һ�����˼��

¦��㣬�У���ʿ�������ڣ����ƿ�ѧ�빤��רҵ˶ʿ����ʦ������SCI����14ƪ���Ե�һ����/ͨѶ������Physical Review Letters, Applied Physics Letters, Journal of Applied Physics, Materials, Sensors����־����SCI����10��ƪ����Ȩ���������ҷ���ר��ʮ������ֹ�����Ȼ��ѧ����������Ŀ���ѽ��⣩���㶫ʡ��Ȼ��ѧ����ʿ������Ŀ���ѽ��⣩�������пƼ��ƻ���Ŀ���齭���ǣ����㶫ʡ�����о�����������ר��ӱ�ʡ�ߵ�ѧУ��Ȼ��ѧ����μ��˲���Ŀ�ȿ��п���5���ϵ��ʽ��loucunguang@163.com

������������

2017��6����������ѧ�������������ӹ���ѧԺ��ʿ��

2012��7�»�û���ʦ����ѧ��ѧ��ʿѧλ

���������

����ҽѧӰ����������������������Ӧ�ã�����ҽ���豸���źŴ�������ѵ���븨�����ƣ���ѧ����ϵͳ���ӷ����������΢�ɴ��������������̫����ʱ������ڼ���������Ӧ���о��ȡ�

�ġ���ѧ���

ҽѧ����ѧ��ҽѧӰ���豸ѧ��������ԭ����Ӧ�á�

�塢��������

2015��9��-�ӱ���ѧ����ѧԺҽ�������о����ģ�����ҽ�ƹ����ص�ʵ���ң�

2012��9��-2015��9���ڻ���ʦ����ѧ�������ѧ�о�Ժ�ν�ʦ

�������������������Ĵ����Կ�����Ŀ

[1] Cunguang Lou, Chenyao Pang, Congrui Jing, Shuo Wang, Xufeng He, Xiaoguang Liu, Lei Huang, Feng Lin, Xiuling Liu*, and Hongrui Wang*�� Dynamic Balance Measurement and Quantitative Assessment Using Wearable Plantar-Pressure Insoles in a Pose-Sensed Virtual Environment��Sensors, 2018, 18(4193):1-15. (SCI IF: 2.677)

[2] Cunguang Lou, Shuo Wang, Tie Liang, Chenyao Pang, Lei Huang, Mingtao Run and Xiuling Liu*, A Graphene-Based Flexible Pressure Sensor with Applications to Plantar Pressure Measurement and Gait Analysis, Materials, 2017, 10(1068):1-11. (SCI������IF: 2.654)

[3] Cunguang Lou,Ruikai Li, Zhaopeng Li, Tie Liang, Zihui Wei, Mingtao Run, Xiaobing Yan and Xiuling Liu*, Flexible Graphene Electrodes for Prolonged Dynamic ECG Monitoring, Sensors, 2016, 16(1833):1-12. (SCI������IF: 2.677)

[4] Cunguang Lou, Sihua Yang, Zhong Ji, Qun Chen, Da Xing*, Ultrashort microwave-induced thermoacoustic imaging: A breakthrough in excitation efficiency and spatial resolution, Physical Review Letters, 2012, 109(21):8101-8105.(SCIһ����IF: 8.462)

[5] Wenzheng Ding,Cunguang Lou, Jieshan Qiu, Zongbin Zhao, Quan Zhou, Minjie Liang, Sihua Yang, Zhong Ji, and Da Xing*, Thermoacoustic imaging by electromagnetic absorption-enhanced Fe-filled carbon nanotube for tumor detection, Nanomedicine, 2016, 12:235-244.(SCIһ��,IF: 5.72)

[6] Zhong Ji#,Cunguang Lou#, Yujiao Shi, Wenzheng Ding, Sihua Yang, and Da Xing*, A microwave detection way by electromagnetic and elastic resonance: Breaking the bottleneck of spatial resolution in microwave imaging, Applied Physics Letters, 2015, 107(6):2281-2288.(SCI����,IF: 3.411)

[7] Zhong Ji, Wenzheng Ding, Fanghao Ye, andCunguang Lou*,Handheld Thermoacoustic Scanning System Based on a Linear Array Transducer, Ultrasonic Imaging, 2015, 1-9.(SCI����,IF: 1.78)

[8] Yong Fu, Zhong Ji, Wenzheng Ding, Fanghao Ye, andCunguang Lou*, Thermoacoustic imaging over large field of view for three-dimensional breast tumor localization: A phantom study, Medical Physics, 2014, 41(110701):1-7.(SCI����,IF: 2.617)

[9] Cunguang Lou*, Liming Nie, Dong Xu,Effect of excitation pulse width on thermoacoustic signal characteristics and the corresponding algorithm for optimization of imaging resolution, Journal of Applied Physics, 2011, 110(0831):1-7.(SCI����,IF: 2.068)

[10] Cunguang Lou, Da Xing*, Photoacoustic measurement of liquid viscosity, Applied Physics Letters, 2010, 96(211102):1-3.(SCI����,IF: 3.411)

[11] Cunguang Lou, Da Xing*,Temperature monitoring utilising thermoacoustic signals during pulsed microwave thermotherapy: A feasibility study, International Journal of Hyperthermia, 2010, 26(4):338-346.(SCI����,IF: 3.262)

[12] Wenzheng Ding, Zhong Ji, Fanghao Ye,Cunguang Lou, and Da Xing*, Near-Field Microwave Distribution Measurement With a Point Detector Base on Thermoacoustic Effect, IEEE Transactions on Microwave Theory & Techniques, 2015, 63(10):3272-3276.(SCI����,IF: 2.897)

[13] Wenzheng Ding, Zhong Ji, Fanghao Ye,Cunguang Lou, and Da Xing*, Shape-adapting thermoacoustic imaging system based on flexible multi-element transducer, Applied Physics Letters, 2015, 107(9):026009-375.(SCI����,IF: 3.411)

[14] Zhong Ji,Cunguang Lou, Sihua Yang, Da Xing*,Three-dimensional thermoacoustic imaging for early breast cancer detection, Medical Physics, 2012, 39(11):6738-6745.(SCI����,IF: 2.617)

[15] Caijun Cao, Liming Nie,Cunguang Lou, Da Xing*, The feasibility of using microwave-induced thermoacoustic tomography for detection and evaluation of renal calculi, Physics in Medicine and Biology, 2010, 55(52):5203-5212.(SCI����,IF: 2.742)

�ߡ������

2017�꣬�������й���������+����ѧ�����´�ҵ����-�ӱ�ʡ������ָ����ʦ

2016�꣬�ڶ����й���������+����ѧ�����´�ҵ����-�ӱ�ʡ������ָ����ʦ

2016�꣬�ӱ�ʡ��У����μ��˲�

2015�꣬�㶫ʡ���㲩ʿѧλ���Ľ�

2015�꣬���Ľ������Ƽ���������ѧ�����Ķ��Ƚ�

2014�꣬�������齭�Ƽ�����