职  称:副教授
研究方向:电分析、电催化
办公电话:QQ: 53864080
办公地点:逸夫科技馆430
电子邮件:baoxj133@nenu.edu.cn

个人简历

薄祥洁,博士,主要从事纳米结构碳材料及其功能化复合材料的电分析(电化学传感器)与电催化应用(氧还原及水分解)研究。曾主持国家自然科学青年基金项目、吉林科技厅青年项目与博士后科学基金一等面上项目、博士后科学基金特别资助项目。目前正在主持一项国家自然科学基金项目与一项吉林省科技厅项目。至今累计在国内外学术刊物上发表学术论文85余篇,其中第一作者15篇,通讯作者24篇,相关文章发表在Biosensors and Bioelectronics、Journal of Materials Chemistry、Journal of Materials Chemistry A、Journal of Power Sources、ACS Applied Materials and Interfaces、Chemical Communications期刊。联系方式:邮箱:baoxj133@nenu.edu.cn 电话:13664401866,QQ:53864080。 工作及学习经历: 2013.7---至今 东北师范大学 化学学院 讲师 分析化学 2010.9---2013.7 东北师范大学 化学学院 博士 分析化学 2008.9---2010.7 东北师范大学 化学学院 硕士 分析化学 2004.9---2008.7 东北师范大学 化学学院 本科 目前发表文章: 第一作者: [1] X. Bo, M. Zhou, L. Guo, Biosensors and Bioelectronics, 2017 89 167. [2] X. Bo, Y. Zhang, M. Li, A. Nsabimana, L. Guo, Journal of Power Sources, 2015 288 1. [3] X. Bo, M. Li, C. Han, Y. Zhang, A. Nsabimana, L. Guo, Journal of Materials Chemistry A, 2015 3 1058. [4] X. Bo, C. Han, Y. Zhang, L. Guo, ACS Applied Materials and Interfaces, 2014 6 3023. [5] X. Bo, M. Li, C. Han, L. Guo, Electrochimica Acta, 2013 114 582. [6] X. Bo, L. Guo, Electrochimica Acta, 2013 90 283. [7] X. Bo, L. Guo, Physical Chemistry Chemical Physics, 2013 15 2459. [8] X. Bo, L. Zhu, G. Wang, L. Guo, Journal of Materials Chemistry, 2012 22 5758. [9] X. Bo, J. Bai, L. Yang, L. Guo, Sensors and Actuators, B: Chemical, 2011 157 662. [10] X. Bo, J. Bai, B. Qi, L. Guo, Biosensors and Bioelectronics, 2011 28 77. [11] X. Bo, J. Bai, J. Ju, L. Guo, Journal of Power Sources, 2011 196 8360. [12] X. Bo, J.C. Ndamanisha, J. Bai, L. Guo, Talanta, 2010 82 85. [13] X. Bo, J. Bai, L. Wang, L. Guo, Talanta, 2010 81 339. [14] X. Bo, J. Bai, J. Ju, L. Guo, Analytica Chimica Acta, 2010 675 29. [15] X. Bo, W. Xie, J.C. Ndamanisha, J. Bai, L. Guo, Electroanalysis, 2009 21 2549. 通讯作者: [1] A.C. Mtukula, X. Bo*, L. Guo*, Journal of Alloys and Compounds, 2017 692 614. [2] J. Liang, M. Hassan, D. Zhu*, L. Guo, X. Bo*, Journal of Colloid and Interface Science, 2017 490 576. [3] D. Geng, X. Bo*, L. Guo*, Sensors and Actuators, B: Chemical, 2017 244 131. [4] V.M. Bau, X. Bo*, L. Guo*, Journal of Energy Chemistry, 2017 26 63. [5] H. Zhang, X. Bo*, L. Guo*, Electrochimica Acta, 2016 201 117. [6] W. Xue, X. Bo*, M. Zhou, L. Guo*, Journal of Electroanalytical Chemistry, 2016 781 204. [7] A.C. Mtukula, J. Shen, X. Bo*, L. Guo*, Journal of Alloys and Compounds, 2016 655 229. [8] D. Geng, M. Li, X. Bo*, L. Guo*, Sensors and Actuators, B: Chemical, 2016 237 581. [9] Y. Zhao, X. Bo*, L. Guo*, Electrochimica Acta, 2015 176 1272. [10] Y. Zhao, X. Bo*, L. Guo*, International Journal of Hydrogen Energy, 2017, In Press. [11] Y. Zhang, X. Bo*, A. Nsabimana, A. Munyentwali, C. Han, M. Li, L. Guo*, Biosensors and Bioelectronics, 2015 66 191. [12] Y. Zhang, X. Bo*, A. Nsabimana, C. Han, M. Li, L. Guo*, Journal of Materials Chemistry A, 2015 3 732. [13] H. Zhang, X. Bo*, L. Guo*, Sensors and Actuators, B: Chemical, 2015 220 919. [14] J. Liu, X. Bo*, Z. Zhao, L. Guo*, Biosensors and Bioelectronics, 2015 74 71. [15] M. Li, Z. Zhao, X. Liu, Y. Xiong, C. Han, Y. Zhang, X. Bo*, L. Guo*, Analyst, 2015 140 6412. [16] M. Li, Y. Xiong, X. Liu, C. Han, Y. Zhang, X. Bo*, L. Guo*, Journal of Materials Chemistry A, 2015 3 9658. [17] M. Li, X. Liu, Y. Xiong, X. Bo*, Y. Zhang, C. Han, L. Guo*, Journal of Materials Chemistry A, 2015 3 4255. [18] M. Li, C. Han, Y. Zhang, X. Bo*, L. Guo*, Analytica Chimica Acta, 2015 861 25. [19] C. Han, X. Bo*, Y. Zhang, M. Li, A. Wang, L. Guo*, Chemical Communications, 2015 51 15015. [20] C. Han, X. Bo*, Y. Zhang, M. Li, A. Nsabimana, L. Guo*, Nanoscale, 2015 7 5607. [21] A. Nsabimana, X. Bo*, Y. Zhang, M. Li, C. Han, L. Guo*, Journal of Colloid and Interface Science, 2014 428 133. [22] M. Li, X. Bo*, Y. Zhang, C. Han, A. Nsabimana, L. Guo*, Journal of Materials Chemistry A, 2014 2 11672. [23] M. Li, X. Bo*, Y. Zhang, C. Han, L. Guo*, Journal of Power Sources, 2014 264 114. [24] C. Han, X. Bo*, Y. Zhang, M. Li, L. Guo*, Journal of Power Sources, 2014 272 267.

社会兼职

获奖情况 (数据来源:科学技术处、社会科学处)

教学信息 (数据来源:教务处)

科研信息 (数据来源:科学技术处、社会科学处)

  • 专著:
  • 1. ,,年
  • 论文:
  • 1. CoM(M=Fe,Cu,Ni)-embedded nitrogen-enriched porous carbon framework for efficient oxygen and hydrogen evolution reactions,J POWER SOURCES,2018年
  • 2. Encapsulation of platinum nanoparticles into a series of zirconium-based metal-organic frameworks: Effect of the carrier structures on electrocatalytic performances of composites,JOURNAL OF ELECTROANALYTICAL CHEMISTRY,2018年
  • 3. Contrastive study on porphyrinic iron metal-organic framework supported on various carbon matrices as efficient electrocatalysts,J COLLOID INTERF SCI,2018年
  • 4. Simultaneous and sensitive electrochemical detection of dihydroxybenzene isomers with UiO-66 metal-organic framework/mesoporous carbon,TALANTA,2017年
  • 5. One-step synthesis of porphyrinic iron-based metal-organic framework/ordered mesoporous carbon for electrochemical detection of hydrogen peroxide in living cells,SENSOR ACTUAT B-CHEM,2017年
  • 6. Porphyrinic metal-organic framework/macroporous carbon composites for electrocatalytic applications,ELECTROCHIM ACTA,2017年
  • 7. Comparative study of carbon fiber structure on the electrocatalytic performance of ZIF-67,ANAL CHIM ACTA,2017年
  • 8. Amperometric ascorbic acid biosensor based on carbon nanoplatelets derived from ground cherry husks,ELECTROCHEM COMMUN,2017年
  • 9. Synthesis of iron-based metal-organic framework@large mesoporous carbon composites and their electrocatalytic properties,JOURNAL OF ELECTROANALYTICAL CHEMISTRY,2017年
  • 10. Fe, Co bimetal activated N-doped graphitic carbon layers as noble metal-free electrocatalysts for high-performance oxygen reduction reaction,J ALLOY COMPD,2017年
  • 11. Ni-doped molybdenum disulfide nanoparticles anchored on reduced graphene oxide as novel electroactive material for a non-enzymatic glucose sensor,SENSOR ACTUAT B-CHEM,2017年
  • 12. Facile electrodeposition fabrication of molybdenum-tungsten sulfide on carbon cloth for electrocatalytic hydrogen evolution,INT J HYDROGEN ENERG,2017年
  • 13. Design and synthesis of integrally structured Ni3N nanosheets/carbon microfibers/Ni3N nanosheets for efficient full water splitting catalysis,JOURNAL OF MATERIALS CHEMISTRY A,2017年
  • 14. Electrochemical sensors and biosensors based on less aggregated graphene,BIOSENS BIOELECTRON,2017年
  • 15. Hybrid carbon nanowire networks with Fe-P bond active site for efficient oxygen/hydrogen-based electrocatalysis,NANO ENERGY,2017年
  • 16. A novel flower-like architecture of FeCo@NC-functionalized ultra-thin carbon nanosheets as a highly efficient 3D bifunctional electrocatalyst for full water splitting,JOURNAL OF MATERIALS CHEMISTRY A,2017年
  • 17. Cobalt nanoparticles/nitrogen-doped graphene with high nitrogen doping efficiency as noble metal-free electrocatalysts for oxygen reduction reaction,J COLLOID INTERF SCI,2017年
  • 18. An efficient electrocatalysts for the hydrogen evolution reaction based on molybdenum dioxide nanoparticles embedded porous graphene nanocomposite,INT J HYDROGEN ENERG,2017年
  • 19. Highly active non-precious metal electrocatalyst for the hydrogen evolution reaction based on nitrogen-doped graphene supported MoO2/WN/Mo2N,J ALLOY COMPD,2017年
  • 20. Nitrogen-doped cobalt nanoparticles/nitrogen-doped plate-like ordered mesoporous carbons composites as noble-metal free electrocatalysts for oxygen reduction reaction,JOURNAL OF ENERGY CHEMISTRY,2017年
  • 21. Molybdenum nitride/nitrogen-doped multi-walled carbon nanotubes hybrid nanocomposites as novel electrochemical sensor for detection L-cysteine,SENSOR ACTUAT B-CHEM,2016年
  • 22. Three-dimensional hierarchical meso/macroporous Fe/Co-nitrogen-doped carbon encapsulated FeCo alloy nanoparticles prepared without any template or surfactant: High-performance bifunctional oxygen electrodes,J ALLOY COMPD,2016年
  • 23. Enzymeless electrochemical detection of hydrogen peroxide at Pd nanoparticles/porous graphene,JOURNAL OF ELECTROANALYTICAL CHEMISTRY,2016年
  • 24. Facile synthesis of electrospinning Mn2O3-Fe2O3 loaded carbon fibers for electrocatalysis of hydrogen peroxide reduction and hydrazine oxidation,ELECTROCHIM ACTA,2016年
  • 25. Electrochemical preparation of Pt nanoparticles supported on porous graphene with ionic liquids: Electrocatalyst for both methanol oxidation and H2O2 reduction,ELECTROCHIM ACTA,2016年
  • 26. High utilization efficiency of NiCo2O4 supported on porous graphene as noble metal-free catalysts for oxygen reduction reaction,J ALLOY COMPD,2016年
  • 27. Electrochemical preparation of porous graphene and its electrochemical application in the simultaneous determination of hydroquinone, catechol, and resorcinol,SENSOR ACTUAT B-CHEM,2015年
  • 28. Highly exposed Pt nanoparticles supported on porous graphene for electrochemical detection of hydrogen peroxide in living cells,BIOSENS BIOELECTRON,2015年
  • 29. Dicobalt phosphide nanoparticles encased in boron and nitrogen co-doped graphitic layers as novel non-precious metal oxygen reduction electrocatalysts in alkaline media,CHEM COMMUN,2015年
  • 30. Highly exposed copper oxide supported on three-dimensional porous reduced graphene oxide for non-enzymatic detection of glucose,ELECTROCHIM ACTA,2015年
  • 31. Novel bamboo leaf shaped CuO nanorod@hollow carbon fibers derived from plant biomass for efficient and nonenzymatic glucose detection,ANALYST,2015年
  • 32. Ultrastable Polymolybdate-Based Metal-Organic Frameworks as Highly Active Electrocatalysts for Hydrogen Generation from Water,J AM CHEM SOC,2015年
  • 33. Iron and nitrogen co-doped carbon nanotube@hollow carbon fibers derived from plant biomass as efficient catalysts for the oxygen reduction reaction,JOURNAL OF MATERIALS CHEMISTRY A,2015年
  • 34. Facile synthesis of electrospun MFe2O4 (M = Co, Ni, Cu, Mn) spinel nanofibers with excellent electrocatalytic properties for oxygen evolution and hydrogen peroxide reduction,NANOSCALE,2015年
  • 35. Facile synthesis of various highly dispersive CoP nanocrystal embedded carbon matrices as efficient electrocatalysts for the hydrogen evolution reaction,JOURNAL OF MATERIALS CHEMISTRY A,2015年
  • 36. Noble metal-free electrocatalysts for the oxygen reduction reaction based on iron and nitrogen-doped porous graphene,JOURNAL OF MATERIALS CHEMISTRY A,2015年
  • 专利:
  • 一种钴金属有机框架/大孔碳复合物的制备方法 2016-04-13
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