Projects
1. 生物组织热消融动态物理特性
(Dynamic physical characteristics of biological tissue during thermal ablation)
2. 肌骨界面高强度聚集超声热消融
(High-intensity focused ultrasound ablation at muscle-bone interface)
3. 生物组织热消融超声多参量鉴别监控成像
(Ultrasound multi-parametric monitoring imaging for thermal ablation)
4.聚焦超声场流动生物微纳材料空化增效
(Cavitation-enhanced effects of flowing micro-nano biomaterialsby focused ultrasound)
5.经颅超声脑神经调控机制与应用研究
(Mechanism and applications of transcranial ultrasound neuromodulation)
News
祝贺课题组美国发明专利获得授权!
2021-06-06
祝贺课题组硕士研究生曹芳媛、贾鑫分别荣获得学业奖学金一等奖、二等奖
2020-11-29
祝贺课题组李大鹏博士荣获2020年国家奖学金
2020-11-18
祝贺课题组硕士研究生李谢婧同学荣获特等奖学金!
2020-11-16
祝贺课题组发明专利《用于经颅超声神经刺激的脑部电生理信号记录装置及方法》获得授权!
2020-11-10
祝贺王梦珂博士会议论文被IEEE International Ultrasonics Symposium (IUS)收录! 荐
2020-10-23
更多新闻>>
Contact US
Department of Biomedical Engineering
Xi'an Jiaotong University
No.28, Xianning West Road
Xi'an, Shaanxi, 710049, P.R. China
Tel: 86--803
email: xjtusyzhang@mail.xjtu.edu.cn
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张思远教授简介 - 张 思远Team
Projects
1. 生物组织热消融动态物理特性
(Dynamic physical characteristics of biological tissue during thermal ablation)
2. 肌骨界面高强度聚集超声热消融
(High-intensity focused ultrasound ablation at muscle-bone interface)
3. 生物组织热消融超声多参量鉴别监控成像
(Ultrasound multi-parametric monitoring imaging for thermal ablation)
4.聚焦超声场流动生物微纳材料空化增效
(Cavitation-enhanced effects of flowing micro-nano biomaterialsby focused ultrasound)
5.经颅超声脑神经调控机制与应用研究
(Mechanism and applications of transcranial ultrasound neuromodulation)
News
祝贺课题组美国发明专利获得授权!
2021-06-06
祝贺课题组硕士研究生曹芳媛、贾鑫分别荣获得学业奖学金一等奖、二等奖
2020-11-29
祝贺课题组李大鹏博士荣获2020年国家奖学金
2020-11-18
祝贺课题组硕士研究生李谢婧同学荣获特等奖学金!
2020-11-16
祝贺课题组发明专利《用于经颅超声神经刺激的脑部电生理信号记录装置及方法》获得授权!
2020-11-10
祝贺王梦珂博士会议论文被IEEE International Ultrasonics Symposium (IUS)收录! 荐
2020-10-23
更多新闻>>
Contact US
Department of Biomedical Engineering
Xi'an Jiaotong University
No.28, Xianning West Road
Xi'an, Shaanxi, 710049, P.R. China
Tel: 86--803
email: xjtusyzhang@mail.xjtu.edu.cn
Visitor Numbers
科研团队 - 张 思远PI
张思远,男,博士,西安交通大学生命科学与技术学院教授,博士生导师。历任生物医学信息工程教育部重点实验室副主任、陕西省生物医学工程重点实验室副主任、中国电子学会生物医学电子学分会副秘书长、陕西省生物医学工程学会副秘书长等。先后获得第七届“中国电子学会优秀科技工作者”荣誉称号,Elsevier国际出版社UltrasonicsSonochemistry期刊(中科院I区)颁发的“Outstanding Reviewer”。近年来作为负责人先后承担国家重点研发计划项目课题、国家自然科学基金项目、教育部博士点项目及省级项目等10余项,作为学术骨干承担国家973项目课题、国家重大仪器专项和国家自然科学基金项目等。相关工作在本领域国际刊物IEEE Trasactions on Medical Imaging, Ultrasonics Sonochemistry,IEEE Transactions on Biomedical Engineering, IEEE Journal of Biomedical and Health Informatics,JASA,UMB, JUM, Ultrasonics等发表SCI等学术论文30余篇,授权国家发明专利8项,申请美国发明专利2项,参编出版国际上医学超声领域第一部生物医学空化研究英文专著(Springer出版社)、中文学术专著1部(获国家科学技术学术著作出版基金资助)、教材1部。指导研究生获得2019年IEEE IUS “Finalistof BestStudentPaper Award”并获“Travel Support Award”,指导研究生获得2019年IEEE-UFFC-SSpecial-TopicSchool科研竞赛“Winner”并获“Travel Support Award”。参与完成科技成果鉴定与登记1项,该成果入选“2017中国十大医学进展”。多次在本领域国际国内会议上做学术报告,获青年论文竞赛优秀论文奖。
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研究内容 - 张 思远Research Interests
研究方向为生物医学超声(Biomedical Ultrasound)。主要研究内容包括:高强度聚焦超声(High-intensity focused ultrasound, HIFU)、微波(Microwave ablation, MWA)热消融(Thermal ablation)动态物理、超声监控成像(Ultrasonic monitoring imaging)、流动生物微纳材料空化增效(Cavitation)、经颅超声脑神经调控(Transcranial ultrasound neuromodulation)等。
Projects
1. 生物组织热消融动态物理特性
(Dynamic physical characteristics of biological tissue during thermal ablation)
2. 肌骨界面高强度聚集超声热消融
(High-intensity focused ultrasound ablation at muscle-bone interface)
3. 生物组织热消融超声多参量鉴别监控成像
(Ultrasound multi-parametric monitoring imaging for thermal ablation)
4.聚焦超声场流动生物微纳材料空化增效
(Cavitation-enhanced effects of flowing micro-nano biomaterialsby focused ultrasound)
5.经颅超声脑神经调控机制与应用研究
(Mechanism and applications of transcranial ultrasound neuromodulation)
科研成果 - 张 思远Selected Publications
43.Mengke Wang, Shan Wu, Xin Jia, Shaoqiang Shang, Tianqi Xu, Dapeng Li, Mingxi Wan, Siyuan Zhang. Detection and Monitoring of Microwave Ablation by Ultrasound Imaging Based on Convolutional Neural Network. 2020 IEEE International Ultrasonics Symposium (IUS). IEEE, 2020.
42.Dapeng Li, Zhiwei Cui, Shanshan Xu, Tianqi Xu, Shan Wu, Ayache Bouakaz, Mingxi Wang, Siyuan Zhang.Low-intensity focused ultrasound stimulationtreatment decreases blood pressure inspontaneously hypertensive rats. IEEE Transactions on Biomedical Engineering, 2020,67(11):3048-3056.
41. Tianqi Xu, Zhiwei Cui, Dapeng Li, Fangyuan Cao, Jichen Xu, Yujin Zong, Supin Wang, Ayache Bouakaz, Mingxi Wan and Siyuan Zhang. Cavitation characteristics of flowing low and high boiling-point perfluorocarbon phase-shift nanodroplets during focused ultrasound exposures. Ultrasonics Sonochemistry, 2020, 65:105060.
40.Zhiwei Cui, Dapeng Li, Shanshan Xu, Tianqi Xu, Shan Wu, Ayache Bouakaz, Mingxi Wan andSiyuan Zhang. Effect of scattered pressures from oscillating microbubbles on neuronal activity in mouse brain under transcranial focused ultrasound stimulation. Ultrasonics Sonochemistry, 2020, 63:104935.
39.Siyuan Zhang, Shan Wu, Shaoqiang Shang, Xuewei Qin, Xin Jia, Dapeng Li, Zhiwei Cui, Tianqi Xu, Gang Niu, Ayache Bouakaz, and Mingxi Wan.Detection and Monitoring of Thermal Lesions Induced by Microwave Ablation Using Ultrasound Imaging and Convolutional Neural Networks.IEEE Journal of Biomedical and Health Informatics, 2020, 24(4):965-973.
38. Zhiwei Cui, Dapeng Li, Yang Feng, Tianqi Xu, Shan Wu, Yibao Li, Ayache Bouakaz, Mingxi Wan and Siyuan Zhang. Enhanced neuronal activity in mouse motor cortex with microbubbles’ oscillations by transcranial focused ultrasound stimulation. Ultrasonics Sonochemistry, 2019, 59:104745.
37. Siyuan Zhang, Tianqi Xu, Zhiwei Cui, Wen Shi, Shan Wu, Yujin Zong, Gang Niu, Xijing He andMingxi Wan. Time and frequency characteristics of cavitation activity enhanced by flowing phase-shift nanodroplets and lipid-shelled microbubbles during focused ultrasound exposures. Ultrasound in Medicine and Biology, 2019,45(8):2118-2132.
36.Shan Wu, Xuewei Wang, Shaoqiang Shang, Ranxiang Xu, Xuewei Qin, Lei Zhang, Junbo Duan, Supin Wang, Mingxi Wan, and Siyuan Zhang. Effect of logarithmic compression on ultrasonic Nakagami imaging for monitoring of microwave ablation. IEEE International Ultrasonics Symposium, Glasgow, Scotland, UK, October 6-9, 2019.
35.Dapeng Li, Zhiwei Cui, Tianqi Xu, Shan Wu, Yabo Yang, AyacheBouakaz, Mingxi Wan, and Siyuan Zhang. Focused ultrasound stimulation of the ventrolateral periaqueductal gray decreases blood pressure in spontaneously hypertensive rats.IEEE International Ultrasonics Symposium, Glasgow, Scotland, UK, October 6-9, 2019.
34.Zhiwei Cui, Fangyuan Cao,Shanshan Xu, Dapeng Li, Tianqi Xu, Shan Wu, Ayache Bouakaz, Mingxi Wan, and Siyuan Zhang. Microbubble-enhanced ultrasonic neuromodulation of motor cortex of mouse. IEEE International Ultrasonics Symposium, Glasgow, Scotland, UK, October 6-9, 2019.
33.Shan Wu, Shaoqiang Shang, Xuewei Wang, Mingxi Wan, Siyuan Zhang. An in vivo study of ultrasonic monitoring imaging of microwave ablation based on Nakagami statistic parameter. Journal of Biomedical Engineering,2019,36(3):371-378.
32. Siyuan Zhang, Shaoqiang Shang, Yuqiang Han, Chunming Gu, Shan Wu, Sihao Liu, Gang Niu, Ayache Bouakaz,and Mingxi Wan. Ex vivo and in vivo monitoring and characterization of thermal lesions byhigh-intensity focused ultrasoundand microwave ablation using ultrasonic Nakagami imaging. IEEE Transactions on Medical Imaging,2018, 37(7):1701-1710.
31. Siyuan Zhang, Ranxiang Xu, Shaoqiang Shang, Yuqiang Han, Sihao Liu, Tianqi Xu, Chunming Gu, Xingguang Zhu, Gang Niu and Mingxi Wan. In vivo monitoring of microwave ablation in a porcine model using ultrasonic differential attenuation coefficient intercept imaging. International Journal of Hyperthermia, 2018, 34(8):1157-1170.
30.Dapeng Li, Siyuan Zhang, Zhiwei Cui, Yabo Yang,BouakazAyache and Mingxi Wan. Transcranial focused ultrasound stimulation decrease blood pressure in spontaneously hypertensive rats. IEEE International Ultrasonics Symposium, Kobe, Japan, October 22-25, 2018.
29. Siyuan Zhang, Shaoqiang Shang, Shan Wu, Lei Zhang, SupinWangand Mingxi Wan. Ultrasound convolutional neural networks imaging for monitoring of microwave ablation. IEEE International Ultrasonics Symposium, Kobe, Japan, October 22-25, 2018.
28.Tianqi Xu, Siyuan Zhang, Zhiwei Cui, Dapeng Li, Fu Mo, Shan Wu and Mingxi Wan. Effects of flowing lipid-shelled microbubbles and phase-shift nanodroplets on the characteristics of cavitation during focused ultrasound exposure. IEEE International Ultrasonics Symposium, Kobe, Japan, October 22-25, 2018.
27. Siyuan Zhang, Yuqiang Han, Xingguang Zhu, Shaoqiang Shang, Guojing Huang, Lei Zhang, Gang Niu, Supin Wang, and Mingxi Wan. Feasibility of using ultrasonic Nakagami imaging for monitoring microwave-induced thermal lesion inex vivoporcine liver. Ultrasound in Medicine and Biology, 2017,43(2):482-493.
26.Siyuan Zhang, Zhiwei Cui, Tianqi Xu, Pan Liu, Dapeng Li, Shaoqiang Shang, Ranxiang Xu, Yujin Zong, Gang Niu, Supin Wang, Xijing He and Mingxi Wan. Inverse effects of flowing phase-shift nanodroplets and lipid-shelled microbubbles on subsequent cavitation during focused ultrasound exposures. Ultrasonics Sonochemistry, 2017, 34(1):400-409.
25. Siyuan Zhang, Chong Li, Fanyu Zhou, Supin Wang and Mingxi Wan. Evaluate thermal lesion using Nakagami imaging for monitoring of high-intensity focused ultrasound.AIP Conference Proceedings, 2017, 1816: 050002,1-5.
24. Siyuan Zhang, Zhiwei Cui, Chong Li, Fanyu Zhou, Yujin Zong, Supin Wang and Mingxi Wan. Enhanced cavitation and heating of flowing polymer- and lipid-shelled microbubbles and phase-shift nanodroplets during focused ultrasound exposures. AIP Conference Proceedings, 2017, 1816: 070001,1-5.
23.Siyuan Zhang, Shaoqiang Shang , Yuqiang Han , Ranxiang Xu, Sihao Liu , Lei Zhang, Shan Wu , Gang Niu, Sanhong Wang, Mingxi Wan. Monitoring of microwave ablation in porcine liver using ultrasonic Nakagami imaging. IEEE International Ultrasonics Symposium,1-4, Washington, D.C., USA, September 6-9, 2017.
22.Ting Ding, Zhiguo Gui, Siyuan Zhang, Luyang Ma and Mingxi Wan. Ultrasound imaging with enhanced lesion-to-bubble ratio based on wavelet transform for monitoring of high-intensity focused ultrasound. IEEE International Ultrasonics Symposium, Washington, D.C., USA, September 6-9, 2017.
21. Siyuan Zhang, Tianqi Xu, Ziwei Cui, Sihao Liu, Dapeng Li, Rui Guo, Junjie Wang, Yujin Zong, Gang Niu, and Mingxi Wan. Compare ultrasound-mediated cavitation between flowing phase-shift nanodroplets and lipid-shelled microbubbles during focused ultrasound exposures.The 17th International Symposium on Therapeutic Ultrasound, China, Nanjing, May 31-june 2,2017.
20. Siyuan Zhang,Shaoqiang Shang, Yuqiang Han, Ranxiang Xu, Chunming Gu, Lei Zhang, Shan Wu, Gang Niu, and Mingxi Wan. In vivo and ex vivo monitoring of thermal ablation in a porcine model using ultrasonic nakagami imaging.The 17th International Symposium on Therapeutic Ultrasound, China, Nanjing, May 31-june 2,2017.
19. Mingxi Wan, Siyuan Zhang, Mingzhu Lu, Hong Hu, Bowen Jing, Runna Liu and Hui Zhong. Strategy of High Efficiency and Refined High-intensity Focused Ultrasound and Ultrasound Monitoring Imaging of Thermal Lesion and Cavitation.AIP Conference Proceedings, 2017, 1821: 060002.
18.Hong Hu, Shanshan Xu, Diya Wang, Runna Liu, Yuan Yuan, Siyuan Zhang, Supin Wang and Mingxi Wan.Ultrasonic concentration imaging of cavitation bubbles using Nakagami statistical model.IEEE International Ultrasonics Symposium,1-4, Tours, France, September18-21, 2016.
17.Junbo Duan, Hui Zhong, Bowen Jing, Siyuan Zhang and Mingxi Wan. Increasing Axial Resolution of Ultrasonic Imaging With a Joint Sparse Representation Model. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control. 2016;63(12):2045-56.
16. Siyuan Zhang, Zhiwei Cui, Lei Zhang, Xingguang Zhu, Tianqi Xu, Supin Wang, XijingHe, and Mingxi Wan. Feasibility of acoustic evaluation of thermal lesions at bone-soft tissue interface of anex vivobovine bone exposed to high-intensity focused ultrasound. IEEE International Ultrasonics Symposium,1-4,Taipei, China, October 21-24, 2015.
15. Weidong Song, Siyuan Zhang, Jinjin Wan and Mingxi Wan. Monitoring imaging of lesions induced by high intensity focused ultrasound based on a matching pursuit method. IEEE International Ultrasonics Symposium,1-4,Taipei, China, October 21-24, 2015.
14.Junbo Duan, Hui Zhong, Bowen Jing, Siyuan Zhang, and Mingxi Wan. Discover layered structure in ultrasound images with a joint sparse representation model. IEEE International Ultrasonics Symposium,1-4,Taipei, China, October 21-24, 2015.
13. Siyuan Zhang,Zhiwei Cui, Supin Wang, and Mingxi Wan. Nearby thermal ablation and acoustic evaluation of surface thermal injury of anex vivobovine bone exposed to high-intensity focused ultrasound. The 15th International Symposium on Therapeutic Ultrasound, Utrecht, Netherlands, April 15-18, 2015.
12. Siyuan Zhang, Chong Li, Fanyu Zhou, Mingxi Wan and Supin Wang. Enhanced Lesion-to-Bubble Ratio on Ultrasonic Nakagami Imaging for Monitoring of High-Intensity Focused Ultrasound. Journal of Ultrasound in Medicine. 2014;33(6):959-970.
11. Ting Ding, Siyuan Zhang (Co-first author), Quanyou Fu, Zhian Xu and Mingxi Wan. Ultrasound line-by-line scanning method of spatial-temporal active cavitation mapping for high-intensity focused ultrasound. Ultrasonics, 2014, 54(1):147-155.
10.Shanshan Xu, Yujin Zong, Wusong Li, Siyuan Zhang, and Mingxi Wan.Bubble size distribution in acoustic droplet vaporization via dissolution using an ultrasound wide-beam method. Ultrasonics Sonochemistry, 2014, 21(3):975-983.
9.Siyuan Zhang, Chong Li, Hui Yin, Supin Wang, and Mingxi Wan.Surface vibration and nearby cavitation of anex vivobovine femur exposed to high intensity focused ultrasound. Journal of the Acoustical Society of America, 2013, 134(2): 1656-1662.
8.Siyuan Zhang, Yujin Zong, Mingxi Wan, Xiaojun Yu, Quanyou Fu, Ting Ding, Fanyu Zhou, and Supin Wang. Compare ultrasound-mediated heating and cavitation between flowing polymer- and lipid-shelled microbubbles during focused ultrasound exposures. Journal of the Acoustical Society of America, 2012, 131 (6): 4845-4855.
7.Siyuan Zhang, Fanyu Zhou, Mingxi Wan, Min Wei, Quanyou Fu, Xing Wang, and Supin Wang. Feasibility of using Nakagami distribution in evaluating the formation of ultrasound-induced thermal lesions. Journal of the Acoustical Society of America, 2012, 131 (6): 4836-4844.
6.Siyuan Zhang,YangziQiao,andMingxi Wan. Acoustic, thermal and sonoluminescence investigation of enhanced cavitation of flowing polymer-and lipid-shelled microbubbles during focused ultrasound exposures. Journal of the Acoustical Society of America, 2012, 131(4): 3228-3228.
5.YiyangWan,Siyuan Zhang,YujinZong, andMingxi Wan. Formation of two-way Lamb waves and force potential wells using single conventional ultrasonic transducer and sheep horn shaped metal piece. Journal of the Acoustical Society of America, 2012, 131(4): 3339-3339.
4. Siyuan Zhang, Ting Ding, Mingxi Wan, Hujie Jiang, Xu Yang, Hui Zhong, and Supin Wang. Minimizing the thermal losses from perfusion during focused ultrasound exposures with flowing microbubbles. Journal of the Acoustical Society of America, 2011, 129(4): 2336-2344.
3. Dachun Zhang, Siyuan Zhang, Mingxi Wan, and Supin Wang. A fast tissue stiffness-dependent elastography for HIFU-induced lesions inspection. Ultrasonics, 2011, 51(8):857-869.
2.HuiZhong, MingxiWan, andSiyuan Zhang.Monitoring dynamic characteristics of treated region during high intensity focused ultrasound (HIFU) treatment. 2011 Proceedings of International Symposium on Bioelectronics and Bioinformatics,Suzhou, China,November,88-91,2011.
1.Siyuan Zhang, Mingxi Wan, Hui Zhong, Cheng Xu, Zhenzhong Liao, Huanqing Liu, and Supin Wang. Dynamic changes of integrated backscatter, attenuation coefficient and bubble activities during high-intensity focused ultrasound (HIFU) treatment. Ultrasound in Medicine and Biology, 2009, 35(11): 1828-1844.
Monographs
1. Siyuan Zhang, Mingxi Wan, and Gailter Haar, “Chapter 4 Cavitation enhanced thermal effects and their applications,” in Book: Cavitation in biomedicine: principles and techniques, Editor: Wan MX, Feng Y, and ter Haar G, Springer, 2015. ISBN: 978-94-017-7254-9(国际第一部生物医学空化英文专著 )
2.张思远,徐田奇,万明习等.第2章治疗超声中生物组织温度场。万明习,冯怡,路舒宽,计算生物医学超声学,北京:科学出版社,2019 (ISBN: 978-7-03-059103-6,获国家科学技术学术著作出版基金资助)
Patents
12.SiyuanZhang,ZhiweiCui,DapengLi,TianqiXu,ShanWu,MingxiWan.High-spatial-resolution ultrasonic neuromodulation methodandsystem,USA,PublicationNo.US2020/**A1,PublicationDate:2020.03.12.
11.SiyuanZhang,ShanWu,ShaqiangShang,ZhiweiCui,TianqiXu,MingxiWan.Recognition,monitoringandimagingmethodandsystemforthermalablationregionbasedonultrasonicdeeplearning.USA,PublicationNO.US2020/**A1,PublicationDate:2020.04.23.
10.张思远,徐冉翔,崔智炜,李大鹏,徐田奇,尚少强,万明习。一种无线控制的可穿戴式超声神经刺激装置,中国,授权专利号:ZL7.7。
9.张思远,崔智炜,徐冉翔,尚少强,李大鹏,徐田奇,李延海,万明习。可穿戴经颅超声神经刺激与电生理记录联合系统与方法,中国,授权专利号:ZL9.0。
8.张思远,王华,崔智炜,李大鹏,徐田奇,吴珊,万明习。一种高空间分辨率超声神经调控方法及系统,中国,授权专利号:ZL5.1。
7.张思远,吴珊,尚少强,崔智炜,徐田奇,万明习。基于超声深度学习的热消融区域识别监测成像方法与系统,中国,授权专利号: ZL7X。
6.张思远。李大鹏,崔智炜,徐田奇,吴珊,杨雅博,万明习。一种基于超声神经刺激的无创血压调控系统,中国,授权专利号:ZL7.X。
5.张思远,崔智炜,徐冉翔,李大鹏,尚少强,徐田奇,李延海,郑良,万明习。用于经颅超声神经刺激的脑部电生理信号记录装置及方法,中国,授权专利号:ZL8.X。
4.张思远,朱兴广,韩玉强,黄国静,尚少强,徐田奇,万明习,段君博,钟徽。一种用于热凝固监测的超声回波统计参量成像系统与方法,中国,专利申请号:6.0。
本科教学与科研 - 张 思远Basic Information
在承担国家重点研发计划、国家自然科学基金项目等科研项目和前沿交叉实验系统的支持下,课题组长年承担国家级和省级等“大学生创新训练项目”、开放实验项目、毕业设计、“腾飞杯”学术科技竞赛等,为本科生提供了良好的科研平台与环境。近年来,大批本科生在课题组的支持下学习掌握了扎实的基础知识和科研技术,高质量地完成了科研工作,取得了优秀的科研成果,科研能力和水平获得了较大提高,为进一步就业工作和科研深造打下了良好的基础。欢迎广大有志同学加入到相关科研工作中。
Projects
本科生创新实验
课题组长年承担“大学生创新训练项目”,主要包括:高强度聚焦超声(High-intensity focused ultrasound, HIFU)、微波(Microwave ablation, MWA)热消融(Thermal ablation)瞬态物理、超声多参量监控成像(Ultrasonic multi-parametric monitoring imaging)、流动生物微纳材料空化(Cavitation)、经颅超声脑神经调控(Transcranial ultrasonic neuromodulation)等。具体请参考“研究内容”。
开放实验
1、生物组织内多物理场耦合精准无创热疗与超声监控成像研究。
2、经颅聚焦超声脑功能神经调控动物实验研究。
教学工作
1、承担本科生课程:《物理治疗原理与设备》。
2、毕业设计指导:2-3名/年。
西安交大本科生两大培养实施计划
为进一步理顺本科、硕士、博士阶段培养体制,建立与国际接轨的学术型创新人才培养体系,提高培养效率,提升培养质量,我交今年接连通过两大红头文件:《优秀本科生提前进入研究生培养实施计划》与《学术型硕士博士贯通式培养实施办法》,为优秀本科生提供提前入研培养的机会。
国际交流 - 张 思远基本信息
多次参加IEEE International Ultrasonics Symposium (IEEE IUS), International Symposium on Therapeutic Ultrasound (ISTU)等本领域主要国际学术会议并做学术报告。与多名本领域国际著名****互访实验室并做学术报告与工作交流。
国际交流
联系方式 - 张 思远Object
M.S, Ph.D and Postdoctor.
Including but not limited to
生物医学工程(Biomedical Engineering),生物医学影像(Biomedical Imaging),信号处理 (Signal Processing),生物医学物理(Physics in Medicine and Biology),微纳生物医用材料(Micro/nano Biomedical Materials)等相关专业(Others Related)。
Contact Us
Department of Biomedical Engineering
Xi'an Jiaotong University
FengXi New City of XiXian New Area
Xi'an, Shaanxi, 710049, P.R. China
Tel: 86--803
email: xjtusyzhang@mail.xjtu.edu.cn
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