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- Name:WU Wei
- Title:Dr.
- Office:Room 200-2, Smart Grid R&D Center
- Office Phone:+86-21-34666239
- Email:wei.wu@sjtu.edu.cn
- Website:
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Research Field
(1) Joints of Superconducting Wires;
(2) Closed-loop Superconducting Coils and Its Operation in Persistent Current Mode;
(3) Fabrication Process of 2G High Temperature Superconducting Tapes.
Education
Ph.D., Tsinghua University, 2008-2014
B.S., Tsinghua University, 2004-2008
Work experience
2017-Present, Research Assistant, Shanghai Jiao Tong University
2014-2017, Postdoctor, Shanghai Jiao Tong University
Research
Awards and Honors
Highlight Paper of “Superconductor Science and Technology”, 2013
Teaching
Publications
Papers:
[1] X. Wu, W. Wu, J. Zhu, T. Chang, Y. Zhao, Z. W. Zhang, Y. Pan, J. Zuo, Z. Li, Z. Hong, and Z. Jin, "Electromechanical Performance Study on Silver Diffusion Joints of REBCO Coated Conductors Under Axial Tensile Stress," IEEE Transactions on Applied Superconductivity, vol. 27, p. 6600806, 2017.
[2] D. Qiu, W. Wu, Y. Pan, S. Xu, Z. M. Zhang, Z. L. Li, Z. Y. Li, Y. Wang, Longbiao Wang, Y. Zhao, Z.-W. Zhang, P. Yang, Z. Hong, and Z. Jin, "Experiment and Numerical Analysis on Magnetic Field Stability of Persistent Current Mode Coil made of HTS Coated Conductors," IEEE Transactions on Applied Superconductivity, vol. 27, p. 4601605, 2017.
[3] D. Qiu, W. Wu, Y. Pan, Z. Y. Li, Y.Wang, S. Chen, Y. Zhao, Z. Zhang, P. Yang, X. B. Meng, J. Z. Tian, Y. Q. Zhou, Z. Hong, and Z. Jin, "Experiment Study on Magnetic Field Homogeneity of the Persistent Current Mode Helmholtz Coil made of HTS Coated Conductors," IEEE Transactions on Applied Superconductivity, vol. 27, p. 4601505, 2017.
[4] Y. Pan, J. Sheng, W. Wu, Y. Wang, W. Zeng, Y. Zhao, Z. W. Zhang, Z. Li, Z. Hong, and Z. Jin, "Numerical Study on Simplified Resistive Joints of Coated Conductors: Is There a Lower Limit of the Joint Resistance?," IEEE Transactions on Applied Superconductivity, vol. 27, p. 6601905, 2017.
[5] A. F. Zhao, X. F. Li, W. Wu, Z. Y. Li, Z. Jin, Z. Hong, Z. B. Jing, and Q. Guo, "AC Loss Characteristics of HTS Wires Carrying Currents with Different Waveforms," IEEE transactions on applied superconductivity, vol. 26, p. 8201805, 2016.
[6] J. Sheng, W. Zeng, W. Wu, J. Ma, Z. Li, Z. Jin, and Z. Hong, "Numerical Study on Silver Diffusion Joints of Coated Conductors by Finite-Element Method," IEEE transactions on applied superconductivity, vol. 26, p. 6600505, 2016.
[7] J. Ma, J. M. Zhu, W. Wu, J. Sheng, Z. H. Yao, Z. B. Jing, Q. Guo, Z. Y. Li, Z. Jin, and Z. Hong, "Axial tension and Overcurrent Study on a Type of Mass-Producible Joint for ReBCO Coated Conductors," IEEE transactions on applied superconductivity, vol. 26, p. 8400505, 2016.
[8] W. Wu, F. Feng, Y. Zhao, X. Tang, J.-C. Grivel, Z. Han, Z. Hong, and Z. Jin, "Intermediate Phase Study on YBCO Films Coated by Precursor Solutions with F/Ba Atomic Ratio of 2," IEEE transactions on applied superconductivity, vol. 26, pp. 1-5, 2016.
[9] W. Wu, F. Feng, Y. Zhao, Z. Hong, Z. Jin, and Z. Han, "Study on PEG assisted TFA-MOD Method for Rapid Fabrication of YBa2Cu3O7-δ Thin Films: Influence of PEG Additive Amount in Precursor Solutions," 2015 IEEE International Conference on Applied Superconductivity and Electromagnetic Devices, vol. accepted, 2015.
[10] W. Wu, F. Feng, K. Shi, W. Zhai, T. Qu, R. Huang, X. Tang, X. Wang, Q. Hu, J.-C. Grivel, and Z. Han, "A rapid process of YBa2Cu3O7−δthin film fabrication using trifluoroacetate metal–organic deposition with polyethylene glycol additive," Superconductor Science and Technology, vol. 26, p. 055013, 2013.
[11] W. Wu, F. Feng, Y. Zhao, X. Tang, Y. Xue, K. Shi, R. Huang, T. Qu, X. Wang, Z. Han, and J.-C. Grivel, "A low-fluorine solution with a 2:1 F/Ba mole ratio for the fabrication of YBCO films," Superconductor Science and Technology, vol. 27, p. 055006, 2014.
[12] Y. Zhao, W. Wu, X. Tang, and J. C. Grivel, "Influence of interface reactions on the YBCO films grown by fluorine-free solution route," in IEEE International Conference on Applied Superconductivity and Electromagnetic Devices, ASEMD 2015, November 20, 2015 - November 23, 2015, Shanghai, China, 2015, pp. 384-385.
[13] Y. Zhao, L. Ma, W. Wu, H. L. Suo, and J. C. Grivel, "Study on advanced Ce0.9La0.1O2/Gd2Zr2O7 buffer layers architecture towards all chemical solution processed coated conductors," Journal of Materials Chemistry A, vol. 3, pp. 13275-13282, 2015.
[14] X. Tang, Y. Zhao, W. Wu, and J. C. Grivel, "Effect of BaZrO3/Ag hybrid doping to the microstructure and performance of fluorine-free MOD method derived YBa2Cu3O7−x superconducting thin films," Journal of Materials Science: Materials in Electronics, vol. 26, pp. 1806-1811, 2015.
[15] X. Tang, Y. Zhao, W. Wu, N. H. Andersen, and J. C. Grivel, "High-Jc YBa2Cu3O7−x-Ag superconducting thin films synthesized through a fluorine-free MOD method," Journal of the European Ceramic Society, vol. 35, pp. 1761-1769, 2015.
[16] Y. Zhao, W. Wu, X. Tang, N. H. Andersen, Z. Han, and J.-C. Grivel, "Epitaxial growth of YBa2Cu3O7−x films on Ce0.9La0.1O2−y buffered yttria-stabilized zirconia substrates by an all-chemical-solution route," CrystEngComm, vol. 16, p. 4369, 2014.
[17] Y. Zhao, X. Tang, W. Wu, and J.-C. Grivel, "Phase Evolution of YBa2Cu3O7-x films by all-chemical solution deposition route for coated conductors," Journal of Physics: Conference Series, vol. 507, p. 012056, 2014.
Patents:
[1] A method for the fabrication of high temperature superconductor films using a precursor solution with controllable F/Ba ratio. ZL201310354477.5
[2] Fabrication method of high temperature superconductor thin films. ZL201310037983.1
[3] A method for the fabrication of rare earth barium cuprate films. ZL201310617065.6
[4] A method for YBCO thin film fabrication using a non-water based precursor solution. ZL201210120737.8
Others