杨楠

时间:2019-05-09浏览:4780设置

杨楠课题组先容


课题组长
杨楠,助理教授、研究员
通讯地址:5号楼205G
电子邮件:yangnan@shanghaitech.edu.cn 
个人简历:
2013年毕业于罗马大学化学科学与技术学会,获得博士学位;
2013年至2014年, 于罗马大学信息技术工程学会从事博士后研究;
2014年至2016年3月,任尼可罗库萨诺大学工程系材料物理研究员,主要任讲课程为大学物理(力学与热力学),曾多次参与位于美国橡树岭国家实验室以及欧洲几大光源的先进材料表征实验;
2016年4月,加入太阳集团娱乐网址,任助理教授。
Dr. Nan Yang obtained her Ph.D degree in School of Chemical Science and Technology at University of Rome in 2013. She carried out her postdoc research activity in the same institute till 2014。 Later, she was appointed as Researcher (Assistant Professor) at School of Engineering from 2014 to March 2016. 
From April 2016 to now, Assistant Professor (Tenure-track), School of Physical Science and Technology, ShanghaiTech University.

研究先容

课题组致力于设计制备高质量外延单层和/或异质薄膜的理想模型材料,用于研究表面电化学反应以及体向离子,电子传导现象。厘清上述反应,传导中的关键决速步,服务于开发及设计低价,高效,稳定的电化学材料。主要的应用方向包括,固体氧化物燃料电池,水解池以及微型传感及探测器件等等。


We aim to design and fabrication of the high property epitaxial thin film/ heterostructure for different novo electrochemical devices in the field of energy conversion, catalyst etc. Based on the modal material/structures the surface electrochemical reaction and the ionic/electric conduction in the surface/interface/bulk can be investigated. To get the critical step of these reaction and transferring process will help us to develop new materials with low cost, high performance and stability. The main thin film based application we focused includes solid oxide fuel cells (SOFCs), water splitting devices and micro detector/sensor etc.


固体氧化物燃料电池

固体氧化物燃料电池是可以直接将化学能转化为电能的一种电化学储能器件。课题主聚焦微型固体氧化物燃料电池的设计与制备。利用先进的薄膜加工将电池中的主要组件薄膜化。通过与硅片工艺相兼容的微纳加工技术,将电池进一步微小化,服务于便携领域。

Solid oxide fuel cell (SOFC) is a device which can convert chemical energy into electricity. We focus on the design and fabrication of micro solid oxide fuel cells (μ-SOFCs). Advanced thin film processing technologies ensure the key component of these devices. The furtherly miniaturizing of cells can be realized through micro/nano processing combining with silicon wafer technology, which can be suitable for the portable applications.


水解池

通过水解将能量(电能或光能)以化学能的形式储存是解决人类对可持续洁净能源要求的一种可行思路。该技术可以解决化石能源逐步短缺以及对环境影响的问题。理解水解过程中两个半反应(Oxygen Evolution Reaction/Hydrogen Evolution Reaction)的反应路径,找到低价,高效的催化材料是该领域的研究重点。课题组以3d过渡金属氧化物以及硫化物为主要研究对象,通过原子级掺杂,微结构调控,以及应力调控等手段,对催化剂的活性进行优化,致力于找到替代以贵金属及对应氧化物的高效催化材料。

Storing the energy (electric or light one) in the form of chemical energy with the help of hydrolysis, is a feasible way to solve the demand of sustainable and clean energy, which can help in the problem about fossil energy shortage and its impact in environment. To understand the two half-reactions (Oxygen Evolution Reaction/Hydrogen Evolution Reaction) in hydrolysis process and explore cheap and high efficient catalytic materials are key points in this field. The research group takes 3d transition metal oxides and sulfides as the main target, optimizes the activity of catalysts through different ways like atomic doping, micro-structure regulation and strain tuning, and tries to find efficient catalytic materials to replace precious metals and corresponding oxides.


微型传感器件

传感器传感器是将物理、化学、生物等自然科学和机械、土木、化工等工程技术中的非电信号转换成电信号的换能器。课题组主要致力于设计制备微型电化学池结构的传感器件,主要对象为气体或不同波段光的检测。

Sensor is a transducer that converts non-electric signals from natural sciences like physics, chemistry, biology, and engineering technologies like mechanics, civil and chemical engineering, into electrical signals. The research group is mainly devoted to the design and fabrication of sensors with micro-electrochemical cell structure, mainly for the detection of gases or testing of light with different wavelength.

课题组欢迎优秀博士后,硕/博士研究生,和本科生加入!有意者请邮件至 yangnan@shanghaitech.edu.cn。
We cordially welcome master students, Ph. D candidates, postdoctoral fellows who are outstanding and enthusiastic about our research to join us. Please send the mail to yangnan@shanghaitech.edu.cn for further enquiry.

发表论文
  1. Zhao Liu; Francesca Zarotti; Yanuo Shi*; Nan Yang*Dislocations Promoted A-Site Non-Stoichiometry and Their Impacts On Proton Transport Properties of Epitaxial Barium Zirconate Thin Films, The Journal of Physical Chemistry C, 123, 20698?20704 (2019)

  2. Yanuo Shi; Renjie Xie; Xuetao Liu; Nian Zhang; Carmela Aruta; Nan Yang*Tunable pH-Dependent Oxygen Evolution Activity of Strontium Cobaltite Thin Films for Water Splitting, Physical Chemistry Chemical Physics, 21, 16230-16239, (2019)

  3. Z. Zhu, C. Zhou , W. Zhou and Nan Yang, Textured Sr2Sc0.1Nb0.1Co1.5Fe0.3O6-2deltaThin Film Cathodes for IT-SOFCs, Materials 12, 777, (2019).

  4. Z. Zhu, Y. Shi, C. Aruta, and Nan Yang, Improving Electronic Conductivity and Oxygen Reduction Activity in Sr-Doped Lanthanum Cobaltite Thin Films: Cobalt Valence State and Electronic Band Structure Effects, ACS Appl. Energy Mater. 1, 5308?5317, (2018).

  5. R. Felici, C. Aruta, Nan Yang, F. Zarotti, V.Foglietti, C. Cantoni, A. Tebano, F. Carlà, and G. Balestrino, Regular Network of Misfit Dislocations at the BaZr0.8Y0.2O3-x/NdGaO3 Interface and Its Role in Proton Conductivity, Phys. Status Solidi B , 1, 800217 (2018).

  6. V. Foglietti, Nan Yang, C. Aruta, P. Orgiani, F. Di Pietrantonio, D. Cannata,  M.Benetti, and G. Balestrino, Ion Charge Dynamics in Ceria-Based Metal Insulator Metal Structure, J. Phys. Chem. C 121, 23406-23412 (2017).

  7. Nan Yang, P. Orgiani, E. Di Bartolomeo, Vi. Foglietti, P. Torelli, A. V. Ievlev, G. Rossi, S.Licoccia,G. Balestrino, S. V. Kalinin, and C. Aruta, Effects of Dopant Ionic Radius on Cerium Reduction in Epitaxial Cerium Oxide Thin Films,  J. Phys. Chem. C ,121, 8841?884 (2017).

  8. V. Foglietti, Nan Yang, C. Aruta, F. Di Pietrantonio, D. Cannatà, M. Benetti and G.Balestrino, High plasticity reversible resistive switching in heteroepitaxial metal/CeO2?x/Nb:SrTiO3/Ti/Pt structures,Nanotechnology, 27,375705, (2016).

  9. Nan Yang, E. Di Bartolomeo, V. Foglietti, C. Cantoni, A.Belianinov, A. Tebano1,Silvia Licoccia, T.-L. Lee, C. Schlueter, S. V. Kalinin,4 G. Balestrino, and C. Aruta, Microstructure And Compositional Defects Affects Proton Conductivity And Reactions In Y-Doped BaZrO3 Thin Films, ECS Transactions, 72 (7) 149-158 (2016).

  10. C. Aruta, C. Han, S. Zhou, C. Cantoni, Nan Yang, A. Tebano, Tien-Lin Lee, C. Schlueter, and A. Bongiorno, A Site Cation Substitutions in Strained Y Doped BaZrO3 Multilayer Films Leading to Fast Proton Transport Pathways, J. Phys. Chem. C  120, 8387?8391 (2016).

  11. Nan Yang, Y. Shi, S. Schweiger,E. Strelcov, A. Belianinov, V. Foglietti, P. Orgiani, G.Balestrino, S.V. Kalinin, J.L. M. Rupp, and Carmela Aruta, Role of Associated Defects in Oxygen Ion Conduction and Surface Exchange Reaction for Epitaxial Samaria-Doped Ceria Thin Films as Catalytic Coatings, ACS Appl. Mater. Interfaces 8, 14613?14621(2016).

  12. F. Lavini, Nan Yang, R. K Vasudevan, E Strelcov,S Jesse, M B Okatan, I Kravchenko, Daniele Di Castro,Sergei V Kalinin, Giuseppe Balestrino, Carmela Aruta and Vittorio Foglietti, Bias assisted scanning probe microscopy direct write lithography enables local oxygen enrichment of lanthanum cuprates thin films, Nanotechnology, 26,325302,  (2015).

  13. Nan Yang, E. Strelcov, A. Belianinov, A. Tebano, V. Foglietti, C. Schlueter, T.-Lin Lee, S. Jesse, S. V. Kalinin, Giuseppe Balestrino, and C. Aruta, Effect of Water Adsorption on Conductivity in Epitaxial Sm0.1Ce0.9O2-δ Thin Film for Micro Solid Oxide Fuel Cells Applications, ECS Trans. 2015 69(16): 39-48 (2015).

  14. Nan Yang, C. Cantoni, V. Foglietti, A. Tebano, A. Belianinov, E. Strelcov, S. Jesse, D. Di Castro, E. Di Bartolomeo, S. Licoccia, S. V. Kalinin, G. Balestrino and C. Aruta, Defective interfaces in Yttrium-doped Barium Zirconate films and consequences on proton conduction, Nano Letters, 15 (4), pp 2343–2349 (2015).

  15. Nan Yang, A. Belianinov, E. Strelcov, A. Tebano, V. Foglietti, D. Di Castro, C. Schlueter, Tien-Lin Lee, A. P. Baddorf, N. Balke, S. Jesse, S. V. Kalinin, G. Balestrino, and C. Aruta, “Effect of Doping on Surface Reactivity and Conduction Mechanism in Sm-doped CeO2 Thin Films”, ACS Nano8 (12), pp 12494–12501 (2014).

  16. Nan Yang, A. Tebano, D. Di Castro, G. Balestrino, A. D’Epifanio, S.Licoccia and E. Di Bartolomeo, Deposition and electrochemical characterization of Yttrium doped Barium cerate and zirconate heterostructures. Thin Solid Films (2014) http://dx.doi.org/10.1016/j.tsf.2014.04.073.

  17. Nan Yang, S. Doria, A. Kumar, Jae Hyuck Jang, T. M. Arruda, A. Tebano, S. Jesse, Ilia N.Ivanov, A. P. Baddorf, E. Strelcov, S. Licoccia, A. Y. Borisevich, G. Balestrino and S. V. Kalinin. Water-mediated electrochemical nano-writing on thin ceria films, IOP       Nanotechnology 25, 075701 (2014).

  18. Nan Yang, D. Di Castro, C. Aruta, C. Mazzoli, M. Minola, N. Brookes, M. Moretti Sala,W. Prellier, O. I. Lebedev, A. Tebano, and G. Balestrino, Charge transfer at the interface between La1-xSrxMnO3and the CaCuO2 “infinite layers” cuprate, Journal of Applied Physics 112 (2012).

  19. Nan Yang, A. D’Epifani, E. Di Bartolomeo, C. Pugnalini, A. Tebano, G. Balestrino, S. Licoccia, “La0.8Sr0.2Ga0.8Mg0.2O3-x thin films for IT-SOFCs: microstructure and transport properties correlation”, Journal of Power Sources, 222,10 (2012).

  20. D. Di Castro, C. Cantoni, F. Ridolfi, C. Aruta, A. Tebano, Nan Yang, G. Balestrino, High Tc superconductivity at the interface between an insulating Infinite Layers Cuprate and SrTiO3, Physics Review Letters, 115(14):147001 (2015).

  21. F.Lavini, Nan Yang, R.Vasudevan, E.Strelkov, S.Jesse, M.Okatan, I.Kravchenko, D.Di Castro. S.Kalinin,G. Balestrino, C.Aruta and V. Foglietti, Bias assisted SPM direct write lithography enables local oxygen enrichment of lanthanum cuprates thin fi lms, Nanotechnology 26(32):325302,(2015).

  22. T. Farrow , Nan Yang , S. Doria , A. Belianinov , S. Jesse , T. M Arruda , G. Balestrino , S. V. Kalinin , A. Kumar, Sub-nA spatially resolved conductivity profiling of surface and interface defects in ceria films, APL Materials, 3, 036106 (2015).

  23. V. Foglietti, Nan Yang, A. Tebano, C. Aruta, E. Di Bartolomeo, S. Licoccia, C. Cantoni, G. Balestrino, Heavily strained BZY interfaces with enhanced transport properties, Applied Physics Letters 104 , 081612(2014).

  24. S. Doria, Nan Yang, A. Kumar, S. Jesse, A. Tebano, C. Aruta, E. Di Bartolomeo, S. V.Kalinin, T. M. Arruda, S. Licoccia, G. Balestrino, Nanoscale mapping of oxygen vacancykinetics in nanocrystalline Samarium doped ceria thin films, Applied Physics Letters 103,171605(2013).

  25. E. Di Bartolomeo, A. D’Epifanio, N. Yang, A. Tebano, G. Balestrino, and S. LicocciaYttrium Doped Barium Cerate And Zirconate Heterostructures: Deposition And Electrochemical Characterization, ECS Transactions, 57, 1059(2013).

  26. A. Kumar, S. Jesse, A. Morozovska, E. Eliseev, A. Tebano, Nan Yang and S.V. Kalinin,Variable Temperature Electrochemical Strain Microscopy of Sm-doped Ceria, Nanotechnology 241, 45401 (2013).



课题组照片




本组成员

施亚诺

 博士后研究员
 苏黎世联邦理工大学(ETHZ)博士
 研究方向:电化学薄膜,能量转换器件,光电化学电池

邮箱:shiyn@shanghaitech.edu.cn

刘朝

 2018级博士研究生(直博)
 华中科技大学 学士
 研究方向:固体氧化物燃料电池薄膜电极、电解质离子输运研究

邮箱:liuzhao1@shanghaitech.edu.cn

解忍杰

 2017级硕士研究生
 浙江理工大学 学士
 研究方向:过渡金属氧化物的电催化水解

邮箱:xierj@shanghaitech.edu.cn

王新宇

 2017级硕士研究生
 哈尔滨工程大学 学士
 研究方向:氧化物半导体薄膜的生长表征以及异质结器件的组建

邮箱:wangxy4@shanghaitech.edu.cn

颜晓燕

 2018级硕士研究生
 上海大学 学士
 研究方向:光水解

邮箱:yanxy@shanghaitech.edu.cn

聂志威

 2018级硕士研究生
 浙江理工大学 学士
 研究方向:过渡金属硫化物的薄膜生长与表征

邮箱:niezhw@shanghaitech.edu.cn

王璐瑶

 2019级硕士研究生(保研)
 太阳集团娱乐 学士(2019届)
 研究方向:新型固态离子器件,光电化学池

邮箱:wangly2@shanghaitech.edu.cn

吴进

 2019级硕士研究生
 浙江理工大学 学士
 研究方向:TBD                      

邮箱:wujin@shanghaitech.edu.cn

任心月

 2017级本科生

邮箱:renxy1@shanghaitech.edu.cn

诸曹旸

 2017级本科生

邮箱:zhucy@shanghaitech.edu.cn



Alumni

朱兆鑫

 2016级硕士生
 太阳集团娱乐/中国科学会大学-上海硅酸盐研究所 联合培养


曹庆博

 2017级本科生
 太阳集团娱乐
 目前UC Berkley访学

邮箱:caoqb@shanghaitech.edu.cn


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