章,SCI引用30次)
  91.  Zheng Yang, Linjuan Guo, Baiyi Zu,* Yanan Guo, Tao Xu, and Xincun Dou*, CdS/ZnO Core/Shell Nanowire-Built Films for Enhanced Photodetecting and Optoelectronic Gas-Sensing Applications, Adv. Optical Mater., 2014, 2(8), 738-745. (IF=5.188,卷首插画,SCI引用36次)
  92. Baiyi Zu, Bin Lu, Yanan Guo, Tao Xu, and Xincun Dou*, Simple metal/SiO2/Si planar photodetector utilizing leakage current flows through a SiO2 layer, J. Mater. Chem. C, 2014, 2(11), 2045-2050.(IF=5.066)
  93.  Yuru Ge, Zhong Wei*,Yushu Li*, Jiang Qu, Baiyi Zu, Xincun Dou, Highly Sensitive and RapidChemiresistive Sensor towards Trace Nitro-explosive Vapors Based on Oxygen Vacancy-richand Defective Crystallized In-doped ZnO, Sensors & Actuators: B. Chemical, 2017, 244, 983–991(IF=4.758)
  94. Linjuan Guo, Zheng Yang, Yushu Li, Baiyi Zu and Xincun Dou*,Sensitive,Real-time and Anti-interfering Detection of Nitro-explosive Vapors Realizedby ZnO/rGO Core/shell Micro-Schottky Junction, Sensors & Actuators: B. Chemical, 2017, 239, 286–294(IF=4.758)
  95.  Baiyi Zu, Bin Lu, Zheng Yang, Yanan Guo, Xincun Dou*, and Tao Xu*, Gas Adsorption Thermodynamics Deduced from the Electrical Responses in Gas-Gated Field-Effect Nanosensors, J. Phys. Chem. C, 2014, 118(26), 14703-14710.(IF=4.509)
  96.  Linjuan Guo, Zheng Yang, Baiyi Zu, Bin Lu, and Xincun Dou*, A F-ion Assisted Preparation Route to Improve the Photodegradation Performance of TiO2@rGO System-How to Efficiently Utilize the Photogenerated Electrons in the Target Organic Pollutants, RSC Adv., 2016, 6, 358 – 365. (IF=3.289)
  97. Yuru Ge, Yushu Li, Baiyi Zu*, Chaoyu Zhou, Xincun Dou*, AM-DMC-AMPS Multi-functionalized Magnetic Nanoparticles for Efficient Purification of Complex Multiphase Water System, Nanoscale Res. Lett., 2016, 11:217(IF=2.584)
  98.  Linjuan Guo, Baiyi Zu, and Xincun Dou*, Fluorescent Nanofilms for Nitroaromatic Explosives Detection-Promises and Challenges, Chem. Sci. J., 2014.5,10000e102.
  99.  Yanan Guo, Baiyi Zu, and Xincun Dou*, Zeolite-based Photocatalysts: A Promising Strategy for Efficient Photocatalysis, J. Thermodyn. Catal., 2013, 4, 1000e120.
  100.  Baiyi Zu, Ying Zhang, Xianzhi Guo, and Huiqi Zhang, Preparation of Molecularly Imprinted Polymers via Atom Transfer Radical “Bulk” Polymerization. J. Polym. Sci. Pol. Chem., 2010, 48, 532-541(IF=3.114,SCI引用30次)
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  103.  Junyi Li, Baiyi Zu, Ying Zhang, Xianzhi Guo, and Huiqi Zhang, One-Pot Synthesis of Surface-Functionalized Molecularly Imprinted Polymer Microspheres by Iniferter-Induced “Living” Radical Precipitation Polymerization. J. Polym. Sci. Pol. Chem., 2010, 48, 3217-3228(IF=3.114,SCI引用38次)
  104.  Lan Wang, Xu Wang, Sifang Cui, Xiaoyun Fan, Baiyi Zu, and Chuanyi Wang, TiO2 supported on silica nanolayers derived from vermiculite for efficient photocatalysis. Catalysis Today, 216 (2013) 95-103(IF= 4.312)
  105. Miaomiao Gong, Yushu Li, Yanan Guo*, Xu Lv, Xincun Dou, 2D TiO2 Nanosheets for Ultrasensitive Humidity Sensing Application Benefited by Abundant Surface Oxygen Vacancy Defects, Sens. Actuator B-Chem., 2018, 262, 350
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  111. 郭亚楠*,宫淼淼,窦新存,连续致密LTA分子筛膜对痕量TNT爆炸物气氛的浓缩,高等化学学报,doi: 10.7503/cjcu20180211
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  119. Yuru Ge, Zhong Wei*, Yushu Li*, Jiang Qu, Baiyi Zu, Xincun Dou, Highly Sensitive and Rapid Chemiresistive Sensor towards Trace Nitro-explosive Vapors Based on Oxygen Vacancy-rich and Defective Crystallized In-doped ZnO, Sensors & Actuators: B. Chemical, 2017, 244, 983-991.
  120. Yuru Ge‡, Yushu Li‡, Baiyi Zu*, Chaoyu Zhou, Xincun Dou*, AM-DMC-AMPS Multi-Functionalized Magnetic Nanoparticles for Efficient Purification of Complex Multiphase Water System, Nanoscale Research Letters, 2016, 11:217.
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