SHUXIANG DONG, Ph.D, Professor
Materials Science & Engineering, College of Engineering, Peking University
EDUCATION
RESEARCH FIELD: Ferroelectric and Piezoelectric Materials & Devices
TEACHING
EXPERIENCES
May, 2008-present: Jan.1, 2000 – Dec., 2001: Post Doctoral Research
PROFESSIONAL SOCIETY ACTIVITY:
2 IEEE Member, Materials Research Society (MRS) member and Member of American Ceramic Society
3 Journal Reviewer for
IMPORTANT RESEARCH ACHIEVEMENTS:
AWARDS
Sept.1990-July.1993: Ph.D. Tsinghua University in Engineering Materials and Science Sept.1987-Dec.1989 M.S, Tsinghua University in Acoustical Physics
Mar.1978-Jan.1982 B.S, Wuhan University in Semiconductor Physics.
• Functional Materials & Devices (I)
• Fundamental of Morden Electronic Devices
International Center of Actuator & Transducers, Materials Research Laboratory, Penn State University, a leading of piezoelectric actuators & transducers center; Nov.1997-Dec.1999: Research Associate
Institute of Materials Research & Engineering, Singapore National University.
Jun.1993-Nov.1997: Lecturer, Associate Professor, Dept. of Mater. Sci.& Eng., Tsinghua University, Beijing, China
1. Invited speakers:
(1) Invited talk at IEEE- ISAF 2008 at Eldorado Hotel, Santa Fe, New Mexico, Feb. 25, 2008;
(2) Invited speaker at ICAT 50th Smart Actuator Symposium, held on October 9-10, 2007, Penn State University.
(3) Invited speaker at 2005 Spring Meeting of Materials Research Society, March 28-April 1, San Francisco, CA, USA.
(4) Invited speaker at 44th ICAT Smart Actuator Symposium, April 6&7, 2005, Penn State University. (5). Invited speaker at Electrical and Computer Engineering,Wayne State University, April, 2005.
(6) Invited speaker at Applied Physics, Hong Kong Polytechnic University, June, 2005. (7) Invited speaker at Materials Science & Engineering, Tsinghua University, July, 2005 (8). Invited speaker at Electrical and Computer Engineering,Nanjing University, Sept., 2004.
(9) Invited speaker at Aerospace and Mechanical Engineering, University of Southern California, July, 2000
• Physics Reviews B
• Applied Physics Letter/Journal of Applied Physics
• Journal of Materials Research
• Journal of Electroceramics
• IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control
• Sensors & Actuators, Physics, A
1) Created magnetoelectric equivalent circuit method and theory;
2) Discovery of the highest magnetoelectricity from (2-1) construction of magnetostrictive/piezoelectric laminated composites (a breakthrough in the research field); 3) Discovery of ultrahigh magnetic field sensitivity (~10-12 Tesla) from magneto-electric composites;
4) Discovery of sound resonance field mechanism for object detection;
5) Discovery of strong magnetoelectric voltage gain effect;
6) Discovery of strong magnetoelectric gyration effect;
7) Proposed piezoelectric-sound-resonance-cavity method for hydrogen gas detection;
8) World-smallest piezoelectric micromotor;
9) Proposed piezoelectric-electrorheological stepper motor;
10) Proposed piezoelectric ring-morph actuator;
11) Proposed piezoelectric single crystal cryogenic motor.
First Place Prize in Material Advances in MRL, The Pennsylvania State University (for 1.5mm diameter micromotor), Dec., 2000