彭斌 邮箱：bpeng@uestc.edu.cn
电话：
系别：微电子与固体电子系
职称：教授
教师个人主页：http://faculty.uestc.edu.cn/pengbin


教师简介
教育背景
2003－2008 电子科技大学，微电子与固体电子学，博士学位
1998 - 2001 电子科技大学，材料物理与化学，硕士学位
1994－1998 电子科技大学，电子材料与元器件，学士学位
工作履历
2014.08－至今 电子科技大学，教授
2008 - 2014 电子科技大学，副教授
2013 - 2014 新加坡国立大学，访问****

科学研究
研究方向
（1）敏感材料与无线无源传感器
利用对温度、应变等敏感的材料来设计开发无线无源温度、应变、压力、扭矩传感器等。目前主要设计开发LC谐振的无线无源传感器以及基于声表面波（SAW）谐振器的无线无源传感器。
采用无源无线温度传感器系统，可以对较为复杂以及苛刻的环境进行便捷的测试，如对于封闭空间或者旋转物体的测试，而且适合长期监测被测点的温度，其低成本，灵敏度高。

AlN薄膜 SAW谐振器

SAW无线无源传感器原理 SAW无线传感器的应变响应



LC谐振无线传感器 无线测试电路系统


（2）电子薄膜与微波器件
研究铁氧体薄膜、TaN薄膜等材料的制备及其在微波器件如微波环行器、隔离器、衰减器、匹配负载器件中的应用。

铁氧体环行器 微波负载器件1 微波负载器件2


（3）磁性薄膜与自旋电子学
研究金属软磁薄膜在磁性传感器中的应用，以及磁性薄膜的高频磁导率、自旋泵（spin pumping）、逆自旋霍尔效应（Inverse Spin Hall Effect）、自旋波（spin wave）等。
自旋电子学中，自旋被作为信息储存和传输的载体，因此，产生、操纵以及探测自旋流始终是实现自旋电子器件的最基本和最关键的技术问题。利用spin pumping来产生自旋流，利用inverse spin hall效应来检测自旋流是当前自旋电子学的研究热点。

代表性论文:
(32)Qiuru Wang, Wanli Zhang and Bin Peng*, Universality and difference of electronic and spin transport properties at the irradiated oxide surface, J. Phys. D: Appl. Phys. 50 (2017) 375302.
(31)Xingpeng Liu, Bin Peng*, Wanli Zhang, Jun Zhu, Xingzhao Liu and Meng Wei, Improvement of high-temperature stability of Al₂O₃/Pt/ZnO/Al₂O₃ film electrode for SAW devices by using Al₂O₃ barrier layer, Materials 10(2017)1377.
(30)Xingpeng Liu, Bin Peng*, Wanli Zhang, Jun Zhu, Xingzhao Liu and Meng Wei, Novel AlN/Pt/ZnO Electrode for High Temperature SAW Sensors, Materials, 10(1)(2017)69.
(29)Lin Shu, Bin Peng*, Yilin Cui, Dongdong Gong, Zhengbing Yang, Xingzhao Liu and Wanli Zhang, Effects of AlN Coating Layer on High Temperature Characteristics of Langasite SAW Sensors, Sensors, 16(9)(2016)1436.
(28)Lin Shu, Bin Peng*, Yilin Cui, Dongdong Gong, Xingzhao Liu, Wanli Zhang, High temperature characteristics of AlN film SAW sensor integrated with TC4 alloy substrate, Sensors and Actuators A: Physical, 249 (2016) 57-61.
(27)Bin Peng*, Dongdong Gong, Wanli Zhang, Jianying Jiang, Lin Shu and Yahui Zhang, Effects of Sputtering Parameters on AlN Film Growth on Flexible Hastelloy Tapes by Two-Step Deposition Technique, Materials 9(2016)686.
(26)Bin Peng*, Jianying Jiang, Guo Chen, Lin Shu, Jie Feng,Wanli Zhang,Xinzhao Liu, Preparation of highly c-axis oriented AlN thin films on Hastelloy tapes with Y2O3 buffer layer for flexible SAW sensor applications, Funct. Mater. Lett. 9(2)(2016)**.
(25)Lin Shu, Bin Peng*, Chuan Li, Dongdong Gong, Zhengbing Yang, Xingzhao Liu and Wanli Zhang, The Characterization of Surface Acoustic Wave Devices Based on AlN-Metal Structures, Sensors, 16(2016)526.
(24)Wenxu Zhang*, Bin Peng, Fangbin Han, Qiuru Wang, Wee Tee Soh, Chong Kim Ong and Wanli Zhang, Separating inverse spin Hall voltage and spin rectification voltage by inverting spin injection direction, Applied Physics Letters, 108(2016)102405.
(23)韩方彬,张文旭*,彭斌,张万里,NiFe/Pt薄膜中角度相关的逆自旋霍尔效应研究,物理学报,64(24)(2015)247202.
(22) Lin Shu, Bin Peng*, Zhengbing Yang, Rui Wang, Senyang Deng and Xingzhao Liu, High-Temperature SAW Wireless Strain Sensor with Langasite, Sensors 15(11)(2015)28531-28542.
(21)Wee Tee Soh, Bin Peng, and C. K. Ong, Non-local detection of spin dynamics via spin rectification effect in yttrium iron garnet/SiO2/NiFe trilayers near simultaneous ferromagnetic resonance, AIP Advances 5(2015)087184.
(20)Jianying Jiang, Bin Peng*, Wanli Zhang, Yu Wang, Lin Shu, and Rui Wang, Growth of c-axis oriented AlN thin films on titanium alloy substrate by middle frequency magnetron sputtering, J. Vac. Sci. Technol. A, 33(2015)041509.
(19)Lin Shu, Jianying Jiang, Bin Peng*, Yu Wang and Xingzhao Liu, AlN film SAW resonator integrated with
metal structure, Electronics letters, 51(5)(2015)379–380.
(18)Wee Tee Soh, Bin Peng, and C. K. Ong，Localized excitation of magnetostatic surface spin waves in yttrium iron garnet by shorted coaxial probe detected via spin pumping and rectification effect, J. Appl. Phys. 117(2015)153903.
(17)Wee Tee Soh, Bin Peng, C K Ong, An angular analysis to separate spin pumping-induced inverse spin Hall effect from spin rectification in a Py/Pt bilayer, J. Phys. D: Appl. Phys. 47(2014)285001.
(16)Soh Wee Tee, Peng Bin, Chai Guozhi, Ong C K, Note: Electrical detection and quantification of Spin Rectification Effect enabled by shorted microstrip transmission line technique, The Review of scientific instruments, 85(2)(2014) 026109.
(15)Peng Bin*, Phuoc Nguyen N., Ong C. K., High-frequency magnetic properties and their thermal stability in diluted IrMn-Al2O3/FeCo exchange-biased multilayers, JOURNAL OF ALLOYS AND COMPOUNDS, 602(2014) 87-93.
(14)Peng Bin*, Wang Yuan, Xu Hui-Zhong, Zhang Wen-Xu, Zhang Wan-Li, Design and fabrication of self-biased millimeter wave circulator using barium ferrite thin films, JOURNAL OF INFRARED AND MILLIMETER WAVES, 32(4)(2013) 294-297.
(13)Peng B*., Zhang W. L., Xie Q. Y., Zhang W. X., Jiang H. C., Effect of sputtering pressure on microstructure and magnetic properties of amorphous FeCoSiB films, JOURNAL OF NON-CRYSTALLINE SOLIDS, 365(2013) 59-62.
(12)Peng Bin*, Wang Yuanchao, Zhang Wanli, Zhang Wenxu, Tan Ke, MAGNETIC FIELD ALIGNMENT OF BARIUM FERRITE THICK FILMS FOR MICROWAVE CIRCULATOR APPLICATIONS, MODERN PHYSICS LETTERS B, 26(26)(2012) **.
(11)Peng Bin*, Zhang Wanli, Xie Qiaoying, Zhang Wenxu, Magnetic anisotropy control in amorphous FeCoSiB films by stress annealing, THIN SOLID FILMS, 520(2)(2011) 761-763.
(10)Peng Bin*, Xu Huizhong, Li Hui, Zhang Wenxu, Wang Yuan, Zhang Wanli, Self-Biased Microstrip Junction Circulator Based on Barium Ferrite Thin Films for Monolithic Microwave Integrated Circuits, IEEE TRANSACTIONS ON MAGNETICS, 47(6)(2011) 1674-1677.
(9)Peng B*., Zhang W. L., Liu J. D, Zhang W. X., Stress impedance effect of FeCoSiB/Cu/FeCoSiB sandwich layers on flexible substrate, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 323(11)(2011) 1574-1576.
(8)B. Peng*, W.L. Zhang, H.C. Jiang, W.X. Zhang, Coercivity in stressed amorphous FeCoSiB thin films, PHYSICA B-CONDENSED MATTER, 405(3)(2010) 916-918.
(7)B. Peng, Q.Y. Xie, B.K. Shen, W.X. Zhang, H.C. Jiang, W.L. Zhang, An investigation of the magnetic domains in the stressed amorphous FeCoSiB magnetoelastic films, Journal of Non-Crystalline Solids, 354 (2008) 978-981.
(6)B. Peng, W.L. Zhang, Q.Y. Xie, H.C. Jiang, W.X. Zhang, Y.R. Li, Study on the magnetic domain and anisotropy of FeCoSiB amorphous films fabricated by strained growth method，Journal of Magnetism and Magnetic Materials, 318 (2007) 14-17.
(5)B. Peng, Q. Y. Xie, W. L. Zhang, Z. Y. Zhong, Stress dependence of magnetic domains in FeCoSiB amorphous films，Journal of Applied Physics，101(2007)09C511.
(4)B.Peng, W.L.Zhang, W.X.Zhang, H.C.Jiang, S.Q.Yang, Effects of stress on the magnetic properties of the amorphous magnetic films， Physica B, 382 (2006)135-139.
(3)B. Peng, W. L. Zhang, J. Q. Liao,H. C. Jiang, W. X. Zhang, Geometric and mechanical considerations for the design of the magnetostrictive thin film actuators，Mechanics Based Design of Structures and Machines,34(2006)69-79.
(2)B. Peng, W.L. Zhang, G.H. Chen, W.X. Zhang, H.C. Jiang, Modeling microwave behaviors of series cantilever MEMS switch，Sensors and Actuators A，125(2006) 471–476.
(1)B. Peng, W.L. Zhang, W.X. Zhang, H.C. Jiang, S.Q. Yang, Simulations of stress impedance effect in magnetoelastic films，Journal of Magnetism and Magnetic Materials, 288(2005)326-330.




主讲课程