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姓 名:
 马楠
性    别:
专家类别:
 副研
学 历:
 博士研究生
电 话:
传 真:
电子邮件:
 manan@mail.sic.ac.cn
个人主页:
邮政编码:
 201899
通讯地址:
 上海市嘉定区和硕路585号

简历:

马楠:博士,副研究员。20159月毕业于日本九州大学,获得博士学位。201510月至20209月先后在中科院北京纳米能源与系统研究所和日本九州大学开展研究工作。20209月加入中科院上海硅酸盐研究所。主要从事功能陶瓷材料的可控制备及在微纳能源与传感领域的应用研究。目前已在Advanced MaterialsAdvanced Functional MaterialsNano EnergyACS Applied Materials & Interfaces等国际高水平期刊发表论文30余篇,其中以第一/共一作者发表论文14篇。应邀担任ACS Applied Materials & InterfacesRSC Advances等期刊审稿人 

 

研究方向

目前研究方向主要围绕功能陶瓷材料的设计和制备,以及相关能源与传感器件构筑和应用展开。

1. 高抗湿性氧化物半导体气体传感器的设计及气敏机理研究

2. 铁电光伏性能研究及在光电探测领域的应用

研究成果

  1. N. Ma, S. Ide, K. Suematsu, K. Watanabe, K. Shimanoe. Novel Solid Electrolyte CO2 Gas Sensors Based on c-Axis-Oriented Y-Doped La9.66Si5.3B0.7O26.14. ACS Appl. Mater. Interfaces 2020, 12, 21515-21520.
  2. R. Zhao#, N. Ma#, Y. Yang, Boosting Photocurrent via Heating BiFeO3 Materials for Enhanced Self-Powered UV Photodetectors. Adv. Funct. Mater. 2019, 1906232. (co-first author)
  3. N. Ma, Y. Yang, Boosted Photocurrent via Cooling Ferroelectric BaTiO3 Materials for Self-Powered 405 nm Light Detection. Nano Energy 2019, 60, 95-102.
  4. R. Zhao, N. Ma, J. Qi, Y. Yang, Optically Controlled Abnormal Photovoltaic Current Modulation with Temperature in BiFeO3 Material. Adv. Electron. Mater. 2019, 1800791.
  5. K. Song, N. Ma, Y. K. Mishra , R. Adelung, Y. Yang, Achieving Ligh-Induced Ultrahigh Pyroelectric Charge Density Toward Self-Powered UV Light Detection. Adv. Electron. Mater. 2018, 1800413.
  6. N. Ma, Y. Yang, Boosted Photocurrent in Ferroelectric BaTiO3 Materials via Two Dimensional Planar-Structured Contact Configurations. Nano Energy 2018, 50, 417-424.
  7. J. Qi#, N. Ma#, X. Ma, R. Adelung, Y. Yang, Enhanced Photocurrent in BiFeO3 Materials by Coupling Temperature and Thermo-Phototronic Effects for Self-Powered Ultraviolet Photodetector System. ACS Appl. Mater. Interfaces 2018, 10, 13712-13719. (co-first author)
  8. K. Suematsu, N. Ma, K. Watanabe, M. Yuasa, T. Kida, K. Shimanoe, Effect of Humid Aging on the Oxygen Adsorption in SnO2 Gas Sensors. Sensors, 2018, 18, 254.
  9. N. Ma, K. Zhang, Y. Yang, Photovoltaic-Pyroelectric Coupled Effect Induced Electricity for Self-Powered Photodetector System. Adv. Mater. 2017, 1703694.
  10. K. Song#, N. Ma#, Y. Yang, Enhanced Self-Powered UV Photoresponse of Ferroelectric PZT Materials by Pyroelectric Effect. Adv. Mater. Technol. 2017, 1700221. (co-first author)
  11. J. Qi#, N. Ma#, Y. Yang, Photovoltaic-Pyroelectric Coupled Effect Based Nanogenerators for Self-Powered Photodetector System. Adv. Mater. Interfaces 2017, 1701189. (co-first author)
  12. N. Ma, Y. Yang, Enhanced Self-Powered UV Photoresponse of Ferroelectric BaTiO3 Materials by Pyroelectric Effect. Nano Energy, 2017, 40, 352-359.
  13. K. Suematsu, M. Sasaki, N. Ma, M. Yuasa, K. Shimanoe, Antimony-Doped Tin Dioxide Gas Sensors Exhibiting High Stability in the Sensitivity to Humidity Changes. ACS Sensors, 2016, 1, 913-920.
  14. K. Suematsu, N. Ma, K. Kodama, M. Yuasa, T. Kida, K. Shimanoe, Vanadium Oxide Loading on Tin Dioxide Nanoparticles for Improving Gas Detection in A Humid Atmosphere. Mater. Lett. 2016, 179, 214-216.
  15. K. Suematsu, K. Kodama, N. Ma, M. Yuasa, T. Kida, K. Shimanoe, Role of Vanadium Oxide and Palladium Multiple Loading on the Sensitivity and Recovery Kinetics of Tin Dioxide Based Gas Sensors. RSC Adv. 2016, 6, 5169-5176.
  16. K. Suematsu, N. Ma, M. Yuasa, T. Kida, K. Shimanoe, Surface-Modification of SnO2 Nanoparticles by Incorporation of Al for the Detection of Combustible Gases in A Humid Atmosphere. RSC Adv. 2015, 5, 86347-86354.
  17. K. Suematsu, Y. Shin, N. Ma, T. Oyama, M. Sasaki, M. Yuasa, T. Kida, K. Shimanoe, Pulse-Driven Micro Gas Sensor Fitted with Clustered Pd/SnO2 Nanoparticles. Anal. Chem. 2015, 87, 8407-8415.
  18. N. Ma, K. Suematsu, M. Yuasa, K. Shimanoe, Pd Size Effect on the Gas Sensing Properties of Pd-Loaded SnO2 in Humid Atmosphere. ACS Appl. Mater. Interfaces, 2015, 7, 15618-15625.
  19. N. Ma, K. Suematsu, M. Yuasa, T. Kida, K. Shimanoe, Effect of Water Vapor on Pd-loaded SnO2 Nanoparticles Gas Sensor. ACS Appl. Mater. Interfaces, 2015, 7, 5863-5869.
  20. L. Zhu, B. P. Zhang, W. G. Yang, N. Ma, X. Zhao, L. Zhao, High Piezoelectric Properties of (Ba,Ca)TiO3-0.04LiF Ceramics Sintered at A Low Temperature. J. Electroceram. 2013, 30, 24-29.
  21. H. T. Li, B. P. Zhang, W. G. Yang, N. Ma, Influence of Sintering Temperature on the Structure and Piezoelectric Properties of ZnO-modified (Li,Na,K)NbO3 Lead-Free Ceramics. Int. J. Min. Met. Mater. 2012, 19, 843-848.
  22. N. Ma, B. P. Zhang, W. G. Yang, D. Guo, Low-Temperature Sintering of Li2O Doped BaTiO3 Lead-Free Piezoelectric Ceramics. J. Electroceram. 2012, 28, 275-280.
  23. N. Ma, B. P. Zhang, W. G. Yang, D. Guo, Phase Structure and Nano-Domain in High Performance of BaTiO3 Piezoelectric Ceramics. J. Eur. Ceram. Soc. 2012, 32, 1059-1066.
  24. W. G. Yang, B. P. Zhang, N. Ma, L. Zhao, High Piezoelectric Properties of BaTiO3-xLiF Ceramics Sintered at Low Temperatures. J. Eur. Ceram. Soc. 2012, 32, 899-904.
  25. H. T. Li, B. P. Zhang, M. Cui, W. G. Yang, N. Ma, J. F. Li, Microstructure, Crystalline Phase, and Electrical Properties of ZnO-Added Li0.06(Na0.535K0.48)0.94NbO3 Ceramics. Curr. Appl. Phys. 2011, 11, 184-188.
  26. N. Ma, B. P. Zhang, H. T. Li, W. G. Yang, Low-Temperature Sintering of Li2CO3 Doped BaTiO3 Lead-Free Piezoelectric Ceramics. Rare Metal Mater. Eng. 2011, 40, Suppl.1, 395-398.
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