董蜀湘

1993年6月：清華大學材料科學與工程工學博士學位，

1989年12月：清華大學固體物理理學碩士學位，

1982年1月：武漢大學半導體物理學士學位。

2008.5-：北京大學工學院材料科學與工程系：特聘研究員，教授，美國弗吉尼亞理工大學工學院兼職教授（Adjunct Professor）；

從2000.1至2008.5：先後受聘為美國賓州大學、美國弗吉尼亞理工大學研究助理、研究科學家； ^[2] 

2000.1-2001.12：美國賓州大學材料研究所 Research Associate；

1993.6-2000.1：清華大學材料科學與工程系，講師（1993-1995）/副教授（1995-2000）；

1997.11-1999.11：新加坡國立大學訪問學者。 ^[1] 

2000年-2008，先後受聘為美國賓州大學、美國弗吉尼亞理工大學任副研究員、研究科學家，研究教授。 ^[7] 

2008年5月-2021年3月，從美國Virginia Tech大學回國受聘於北京大學工學院材料科學與工程系特聘研究員、教授、北京大學終身教授。為深圳大學高等研究院特聘教授、博導。 ^[7] 

受邀參加許多國際重要會議，例如擔任第十二屆IWPMA第一屆年度能源收集社會會議（AEHSM） ^[9]  ，擔任第20屆IEEE國際鐵電應用研討會壓電響應力顯微鏡和極性材料中的納米現象特邀演講嘉賓 ^[11]  ，出席2013第50界能源科學年度國際會議 ^[10]  。

兼任美國Virginia Tech大學兼職教授 ^[2]  。

長期從事壓電、鐵電、磁電功能材料與器件方面的研究，在理論和器件研究方面都頗有建樹，如在磁電功能材料的理論研究方面，創立了“磁－彈－電”耦合的等效電路方法，這也是國際上公認的三種比較成功的理論方法之一；

在壓電微馬達方面，最早發明了世界上最小的壓電微馬達，研發出低温驅動器、高温壓電馬達與高温驅動器，以及研發出具有微納米分辨率的系列直線壓電馬達；壓電馬達已經在“墨子號”上進行了應用，並且取得了不錯的反響。同時，可在高温壓電振動能量回收器、高温驅動器和多自由度精密位移平台上廣泛應用。在日常生活中，如手機三攝攝像頭、醫療內窺鏡等消費電子、醫療器械、光通訊等領域也將出現壓電微馬達的身影。

部分成果已在廈門實現了產業化；在磁電覆合材料研究領域，發現了最強的磁－電耦合複合材料、發現磁電覆合材料的超高磁場靈敏度、發現磁電材料的電壓增益效應和電流－電壓轉換效應；

在壓電換能器方面，發現諧振聲場擾動的目標定位方法、聲諧振腔的氫氣檢測方法等。 ^[2] 

在國際與國內學術會議上做邀請報告30餘次，在壓電鐵電、磁電功能材料與器件領域是一位比較有影響力的科學家。 ^[2] 

壓電材料、磁電覆合材料、壓電超微型馬達與驅動器、傳感器、智能電子器件、力-電與磁-彈-電耦合理論，以及工程應用。

董蜀湘長期從事壓電、鐵電、磁電功能材料與器件，以及近期的3D打印與柔性電子、壓電超材料、納米壓電馬達方面的研究，在壓電、磁電理論和器件研究方面都頗有建樹，如在壓電基礎理論研究方面，將超材料有序功能基元設計思想引入壓電陶瓷體系，首次實現全部非零的18個壓電應變係數單元，打破了傳統上70多年來壓電陶瓷材料只有五個非零壓電係數dij的認知,這一突破性工作發表在Science advances 2019刊物上；在磁電功能材料的理論方面，創立了“磁－彈－電”耦合的等效電路方法，是公認的理論方法之一。在壓電微馬達研究方面，最早發明了世界上最小的壓電微馬達，曾獲美國賓州州立大學MRL 2000年材料科學進步一等獎（第一獲獎人），研發出低温驅動器、高温壓電馬達與高温驅動器，以及研發出具有微納米分辨率的系列直線壓電馬達；部分成果已在廈門實現了產業化,併成功應用於墨子號衞星空間通訊（2018）；在磁電覆合材料研究領域，發現了最強的磁－電耦合複合材料、發現磁電覆合材料的超高磁場靈敏度、發現磁電材料的電壓增益效應和電流－電壓轉換效應；在壓電換能器方面，發現諧振聲場擾動的目標定位方法、聲諧振腔的氫氣檢測方法等。在微能源採集方面，利用自主研發的3D打印設備，製備出國際上功率密度最高的柔性壓電採能器件，在國際頂級刊物《能源與環境科學》上發表。 ^[7] 

北京大學工學院董蜀湘課題組，在北京市科技專項資助下，研發了具有自主知識產權的3D打印設備，獲得授權中國發明專利。利用自主研發的3D打印設備成功製備了多層PVDF-TrFE薄膜以及研製了具有彎張效應的橄欖球新穎結構壓電能量收集器，其表觀壓電係數及功率密度獲得了顯著提升。實驗結果表明3D打印的橄欖球能量收集器在頻率為3.5 HZ，壓強為0.046 MPa的機械壓力下，可以產生88.6 Vp-p的峯值電壓和0.35 mA的短路電流；它的單位面積峯值輸出功率密度更是高達16.4 mW/cm 2，這比其它柔性壓電發電材料的功率密度高出一個量級，也和太陽能電池的功率密度相當。提出的3D打印多層柔性壓電薄膜製備方法和橄欖球彎張機制能量採集設計，在未來的具有自傳感、自供電功能的柔性可穿戴電子設備、無線傳感器網絡、自發電智能道路等，具有巨大發展潛力。這項研究成果也證明3D打印工藝是一種簡單、有效的方法，在未來的柔性、微電子器件製備領域也有應用前景。 ^[13] 

北京大學工學院董蜀湘課題組受到“超材料”設計思想的啓發，設計了 [2×2] 多層陶瓷單元序構（OSPAU）結構的壓電驅動器，並通過多層壓電陶瓷共燒方法制備出壓電驅動器樣機。設計的壓電驅動器工作在人工準剪切d₃₄模式，並表現出巨大的壓電係數（1403 pm/V），而在天然壓電陶瓷中該係數為零。實驗驗證了壓電驅動器的致動基元序構設計思路和基於該壓電驅動器的納米步進壓電馬達的全新工作機制。研製的納米步進壓電馬達，在非諧振、開環控制情況下，僅需一路（單相）驅動信號，便能在較寬的非共振頻帶下執行宏-微-納米操作功能。獲得的最大宏觀直線運動速度為1.89 mm/s，產生的最小納米步距僅為7 nm，這是單相信號驅動下獲得的最好水平，也遠優於傳統單相、多相電磁驅動器的步進分辨率。 ^[12] 

北京大學工學院董蜀湘教授團隊及其合作者，通過材料組分調控，製備了一種三元鈣鈦礦結構高温壓電陶瓷材料，200℃時的壓電性能可媲美傳統的弛豫壓電單晶材料。性能最為優異的壓電材料是弛豫壓電單晶材料，由於其成分和結構的原因，居里温度只有120℃~180℃左右，而塊體壓電材料因其熱老化作用，正常使用的温度範圍被限制在居里温度的一半以下，弛豫壓電單晶材料無法在200 ℃以上的温度環境下穩定工作，而傳統的壓電陶瓷材料性能不足以媲美壓電單晶材料，成為該領域的一個瓶頸問題。董蜀湘教授團隊長期致力於高温壓電陶瓷材料及其器件應用的研究領域，本次的研究成果實現了傳統的壓電陶瓷材料性能的突破，高温壓電性能媲美壓電單晶材料。他們在鈧酸鉍-鈦酸鉛BiScO3-PbTiO3（BS-PT）高温壓電陶瓷基礎上，通過組分調控，引入鈮錫酸鉛Pb(Sn1/3Nb2/3)O3（PSN）第三組元，形成鈣鈦礦結構的三元系高温壓電陶瓷固溶體，在準同型相界組分附近獲得了最優壓電性能，室温壓電常數d33為555 pC/N，機電耦合係數達到58.9%。隨着温度的升高，在200oC時其逆壓電常數d*33達到2500 pm/V，與傳統的弛豫壓電單晶相當，同時其居里温度高達408℃，完全滿足200℃以上的高温壓電應用需求，是高温壓電應用的理想材料。 ^[14] 

1，課題負責人：國家自然科學重點基金，《鐵電覆合材料的多場耦合功能特性與新型器件的應用基礎研究》，批准號：51132001（280萬）；

2，課題負責人：國家高技術研究發展計劃（863計劃）-先進電子內窺鏡研究，課題批准號2012AA040505， 2012（315萬）；

3，課題負責人：國家自然科學基金，《用於空間的低温壓電單晶超聲電機的製備科學》，批准號：50872002/E0201 （40萬）；

4，課題負責人：國家自然科學基金，《高温壓電微馬達研究》，批准號：51072003/E020402 （39萬）；

5，參加973項目，本人負責經費：50萬；

6，課題負責人: 廣東省產學研項目，經費：20萬。 ^[1] 

2000 美國賓州大學材料科學進步一等獎 （國際上最小的壓電微馬達：1.5mm 直徑），（First Place Prize in Material Advances in MRL, The Pennsylvania State University Dec., 2000）

1994 北京市優秀科技論文二等獎: “Piezoelectric-Electorheological Stepper Motor”

1994 中國功能陶瓷材料年會優秀論文獎: “Study on piezoelectric ceramic motors”

1992 中國功率超聲學會優秀論文獎 ^[1] 

1、功能材料與器件-I （研究生）

2、現代電子器件基礎 （本科生） ^[1] 

董蜀湘在國際權威刊物Science advances, Energy and Environment Science, Advanced Materials, Advanced Functional Materials, Scientific Reports, Applied Physics Letters等，共發表SCI收錄文章190餘篇。文章SCI總引用次數9000餘次；擁有30餘項授權美國和中國發明專利。董蜀湘先後承擔國家基金委重點項目1項，面上基金5項；承擔國家863項目1項；承擔北京市重大科技專項2項以及國防項目1項，另外承擔企業合作項目多項，負責經費總計2400萬餘元。董蜀湘還在多個重要國際、國內會議上和多所國內外大學做特邀報告50餘次，也是多個國際刊物的審稿人。董蜀湘連續5年入選Elsevier 2014-2018物理與天文領域中國高被引學者（Most Cited Chinese Researchers）和最具世界影響力的中國學者。 ^[7]  於2021年入選全球前2%頂尖科學家榜單。 ^[8] 

在國內外重要學術刊物共發表文章100餘篇（SCI收入90篇，其中28篇發表在Applied Physics Letters）；SCI總引用次數2700餘次（h-index:27）。

一篇作為共同通訊作者的學術文章，被SCI引用650餘次。 ^[2] 

1.Shuxiang Dong, Review on Piezoelectric, Ultrasonic and Magnetoelectric Actuators, Journal of Advanced Dielectrics, Vol. 2, No. 1, 1230001 (2012) (Invited Review Paper,18 pages).

2.Li XT, Chen ZJ, Dong SX*, A Double B1-Mode 4-Layer Laminated Piezoelectric Linear Motor, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, V59, N.12, 2012.

3.Guoxi Liu, Xiaotian Li, Jianguo Chen, Zhijiang Chen, and Huaduo Shi, Wenlei Xiao, Shuxiang Dong#, Colossal low-frequency resonant magnetomechanical and magnetoelectric effects in a three-phase ferromagnetic/elastic/piezoelectric composite, Appl. Phys. Lett. 101, 142904 (2012);

4.Chen, Jianguo; Shi, Huaduo; Liu, Guoxi; Dong, Shuxiang#, Temperature dependence of dielectric, piezoelectric and elastic properties of BiScO3-PbTiO3 high temperature ceramics with morphotropic phase boundary (MPB) composition, JOURNAL OF ALLOYS AND COMPOUNDS v 537 pp280-285, OCT 5 2012

5.Xiaotian Li, Jianguo Chen, Zhijiang Chen, and Shuxiang Dong#, A high-temperature double-mode piezoelectric ultrasonic linear motor Appl. Phys. Lett. 101, 072902 (2012).

6.Jianguo Chen, Xiaotian Li, Guoxi Liu, Zhijiang Chen, and Shuxiang Dong#, A shear-bending mode high temperature piezoelectric actuator Appl. Phys. Lett. 101, 012909 (2012).

7.Zhongqiang Hu, Meiya Li, Yongdan Zhu, Shizhou Pu, Xiaolian Liu, Bobby Sebo,Xingzhong Zhao, and Shuxiang Dong, Epitaxial growth and capacitance-voltage characteristics of BiFeO3/CeO2/yttria-stabilized zirconia/Si(001) heterostructure Appl. Phys. Lett. 100, 252908 (2012).

8.Zhongqiang Hu,1,2 Jianguo Chen,1 Meiya Li,2 Xiaotian Li,1 Guoxi Liu1 and Shuxiang Dong,1, , Morphotropic phase boundary and high temperature dielectric, piezoelectric, and ferroelectric properties of (1-x)Bi(Sc3/4In1/4)O3-xPbTiO3 ceramics, JOURNAL OF APPLIED PHYSICS ,110, pp064102, 2011.

9.Mingsen Guo, Shuxiang Dong,1, , Bo Ren, Haosu Luo, A piezoelectric single-crystal ultrasonic micro-actuator for driving optics, IEEE Ultrasonics, Ferroelectrics, and Frequency Control, 2011 ,v.58, no.12, 2011.

10.DONG, Shuxiang; Carazo, Alfredo Vazquez; Park, Seung Ho, Equivalent Circuit and Optimum Design of a Multilayer Laminated Piezoelectric Transformer, IEEE Ultrasonics, Ferroelectrics, and Frequency Control, v.58, no.12, 2011. ^[3] 

11.Cui XX, Dong SX*, Theoretical analyses on effective magnetoelectric coupling coefficients in piezoelectric/piezomagnetic laminates，JOURNAL OF APPLIED PHYSICS , V109, 083903, April 2011.

12.Li XT, Guo MS, Dong SX*, A Flex-Compressive Mode Piezoelectric Transducer for Mechanical Vibration/Strain Energy Harvesting, IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL, V58, N.4, April 2011.

13.Liu GX, Cui XX, Dong SX, A tunable ring-type magnetoelectric inductor, JOURNAL OF APPLIED PHYSICS v.108 n.9, 094106, NOV 1 2010.

14.Guo MS, Dong SX, Ren B, et al. A Double-Mode Piezoelectric Single-Crystal Ultrasonic Micro-Actuator IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.57 n.11 pp2596-2600, NOV 2010.

15.Guo MS, Dong SX, Annular Bilayer Magnetoelectric Composites: Theoretical Analysis IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v. 57 n.2 pp480-489, FEB 2010.

16.Guo MS, Dong SX， A Resonance-Bending Mode Magnetoelectric-Coupling Equivalent Circuit IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.56 n.11, pp2578-2586, NOV 2009.

17.Zhai, J.1, Gao, J.1, De Vreugd, C.1, Li, J.1, Viehland, D.1, Filippov, A. V.2, Bichurin, M. I.2, Drozdov, D. V.2, Semenov, G. A.2, Dong, S. X.3， Magnetoelectric gyrator EUROPEAN PHYSICAL JOURNAL B v.71 n.3 pp383-385, OCT 2009.

18.Dong SX, Zhai J, Li JF, et al., High Power Density Magnetoelectric Energy Harvester FERROELECTRICS, IEEE International Symposium on Applications of Ferroelectrics pp157-158, 2008.

19.Zhai JYY, Dong SX, Xing ZPP, et al.， Tunable magnetoelectric resonance devices JOURNAL OF PHYSICS D-APPLIED PHYSICS v.42 n.12, 122001, JUN 21 2009.

20.Dong SX, Zhai JY, Priya S, et al.， Tunable Features of Magnetoelectric Transformers IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.56 n.6, pp1124-1127, JUN 2009.

21.Dong SX, Zhai JY, Li JF, et al., Multimodal system for harvesting magnetic and mechanical energy APPLIED PHYSICS LETTERS v.93 n.10, 103511, SEP 8 2008.

22.Zhai JY, Xing ZP, Dong SX, et al., Thermal noise cancellation in symmetric magnetoelectric bimorph laminates APPLIED PHYSICS LETTERS, v.93, n.7, 072906, AUG 18 2008.

23.Dong SX, Zhai JY, Equivalent circuit method for static and dynamic analysis of magnetoelectric laminated composites CHINESE SCIENCE BULLETIN v.53 n.14, pp2113-2123, JUL 2008.

24.Lou, J.1, Reed, D.1, Pettiford, C.1, Liu, M.1, Han, P.2, Dong, S.3,4, Sun, N. X.1, Giant microwave tunability in FeGaB/lead magnesium niobate-lead titanate multiferroic composites APPLIED PHYSICS LETTERSv.92n.26, 262502, JUN 30 2008.

25.Karmarkar M, Dong SX, Li JF, et al., Magnetoelectric laminate based DC magnetic field sensor PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS, v.2 n.3pp108-110,JUN 2008.

26.Dong SX, Yan L, Viehland D, et al., A piezoelectric single crystal traveling wave step motor for low-temperature application,APPLIED PHYSICS LETTERS v.92 n.15, 153504, APR 14 2008.

27.Viehland D, Zhai JY, Dong S, et al., Multi-functional materials with polarization FERROELECTRICS, VOLS 1 AND 2 : IEEE International Symposium on Applications of Ferroelectrics pp: 404-405, 2007.

28.Xing ZP, Zhai JY, Dong SX, et al., Modeling and detection of quasi-static nanotesla magnetic field variations using magnetoelectric laminate sensors MEASUREMENT SCIENCE & TECHNOLOGY v.19 n.1, 015206, JAN 2008.

29.Nan CW, Bichurin MI, Dong SX, et al., Multiferroic magnetoelectric composites: Historical perspective, status, and future directionsJOURNAL OF APPLIED PHYSICS, v.103, n.3, 031101, FEB 1 2008.

30.Zhai J, Xing Z, Dong S, et al., Magnetoelectric laminate composites: An overviewJOURNAL OF THE AMERICAN CERAMIC SOCIETY v.91 n.2, pp351-358, FEB 2008.

31.Priya S, Islam R, Dong SX, et al., Recent advancements in magnetoelectric particulate and laminate composites

JOURNAL OF ELECTROCERAMICS v.19 n.1 pp147-164, SEP 2007

32.Zhai JY, Dong SX, Xing ZP, et al., Geomagnetic sensor based on giant magnetoelectric effect

APPLIED PHYSICS LETTERS v.91 n.12, 123513, SEP 17 2007

33.Dong SX, Zhai JY, Xing ZP, et al., Giant magnetoelectric effect (under a dc magnetic bias of 2 Oe) in laminate composites of FeBSiC alloy ribbons and Pb(Zn-1/3,Nb-2/3)O-3-7%PbTiO3 fibers

APPLIED PHYSICS LETTERS v. 91 n.2, 022915, JUL 9 2007

34.Zhang H, Dong SX, Zhang SY, et al., Ultrasonic micro-motor using miniature piezoelectric tube with diameter of 1.0 mm

ULTRASONICS v. 44, pp E603-E606, Suppl. 1, DEC 22 2006.

35.Dong SX, Zhai JY, Li JF, et al., Strong magnetoelectric charge coupling in stress-biased multilayer-piezoelectric/magnetostrictive composites

JOURNAL OF APPLIED PHYSICS v.101 n.12, 124102, JUN 15 2007

36.Dong SX, Uchino K, Li LT, et al., Analytical solutions for the transverse deflection of a piezoelectric circular axisymmetric unimorph actuator

IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.54 n. 6, pp 1240-1249, JUN 2007

37.Dong SX, Zhai JY, Li JF, et al., Near-ideal magnetoelectricity in high-permeability magnetostrictive/piezofiber laminates with a (2-1) connectivity

APPLIED PHYSICS LETTERS v.89 n.25, 252904, DEC 18 2006

38.Dong SX, Zhai JY, Li JF, et al., Enhanced magnetoelectric effect in three-phase MnZnFe2O4/Tb1-xDyxFe2-y/Pb(Zr,Ti)O-3 composites

JOURNAL OF APPLIED PHYSICS v.100 n.12, 124108, DEC 15 2006

39.Zhai JY, Li JF, Dong SX, et al., A quasi(unidirectional) Tellegen gyrator

JOURNAL OF APPLIED PHYSICS v.100, n.12, pp.124509, DEC 15 2006

40.Dong SX, Zhai JY, Li JF, et al., Magnetoelectric gyration effect in Tb1-xDyxFe2-y/Pb(Zr,Ti)O-3 laminated composites at the electromechanical resonance

APPLIED PHYSICS LETTERS v.89 n.24, 243512, DEC 11 2006

41.Dong SX, Zhai JY, Li JF, et al., Magnetoelectric effect in Terfenol-D/Pb(Zr,TiO)(3)/mu-metal laminate composites

APPLIED PHYSICS LETTERS v.89 n.12, 122903, SEP 18 2006

42.Xing ZP, Dong SX, Zhai JY, et al., Resonant bending mode of Terfenol-D/steel/Pb(Zr,Ti)O-3 magnetoelectric laminate composites

APPLIED PHYSICS LETTERS v. 89 n.11, 112911, SEP 11 2006

43.Zhai JY, Dong SX, Xing ZP, et al., Giant magnetoelectric effect in Metglas/polyvinylidene-fluoride laminates

APPLIED PHYSICS LETTERS v.89 n. 8, 083507, AUG 21 2006

44.Dong SX, Li JF, Viehland D, Magnetoelectric coupling, efficiency, and voltage gain effect in piezoelectric-piezomagnetic laminate composites

JOURNAL OF MATERIALS SCIENCE v. 41 n.1, pp 97-106, JAN 2006

45.Zhai JY, Xing ZP, Dong SX, et al., Detection of pico-Tesla magnetic fields using magneto-electric sensors at room temperature

APPLIED PHYSICS LETTERS v.88 n.6, 062510, FEB 6 2006

46.Dong SX, Zhai JY, Li JF, et al., Small dc magnetic field response of magnetoelectric laminate composites

APPLIED PHYSICS LETTERS v.88 n.8, p082907, FEB 20 2006

47.Yang JS, Zhou HG, Dong S, Analysis of plate piezoelectric unimorphs

IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.53 n.2, pp456-462, FEB 2006

48.Jiang XN, Rehrig PW, Hackenberger WS, Smith E, Dong SX, Viehland D, Moore J, Patrick B, Advanced piezoelectric single crystal based actuators

PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE) v.5761, pp253-262, 2005

49.Dong SX, Zhai JY, Wang NG, et al., Fe-Ga/Pb(Mg1/3Nb2/3)O-3-PbTiO3 magnetoelectric laminate composites

APPLIED PHYSICS LETTERS v.87, n.22, 222504, NOV 28, 2005

50.Dong S, Zhai J, Bai F, et al., Push-pull modemagnetostrictive/piezoelectriclaminate composite with an enhanced magnetoelectric voltage coefficient

APPLIED PHYSICS LETTERS v.87 n.6, p062502, AUG 8 2005

51.Dong SX, Zhai JY, Bai FM, et al., Magnetostrictive and magnetoelectric behavior of Fe-20 at. % Ga/Pb(Zr,Ti)O-3 laminates

JOURNAL OF APPLIED PHYSICS v.97, n.10, p103902, MAY 15, 2005

52.Dong SX, Bai JG, Zhai JY, et al., Circumferential-mode, quasi-ring-type, manetoelectric laminate composite - a highly sensitive electric current and/or vortex magnetic field sensor

APPLIED PHYSICS LETTERS v.86 n.18 p182506, MAY 2 2005

53.Dong SX, Zhai JY, Xing ZP, et al., Extremely low frequency response of magnetoelectric multilayer composites

APPLIED PHYSICS LETTERS v. 86 n.10 p102901, MAR 7 2005

54.Dong SX, Yan L, Wang NG, et al., A small, linear, piezoelectric ultrasonic cryomotor

APPLIED PHYSICS LETTERS v. 86 n.5, p053501, JAN 31 2005

55.Uchino K, Cagatay S, Koc B, Dong S, Bouchilloux P, Strauss M, Micro piezoelectric ultrasonic motors

JOURNAL OF ELECTROCERAMICS v.13 n.1-3 pp393-401, JUL-NOV 2004

56.Dong SX, Li JF, Viehland D, A longitudinal-longitudinal mode TERFENOL-D/Pb(Mg1/3Nb2/3)O-3-PbTiO3 laminate composite

APPLIED PHYSICS LETTERS v.85 n.22, pp5305-5306, NOV 29 2004

57.Dong SX, Zhang JD, Kim HW, et al. Flexural traveling wave excitation based on shear-shear mode

IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.51 n.10, pp 1240-1246, OCT 2004

58.Dong SX, Li JF, Viehland D, et al., A strong magnetoelectric voltage gain effect in magnetostrictive-piezoelectric composite

APPLIED PHYSICS LETTERS v. 85 n.16 pp3534-3536, OCT 18 2004

59.Dong SX, Li JF, Viehland D, Vortex magnetic field sensor based on ring-type magnetoelectric laminate

APPLIED PHYSICS LETTERS v.85 n.12 pp2307-2309, SEP 20 2004

60.Dong SX, Li JF, Viehland D, Circumferentially magnetized and circumferentially polarizedmagnetostrictive/piezoelectriclaminated rings

JOURNAL OF APPLIED PHYSICS v.96 n.6 pp3382-3387, SEP 15 2004

61.Dong SX, Li JF, Viehland D, Longitudinal and transverse magnetoelectric voltage coefficients ofmagnetostrictive/piezoelectriclaminate composite: Experiments IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.51 n.7 pp794-799, JUL 2004

62.Dong SX, Wang SX, Li LT, et al., Frictional noise and noise restraint of the piezoelectric-ultrasonic motor

JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES v.15 n.6 pp471-478, JUN 2004

63.Dong SX, Bai FM, Yan L, et al.,Vacuum response and gas leak detection in piezoelectrically driven sound-resonance cavity APPLIED PHYSICS LETTERS v.84 n.21 pp4144-4146, MAY 24 2004 ^[4] 

64.Dong SX, Cao H, Bai FM, et al., Conformal sensor skin approach to the safety-monitoring of H-2 fuel tanks APPLIED PHYSICS LETTERS v.84 n.21 pp4153-4154, MAY 24 2004

65.Dong SX, Li JF, Viehland D, Voltage gain effect in a ring-type magnetoelectric laminate APPLIED PHYSICS LETTERS v.84 n.21 pp4188-4190, MAY 24 2004

66.Dong SX, Li JF, Viehland D, Characterization of magnetoelectric laminate composites operated in longitudinal-transverse and transverse-transverse modes JOURNAL OF APPLIED PHYSICS v.95 n. 5, pp 2625-2630, MAR 1 2004

67.Dong SX, Li JF, Viehland D, Giant magnetoelectric effect in laminate composites PHILOSOPHICAL MAGAZINE LETTERS v.83 n.12, pp769-773, DEC 2003

68.Dong SX, Cheng JR, Li JF, et al., Enhanced magnetoelectric effects in laminate composites of Terfenol-D/Pb(Zr,Ti)O-3 under resonant drive APPLIED PHYSICS LETTERS v.83 n.23 pp4812-4814, DEC 8 2003

69.Dong SX, Bai FM, Li JF, et al., An acoustic position sensor REVIEW OF SCIENTIFIC INSTRUMENTS v.74 n.11 pp4863-4868, NOV 2003

70.Dong SX, Li JF, Viehland D, Giant magneto-electric effect in laminate composites IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.50 n.10 pp1236-1239, OCT 2003

71.Dong SX, Li JF, Viehland D, Longitudinal and transverse magnetoelectric voltage coefficients ofmagnetostrictive/piezoelectriclaminate composite: Theory IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.50 n. 10, pp1253-1261, OCT 2003

72.Dong SX, Bai FM, Li JF, et al., A piezoelectric-sound-resonance cavity for hydrogen gas detection IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.50 n. 9 pp 1105-1113, SEP 2003

73.Dong SX, Li JF, Viehland D, Ultrahigh magnetic field sensitivity in laminates of TERFENOL-D and Pb(Mg1/3Nb2/3)O-3-PbTiO3 crystals APPLIED PHYSICS LETTERS v.83 n.11 pp2265-2267, SEP 15 2003

74.Dong SX, Bai FM, Li JF, et al., Sound-resonance hydrogen sensor APPLIED PHYSICS LETTERS v.82 n.25 pp4590-4592, JUN 23 2003

75.Dong SX, Cagatay S, Uchino K, et al., A 'center-wobbling' ultrasonic rotary motor using a metal tube-piezoelectric plate composite stator JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES v.13 n.11 pp749-755, NOV 2002

76.Dong SX, Bai FM, Li JF, et al., Resonance acoustic field position sensor APPLIED PHYSICS LETTERS v.82 n.23 pp4181-4183, JUN 9 2003

77.Dong SX, Lim SP, Lee KH, et al., Piezoelectric ultrasonic micromotor with 1.5 mm diameter IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.50 n.4 pp361-367, APR 2003

78.Kim HW, Dong SX, Laoratanakul P, et al., Novel method for driving the ultrasonic motor IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.49 n.10 pp1356-1362, OCT 2002

79.Dong SX, Du XH, Bouchilloux P, et al., Piezoelectric ring-morph actuators for valve application JOURNAL OF ELECTROCERAMICS v. 8 n.2 pp155-161, AUG 2002

80.Uchino K, Koc B, Dong S , Compact ultrasonic rotary motors FERROELECTRICS v.257 n.1-4 pp 3-12, 2001

81.Yan L, Chu XC, Dong SX, et al., Piezoelectric ceramic vibration modes and potential applications

KEY ENGINEERING MATERIALS v.224-2 pp129-134, 2002

82.Dong SX, Bouchilloux P, Du XH, et al., Ring type Uni/BiMorph piezoelectric actuators

JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES v.12 n.9 pp613-616, SEP 2001

83.Zhai BN, Lim SP, Lee KH, Chew CH, Dong SX, Lu P, A design of an ultrasonic linear motor based on theoretical analysis SMART MATERIALS & STRUCTURES v.9 n.6 pp774-779, DEC 2000

84.Dong SX, Wang SX, Shen WJ, et al., A miniature piezoelectric ultrasonic motor based on circular bending vibration mode IEEE-ASME TRANSACTIONS ON MECHATRONICS v.5 n.4 pp325-330, DEC 2000

85.Dong SX, Wang SX, Li LT, Piezoelectric ultrasonic motor and fine positioner with two freedoms FERROELECTRICS v.232 n.1-4 pp1109-1114, 1999

86.Dong SX, Shen WJ, Qiu HY, et al., Piezoelectric-electrorheological planar stepper motor ERROELECTRICS v.232 n.1-4, pp1115-1120, 1999

87.Zhai BN, Lim SP, Lee KH, Dong SX, Lu P, A modified ultrasonic linear motor SENSORS AND ACTUATORS A-PHYSICAL v. 86 n. 3 pp154-158, NOV 15 2000

88.Yao K, Uchino K, Xu Y, Dong SX, Lim LC, Compact piezoelectric stacked actuators for high power applications IEEE TRANSACTIONS ON ULTRASONICS FERROELECTRICS AND FREQUENCY CONTROL v.47 n.4 pp 819-825 JUL 2000

89.DONG SX, LI LT, GUI ZL, et al., A NEW-TYPE OF LINEAR PIEZOELECTRIC STEPPER MOTOR IEEE TRANSACTIONS ON COMPONENTS PACKAGING AND MANUFACTURING TECHNOLOGY PART A v.18 n.2 pp257-260, JUN 1995

90.DONG SX, LI Longtu, "Study on standing wave ultrasonic motor with L-B mode", FERROELECTRICS, Vol.195, pp.159-162, 1997. ^[1] 

91.Wang Shuxin, Shuxiang Dong, and Li Longtu, “Piezoelectric Ceramic Materials for Ultrasonic Micromotors”, Chinese Journal of Piezoelectrics & Acoustooptics, Vol.22, no.1, p23, 2000.

92.Shuxiang Dong, Shuxin Wang, Wenjiang Shen, Zhilun Gui and Li Longtu, “Rod-type ultrasonic mini-motor based on bending vibration mode”, Chinese Journal of Beijing Institute of Technology (English Edition), Vol.8, No.2, 1999, pp120-127 ^[5] 

93.Shuxiang Dong, Meng Yonggang, Shen Wenjiang, Qiu Hongyun and Li Longtu, “A planner motor combining with piezoelectric ceramic and ER fluid”, Chinese Journal of Functional Materials, Vol.31, No.5, p534, 2000

94.Shuxiang Dong, Wang Shuxin, Qiu Haibo and Li Longtu, “A Fine Positioner with Two Freedoms Driven by Two Ultrasonic Micromotors”, Chinese Journal of Piezoelectrics & Acoustooptics, Vol.21, No.5,p360, 1999

95.Shuxin Wan, Shuxiang Dong, Longtu Li, "A computer control system of piezoelectric traveling wave ultrasonic motor", Chinese Journal of Piezoelectrics & Acoustooptics Vol.18, No.6, 1996

96.Shuxiang Dong, Wang Shuxin, Shen Wenjiang, Qiu Haibo, and Li Longtu, “A Miniature Piezoelectric Ultrasonic Motor Based on Bending Vibration Mode”, Chinese Journal of ACTA Acoustica, Vol.24, No.2, Mar. 1999

97.Shuxiang Dong, Wang Shuxin, Shen Wenjiang, and Li Longtu, “ Friction and Noise in Piezoelectric Ultrasonic Motor”, Chinese Journal of ACTA Acoustica, Vol.24, No.3, May,1999

98.Shuxiang Dong, Longtu Li, "Study on piezoelectric traveling wave ultrasonic motor", Chinese Journal of ACTA Acoustica,Vol.22, No.3, 1997

99.Shuxiang Dong, Longtu Li, "Study on piezoelectric standing wave ultrasonic motor",Chinese Journal of ACTA Acoustica, Vol.22, No.4, 1997

100.Shuxiang Dong, Xiaoyong Wei, Longtu Li, The Characteristics of Piezoelectric-Electrorheological Linear Stepper Motor with High Resolution,Chinese Journal of ACTA Acoustica,Vol.22, No.6, 1997

101.Shuxiang Dong, Tieying Zhou, " A position-gripped ultrasonic transducer PGUT for linear inchworm motor",Chinese Journal of ACTA Acoustica,Vol.18, No.1, Jan. 1993, p19-28

102. Tieying Zhou, Shuxiang Dong, Xiaoping Liu, Longtu Li, and Xiaowen Zhang ,"A linear piezoelectric inchworm motor using position-gripped ultrasonic vibrator",Chinese Journal of ACTA Acoustica,Vol.18, No.1, Jan. 1993, p29-33

103.Zhou Tieyng, Shuxiang Dong, Liu Xiaoping, Li longtu and Zhang Xiaowen, "A linear inchworm motor using ultrasonic clamping vibrator", Chinese Journal of ACTA Acoustics, Vol.12, No.1, 1993, p19-24

104.Tieying Zhou, Shuxiang Dong and Chenggui Liu, " Piezoelectric acoustic motors", Chinese Journal of Physics,Vol.20, No.5, 1991 .International conference papers:

105.Shuxiang Dong (invited speaker), “Cryogenic traveling-wave ultrasonic motors for space pplications”, 50th ICAT/JTTAS Joint International Smart Actuator Symposium, Oct.9-10, 2007, Penn State University.

106.Shuxiang Dong (invited speaker), “Cryogenic traveling-wave ultrasonic motors for space pplications”, 50th ICAT/JTTAS Joint International Smart Actuator Symposium, Oct.9-10, 2007, Penn State University.

107.Shuxiang Dong (invited speaker), “Magnetoelectric composite materials--- enhanced magnetic field ensitivity and high voltage gain”, 2005 Spring Meeting of Materials Research Society (MRS), March 28-April 1, San Francisco, CA, USA.

108. Shuxiang Dong (invited speaker), “Piezoelectric single crystal ultrasonic motors for low-temperature applications”, 44th ICAT Smart Actuator Symposium, April 6&7, 2005, Penn State University.

109.Shuxiang Dong, Junyi Zhai, Zhengping Xing, Jie-Fang Li, and D. Viehland, “Magnetoelectric Laminate Composites—Enhanced Magnetic Field Sensitivity, and High Voltage Gain”, in Coupled Nonlinear Phenomena—Modeling and Simulation for Smart, Ferroic, and Multiferroic Materials, edited by R.M. McMeeking, M. Kamlah, S. Seelecke, and D. Viehland (Mater. Res. Soc. Symp. Proc. 881E, Warrendale, PA, 2005), CC6.7.

110.Shuxiang Dong, Feiming Bai, JieFang Li, and Dwight Viehland, “A Modified Piezoelectric Sound-Resonance-Cavity for Hydrogen Gas Detection”, 2005 Spring Meeting of American Ceramic Society, Cocoa beach, Florida, USA, Jan., 2005.

111.Xiaoning Jiang, Paul W. Rehrig, Wesley S. Hackenberger, Edward Smith, Shuxiang Dong, Dwight Viehland, Jim Moore, Jr., and Brian Patrick, ”Advanced piezoelectric single crystal based actuators”, Proc. SPIE Int. Soc. Opt. Eng. 5761， 2004. ^[6] 

112.D. Viehland, Shuxiang Dong, and Jie-Fang Li, “Low-frequency, Highly-sensitive Magneto-electric Laminate Composite for Magnetic Anomaly Detection”, 2004 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, Penn State, Pennsylvania, 2004.

113.Shuxiang Dong, Jie-Fang Li, and D. Viehland, “Resonance Magnetoelectric Effect and Voltage Gain Effect in TERFENOL-D/PZT Laminates”, 2004 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, Penn State, Pennsylvania, 2004.

114.Shuxiang Dong, Jie-Fang Li , and D. Viehland, “Magneto-Electric Laminate Composites Operated in (L-T) and (T-T) Modes: Measurement and Theoretical Analysis”, 105th Annual Meeting of American Ceramic Society; Nashville, Tennessee, 27-30 April, 2003.

115.D. Viehland, Shuxiang Dong, and Jie-Fang Li, “Giant magneto-electric effect in laminate composites of Terfoneol-D / PZT”, 105th Annual Meeting of American Ceramic Society; Nashville, Tennessee, 27-30 April, 2003.

116.Shuxiang Dong, F. Bai, J.-F. Li, D. Vieland, “Piezoelectric Sound-Resonance-Cavity for Hydrogen Gas Detection”, 105th Annual Meeting of American Ceramic Society; Nashville, Tennessee, 27-30 April, 2003.

117.Shuxiang Dong, Dwight Viehland, Kenji Uchino and Longtu Li, “Analytical Formulas for Piezoelectric Axisymmetric Unimorph Actuator”, 105th Annual Meeting of American Ceramic Society; Nashville, Tennessee, 27-30 April, 2003.

118.Shuxiang Dong, S. P. Lim, K.H. Lee, L.C. Lim, K. Uchino, “A PZT Ceramic Tube-Shaped Piezoelectric Micromotor”; 103th Annual Meeting of American Ceramic Society; 4/23/2001, Indianapolis, Indiana, USA.

119.Shuxiang Dong and Kenji Uchino, “Piezoelectric micromotor with 1.5mm diameter”, 33rd Smart Actuator Symposium, April 19-20, 2001.

120.Shuxiang Dong, Serra Cagatay, Kenji Uchino and D. Viehland, “A piezoelectric composite rotary type actuator”, 2002 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, 13-15, May 2002, Baltimore, Maryland, USA.

121.Shuxiang Dong, F. Bai, Jie-Fang Li, and D. Viehland, “Resonance acoustic field position sensor”, 2003 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, 6-8, May 2003, Penn State, Pennsylvania, USA.

122.D. Viehland, Shuxiang Dong, Jie-Fang Li, J-L Wang, M. Wuttig, R. Ramesh, “Giant magneto-electric materials: dual-tensor engineered laminate composites and epitaxial thin-layers”, 2003 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, 6-8, May 2003, Penn State, Pennsylvania, USA.

123.K. Uchino, B. Koc, S. Cagatay, P. Bouchilloux, S. Dong, “Micro piezoelectric ultrasonic motors”, 2003 U.S. Navy Workshop on Acoustic Transduction Materials and Devices, 6-8, May 2003, Penn State, Pennsylvania, USA.

124.Shuxiang Dong, Longtu Li, Zhilun Gui and Xiaowen Zhang , " A theoretical on traveling wave motor driving stator", ISAF'94, The Ninth International Symposium on the Applications of Ferroelectrics, IEEE, Ultrason Ferroelect & Frequency Control Soc ,USA, 1994.

125.Longtu Li, Shuxiang Dong, Zhilun Gui and Xiaowen Zhang , " Study on characteristics of standing wave motor", ISAF'94, The Ninth International Symposium on the Applications of Ferroelectrics, IEEE, Ultrason Ferroelect & Frequency Control Soc ,USA, 1994.

126.ZL Gui, W Zhong, Shuxiang Dong, LT LI, XW Zhang, Investigation on piezoelectric ceramics with high d33 , d31 for a new-type of rotational stepper motor, ISAF'94, The Ninth International Symposium on the Applications of Ferroelectrics, IEEE, Ultrason Ferroelect & Frequency Control Soc ,USA, 1994.

127.Tieying Zhou, Shuxiang Dong, Xiaoping Liu, Longtu Li, and Xiaowen Zhang ,"A study of linear piezoelectric inchworm motor using position-gripped ultrasonic vibrator", supplement to Acoustica, Vo.76, No.4, 1992. ^[1] 

擁有美國發明專利4項、中國發明專利19項。 ^[2] 

.Kenji Uchino, Shuxiang Dong, and Michael T. Strauss, “PIEZOELECTRIC MOTOR AND METHOD OF EXCITING AN ULTRASONIC TRAVELING WAVE TO DRIVE THE MOTOR”,US Patent 7,095,160;

2.Dwight Vihland, Shu-Xiang Dong, JieFang Li, “Magnetoelectric magnetic sensor with longitudinally biased magnetostrictive layer”, US Patent 7,023,206;

3.Dwight Vihland, Shuxiang Dong, JieFang Li, “Method and apparatus for high voltage gain using a magnetostrictive-piezoelectric composite”, US Patent 7,256,532.

4.Viehland, Dwight, Dong, Shuxiang, Li, Jie-fang, Zhai, Junyi, Method and Apparatus for High-Permeability Magnetostrictive/Piezo-Fiber Laminates Having Colossal, Near-Ideal Magnetoelectricity, US Patent 7771846.

5.發明人: 董蜀湘，陳治江，“壓電驅動器及壓電馬達”，中國發明專利201210014777.4。

6.發明人：董蜀湘，石花朵，一種單片縱向壓電d33彎模式壓電換能器，中國發明專利受理號：201210301491.4.

7.發明人：董蜀湘，陳建國，壓電驅動器製作方法及壓電驅動器，中國發明專利受理號：201210147357.3 ^[1] 

8.發明人：董蜀湘，陳建國，壓電驅動器及其製作方法，中國發明專利受理號：201210139024.6

9.發明人: 董蜀湘，郭明森，陳治江，“一種微型二自由度平面運動壓電電機”，中國發明專利201010242014.6 ；

10.發明人: 董蜀湘，李曉天，“壓電驅動器及直線壓電馬達”，中國發明專利201110084365.3。

11.發明人: 董蜀湘，郭明森，“一種微型壓電單晶直線電機”，中國發明專利201010199085.2；

12.發明人: 董蜀湘，李曉天，郭明森，“一種力-電換能器及其陣列”；中國發明專利201010211109.1；

13.發明人: 董蜀湘，郭明森，陳治江，“一種微型二自由度平面運動壓電電機”，中國發明專利201010242014.6 。

14.發明人:董蜀湘, 微型壓電馬達-鏡頭片的集成驅動機構, 發明專利: CN200710022415.9, 2007年 ；

15.發明人:董蜀湘, 邱海波, 王樹昕, 李龍土, 壓電超聲微馬達精密驅動的二維微動台,發明專利 CN97111802.7,1997年 ^[1] 

16.發明人:褚祥誠，董蜀湘,李龍土,邢增平,桂治輪,三維自支撐搖頭式高精度步進壓電超聲波馬達及驅動系統, 發明專利 CN01144192.5, 2001年

17.發明人:董蜀湘, 王樹昕, 沈文江, 李龍土, 桂治輪,基於自由彎曲振動模式的圓柱狀壓電超聲微馬達, 發明專利 CN98117827.8, 1998年

18.發明人:董蜀湘, 王樹昕, 魏曉勇, 李龍土,壓電-電流變平面自步進靈巧驅動器, 發明專利: CN97112474.4, 1997年

19.發明人:董蜀湘, 王樹昕, 邱海波, 李龍土, 桂治輪,基於彎曲振動模式的壓電超聲微馬達, 發明專利: CN97111805.1, 1997年

20.發明人:李龍土,閻立,褚祥誠,董蜀湘,可軸輸出力矩的圓棒狀壓電陶瓷微馬達, 發明專利: CN03146160.3,2003年

21.發明人:董蜀湘, 李龍土, 周鐵英, 桂治輪, 張孝文,壓電-電流變旋轉步進馬達, 發明專利: CN92105232.4, 1992年

22.發明人:董蜀湘, 李龍土, 周鐵英, 桂治輪, 張孝文,壓電-電流變直線步進馬達, 發明專利: CN92105262.6, 1992年

23.發明人:周鐵英, 董蜀湘,環形三迭片壓電超聲振子及用其鉗位的超聲微動馬達, 發明專利: CN89109320.6, 1989年。 ^[1]