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章东

章东科技工作经历

出生日期：1969年1月7日，出生地：江苏海安，学历：博士

职务/职称：教授（博士生导师），专业：声学

工作单位：南京大学物理学院、声学研究所

简历

1986.9—1990.7 南京大学信息物理学系声学专业(本科)
1990.9—1992.7 南京大学电子科学与工程系声学专业(硕士研究生)
1992.9—1995.7 南京大学电子科学与工程系声学专业(博士研究生)
1995-1997 南京大学声学研究所讲师
1997-2002 南京大学声学研究所副教授
2002至今南京大学声学研究所教授
2000-2002 日本东北大学工学部博士后
2005-2006 美国华盛顿大学生物医学工程系访问学者
2010-2010 英国帝国理工学院电子工程系访问教授

荣誉称号

2004年          江苏省青蓝工程优秀青年骨干教师
2006年          教育部新世纪优秀人才
2008年          江苏省333高层次人才培养工程中青年科学技术带头人
2009年         南京大学中青年教师带头人

主要科技成就

1995年毕业于南京大学电子科学与工程系，获理学博士学位。1997年聘任为南京大学副教授，2002年起聘任为南京大学教授，现为南京大学物理学院声科学与工程系副系主任。2000－2002年在日本东北大学进行博士后研究；2005－2006年作在美国华盛顿大学从事高级访问研究；2010年9月至12月为英国帝国理工学院访问教授。主要研究方向为非线性声学及医学超声。在国内外学术刊物上已发表论文200余篇，SCI收录近90篇；1997年曾获国家教委科技进步三等奖；2004年入选江苏省青蓝工程优秀青年骨干教师；2006年获教育部新世纪优秀人才计划；2007年入选江苏省333高层次人才培养工程；2007年获教育部高等学校自然科学奖二等奖；2009年入选南京大学中青年学科带头人。曾主持7项国家自然科学基金及3项江苏省自然科学基金项目研究；参加了国家重大基础研究计划973项目及国家重大科学仪器研究专项项目的研究。主要学术兼职有：中国声学学会理事、江苏省声学学会理事、江苏省机械工程学会无损检测与失效委员会委员、江苏省生物医学工程学会医学物理委员会副主任委员、声学技术编委会委员。

获奖成果：

2007年度高等学校科学技术奖自然科学二等奖，排名第二

章东近五年SCI论文目录

[1] Zhang CB, Cao HL, Tu J, Guo XS, Liu Z, *Zhang D
Enhancement effect of ultrasound-induced microbubble cavitation on branched polyethylenimine-meediated VEGF(165) transfection with varied N/P ratio
Ultrasound in Medicine & Biology, 39: 161-171(2013)
[2] Zhang Z, Chen T, *Zhang D
Lesions in porcine liver tissues created by continuous high intensity ultrasound exposures in vitro
Chin Phys Lett 30: 024302 (2013)
[3] Li Q, Guo XS, Tu J, *Zhang D
Modeling complicated rheological behaviors in encapsulating shells of lipid-coated microbubbles accounting for nonlinear changes of both shell viscosity and elasticity
Phys Med Biol, 58: 985-998 (2013)
[4] Guo XS, Lin Z, Tu J, Liang B, Cheng JC, *Zhang D
Modeling and optimization of an acoustic diode based on micro-bubble nonlinearity
J Acoust Soc Am, 133: 1119-1125 (2013)
[5] Guo GP, Ma QY, Zhao B, Zhang D
Ultrasound-assisted permeability improvement and acoustic characterization for solid-state fabricated PLA foams
Ultrasonics Sonochemistry, 20: 137-143 (2013)
[6] Sun T, Jia N, *Zhang D
Ambient pressure dependence of the ultra-harmonic response from contrast microbubbles
J Acoust Soc Am 131: 4358-4364 (2012)
[7] Tu J, Hwang JH, Chen T, Fan TB, Guo XS, *Zhang D
Controllable in vivo hyperthermia effect induced by pulsed high intensity focused ultrasound with low duty cycles
App Phys Lett 101: 124102 (2012)
[8] Guo XS, *Zhang D, Zhang J
Detection of fatigue-induced micro-cracks in a pipe by using time-reversed nonlinear guided waves: A three-dimensional model study
Ultrasonics, 52: 912-919(2012)
[9] Qiu YY, Zhang CB, Tu J, *Zhang D
Microbubble-induced sonoporation involved in ultrasound-mediated DNA transfection in vitro at low acoustic pressures
Journal of Biomechanics, 45: 1339-1345(2012)
[10] Liu ZF, Ge Y, Zhang D, Zhou XB
Detection and tracking of clathrin-coated pits in biological images
Chinese Science Bulletin, 57: 729-735 (2012)
[11] Xun XD, Zhang F, Ma QY, Zhang D
Acoustic dipole radiation based conductivity image reconstruction for magnetoacoustic tomography with magnetic induction
Applied Physics Letters, 100: 024105 (2012)
[12] Guo GP, Ma QY, Wang F, Zhao B, Zhang D
Kinetic evaluation of the size-dependent decomposition performance of solvent-free microcellular polylactic acid foams
Chinese Science Bulletin, 57: 83-89 (2012)
[13] Fan TB, Liu ZB, Chen T, Li FQ, *Zhang D
A modeling approach to predict acoustic nonlinear field generated by a transmitter with an aluminum lens
Medical Physics， 38：5033-5039 (2011)
[14] Liu Y, Guo XS, Da Z, *Zhang D, Gong XF
Imaging cracks in bones using acoustic nonlinearity: a simulation study
Acta Acustica United with Acustica, 97:728-733 (2011)
[15] Zhang Z, Ge Y, *Zhang D, Zhou ZB
High-content analysis in monastrol suppressor screens
Methods Inf Med 3:265-271 (2011)
[16] Zhang YL, Zheng HR, Tang MX, *Zhang D
Effects of secondary radiation force on aggregation between encapsulated microbubbles
Chin. Phys. B，20:114302 (2011)
[17] Zhang CB, Liu Z, Guo XS, *Zhang D
Correlation between microbubble-induced acoustic cavitation and hemolysis in vitro
Chin Phys B 20:024301 (2011)
[18] Xu B, Dou HJ, Tao K, Sun KD, Shi WB, Guo XS, Li JY, Zhang D
"Two-in-One" Fabrication of Fe(3)O(4)/MePEG-PLA Composite Nanocapsules as a Potential Ultrasonic/MRI Dual Contrast Agent
Langmuir, 27: 12134-12142 (2011)
[19] Li YL, Ma QY, Zhang D, Xia RM
Acoustic dipole radiation model for magnetoacoustic tomography with magnetic induction
chinese physics b, 20: 084302 (2011)
[20] Tang MX, Loughran J, Stride E, Zhang D, Eckersley RJ
Effect of bubble shell nonlinearity on ultrasound nonlinear propagation through microbubble populations
Journal of the Acoustical Society of America, 129: EL76-EL82 (2011)
[21] Liang B, Guo XS, Tu J, Zhang D*, Cheng JC*
An acoustic rectifier
Nature Materials, 9:989-992 (2010)
[22] Ma QY, Qiu YY, Huang B, Zhang D*, Gong XF
Difference-frequency ultrasound generation from microbubbles under dual-frequency excitation
Chin Phys B 19:094302 (2010)
[23] Liu ZB, Fan TB, Guo XS, Zhang D*
Effect of tissue inhomogeneity on nonlinear propagation of focused ultrasound
Chin Phys Lett 27:094303 (2010)
[24] Guo XS, Zhang D*, Wu JR
Quantitative evaluation of contact stiffness between pressed solid surfaces using dual-frequency ultrasound
J Applied Phys 108:034902 (2010)
[25] Li YL, Liu ZB, Ma QY, Guo XS, Zhang D
Two-dimensional Lorentz force image reconstruction for magnetoacoustic tomography with magnetic induction
Chinese Phys Lett 27: 084302 (2010)
[26] Qiu YY, Luo Y, Zhang YL, Cui WC, Zhang D, Wu JR, Zhang JF, Tu J
The correlation between acoustic cavitation and sonoporation involved in ultrasound-mediated DNA transfection with plyethylenimine (PEI) in vitro
J Control Release 145: 40-48 (2010)
[27] Huang B, Zheng HR, Zhang D*
Asymmetric oscillation and acoustic response from an encapsulated microbubble bound within a small vessel
Chin Phys Lett 27:064302 (2010)
[28] Huang B, Zhang YL, Zhang D*, Gong XF
Finite element modeling of acoustic scattering from an encapsulated microbubble near rigid boundary
Chin Phys B 19:054302 (2010)
[29] Liu ZB, Fan TB, Zhang D*, Gong XF
Influence of the abdominal wall on the nonlinear propagation of focused therapeutic ultrasound
Chin Phys B 18:4932-4037 (2009)
[30] Fan TB, Liu ZB, Zhang Z, Zhang D*, Gong XF
Modeling of nonlinear propagation in multi-layer biological tissues for strong focused ultrasound
Chin Phys Lett 26:084302 (2009)
[31] Hu Y, Ge Y, Zhang D*, Zheng HR, Gong XF
Microbubble displacement under ultrasonic chirp excitation
Acta Physica Sinica 58: 4746-4751 (2009)
[32] Zhang CB, Qiu YY, Xi XY, Zhang D*
Ultrasonic enhancement of interaction between liposome and cell
Acta Physica Sinica 58:3996-4001 (2009)
[33] Hu Y, Zhang D*, Zheng HR, Gong XF
Chirp excitation technique to enhance microbubble displacement induced by ultrasound radiation force
J Acoust Soc Am 125: 1410-1415 (2009)
[34] Zhang D*, Xi XY, Zhang Z, Gong XF, Chen G, Wu JR
A dual-frequency excitation technique for enhancing the sub-harmonic emission from encapsulated microbubbles
Phys Med Biol 54: 4257-4272 (2009)
[35] Guo XS, Yang D, Zhang D*, Li WG, Qiu Y, Wu JR
Quantitative evaluation of fracture process of long bones using guided ultrasound waves: A computational feasibility study
J Acoust Soc Am 125: 2834-2837 (2009)
[36] Yan F, Gu N, Chen D, Xi XY, Zhang D, Li YX, Wu JR
Experimental study on cell self-sealing during sonoporation
J Controlled Release 131:205-210 (2008)
[37] Fan TB, Zhang D*, Zhang Z, Ma Y, Gong XF
Effects of vapour bubbles on acoustic and temperature distribution of therapeutic ultrasound
Chin Phys B 17:3372-3377 (2008)
[38] Yang D, Zhang D*, Guo XS, Gong XF, Fei XB
A multi-dimensional approach for describing internal bleeding in an artery: implications for Doppler ultrasound guiding HIFU hemostasis
Phys Med Biol 53:4983-4994 (2008)
[39] Xi XY, Yang F, Chen D, Luo Y, Zhang D, Gu N, Wu JR
A targeting drug-delivery model via interactions among cells and liposomes under ultrasonic excitation
Phys Med Biol 53: 3251-3265 (2008)