魯聖國,男,廣東工業大學博士生導師。1985年6月和1988年6月在華中科技大學電子材料和元器件專業畢業,分別獲工學學士和碩士學位。1993年4月在西安交通大學電子材料研究所和電信學院獲工學博士學位。1998年7月至2002年12月在香港理工大學套用物理系和材料研究中心工作,任副研究員。2003年1月至2007年1月在香港城市大學物理和材料科學系工作,任研究員。2007年3月至2012年8月在美國賓州州立大學材料研究所和電氣工程系、美國戰略高分子科學公司工作,任博士後研究員、副研究員、高級副研究員和資深科學家顧問。主要從事功能薄膜製備、納米粉體和納米複合材料、微波介電陶瓷和薄膜、鐵電壓電和介電陶瓷電容器、換能器及非揮發性存儲器、鐵電聚合物及軟物質、驅動器、儲能器和電卡致冷器、鐵電-鐵磁耦合材料和器件、陶瓷和複合材料及器件等領域。在Science, Advanced Materials, Advanced Functional Materials,Applied Physics Letters, Physical Review B 等刊物和國際會議發表論文100 余篇,其中SCI 收錄82 篇,EI 收錄82 篇,獲得中國專利一項,公開美國專利和世界專利一項,申請美國專利兩項。2012 年9 月作為廣東工業大學”百人計畫”特聘教授人才引進。
基本介紹
- 中文名:魯聖國
- 畢業院校:西安交通大學
- 學位/學歷:博士
- 職業:教師
教育背景,工作經歷,學術兼職,主要榮譽,主要論文,智慧財產權,科研項目,
教育背景
1981.09-1985.06在華中科技大學電子材料和元器件專業畢業獲學士學位。
1985.09-1988.06在華中科技大學電子材料和元器件專業畢業獲碩士學位。
1993.04在西安交通大學電子材料和元器件專業畢業獲博士學位。
2007.03-2009.06在美國賓州州立大學材料研究所做博士後。
工作經歷
1993.04-1998.06, 東莞南方電子有限公司,任工程師、高級工程師。
1998.07-2002.12, 香港理工大學套用物理系和材料研究所,任副研究員。
2003.01-2007.01, 香港城市大學物理和材料科學系,任研究員。
2007.03-2009.05美國賓州州立大學材料研究所,博士後研究員.
2009.06-2012.05美國賓州州立大學材料研究所,副研究員.
2012.06-2012.08美國賓州州立大學電氣工程系,兼職高級副研究員.
2012.06-2012.08美國戰略高分子科學公司,資深科學家顧問.
2012.09-現在,廣東工業大學材料與能源學院,教授、碩士生導師、博士生導師。
學術兼職
1. 中國物理學會電介質專業委員會委員(2000-2010)
2. 中國電子學會青年工作委員會執行委員(1997-2000)
3. 國際電氣電子工程師協會(The Institute of Electrical and Electronics Engineers, Inc.) (IEEE)高級會員(1996-).
4. 中國電子學會(Chinese Institute of Electronics) (CIE)高級會員(1995-).
5. 國際電氣電子工程師協會北京分部創會高級會員(Founding senior member, IEEE UFFC Beijing Chapter).
6. 美國Electrochimica Acta審稿人.
7. 美國套用物理快報(Applied Physics Letters)審稿人.
8. 美國套用物理學報(Journal of Applied Physics)審稿人.
9. 美國陶瓷學會學報(Journal of the American Ceramics Society) 審稿人.
10. 德國套用物理雜誌(Applied Physics A: Materials: Science & Processing) 審稿人.
11. 美國國際電氣電子工程師協會介電體和電氣絕緣體會志(IEEE Transaction on Dielectrics and Electric Insulators) 審稿人.
12. 美國國際電氣電子工程師協會超聲、鐵電體和頻率控制會志(IEEE Transaction on Ultrasonics, Ferroelectrics, and Frequency Control) 審稿人.
13. 美國真空科學和技術B(Journal of Vacuum Science and Technology B)雜誌審稿人.
14. 國際感測器和執行器學報A(Sensors and Actuators A: Physical) 審稿人.
15. 美國材料快報(Materials Letters)審稿人.
16. 材料化學和物理(Materials Chemistry and Physics) 審稿人.
17. 美國材料研究學會2009年秋季會議論文集審稿人.
18. 先進電介質雜誌(Journal of Advanced Dielectrics) 審稿人.
主要榮譽
1. 西安交通大學科技進步一等獎,1994年.
2. 被選為中國電子學會(CIE) 高級會員,1995年.
3. 被選為國際電氣電子工程師協會(IEEE) 高級會員,1996年.
4. “電子元件與材料”雜誌”1997年江海杯”優秀論文三等獎,1998年.
5. 中國國家教育委員會科技進步二等獎 (第三完成人), 1995年.
6. 廣東省自然科學優秀論文三等獎,2003年.
7. 中南大學客座教授(2005年5月-2010年5月).
8. 中南大學博士生導師(2006年-).
主要論文
1. B. Neese, B. J. Chu, S. G. Lu, Y. Wang, E. Furman, and Q. M. Zhang, “Large electrocaloric effect in ferroelectric polymers near room temperature”, Science, 321, 821 (2008).
2. S. G. Lu, and Q. M. Zhang, “Electrocaloric materials for solid state refrigeration”, Adv. Mater., 21, 1983 (2009)
3. Y. H. Zhang, S. G. Lu, Y. Q. Li, Z. M. Dang, J. H. Xin, S. Y. Fu, G. T. Li, R. R. Guo, and L. F. Li, “Novel silica tube/polyimide composite films with variable low dielectric constant”, Adv. Mater., 17 (8), 1056 (2005).
4. J. Z. Jin, S. G. Lu, C. Chanthad, Q. M. Zhang, M. A. Haque, and Q. Wang, “Multiferroic Polymer Composites with Greatly Enhanced Magnetoelectric Effect under a Low Magnetic Bias,” Adv. Mater.,
5. X. Y. Li, S. G. Lu, X. Z. Chen, H. M. Gu, X. S. Qian, and Q. M. Zhang, J. Mater. Chem. C, 1, 23-37 (2013). (Feature Article)
6. Xiao-Shi Qian, Sheng-Guo Lu, Xinyu Li, Haiming Gu, Lian-Chy Chien, and Qiming Zhang, “Large electrocaloric effect in a dielectric liquid possessing a large dielectric anisotropy near the isotropic-nematic transition”, Adv. Funct. Mater. 2013
7. S. G. Lu, Z. Xu, and Haydn Chen, “Field-induced dielectric singularity, critical exponents and high dielectric tunability in [111] oriented 0.76PMN-0.24PT single crystal”. Phys. Rev. B 72, 054120 (2005).
8. S. I. Raevskaya, A. S. Emelyanov, F. I. Savenko, M. S. Panchelyuga, I. P. Raevski, S. A. Prosandeev, E. V. Colla, H. Chen, S. G. Lu, R. Blinc, Z. Kutnjak, P. Gemeiner, and B. Dkhil, “Quasivertical line in the phase diagram of single crystals of PbMg1/3Nb2/3O3-xPbTiO3 (x=0.00, 0.06, 0.13, and 0.24) with a giant piezoelectric effect”, Phys. Rev. B 76, 060101 (R) (2007).
9. S. G. Lu, B. Rožič Q. M. Zhang, Z. Kutnjak, and B. Neese, “Enhanced electrocaloric effect in ferroelectric poly(vinylidene-fluoride / trifluoroethylene) 55/45 mol% copolymer at ferroelectric-paraelectric transition,”Appl. Phys. Lett., 98, 122906 (2011).
10. S. G. Lu, B. Rožič Q. M. Zhang, Z. Kutnjak, R. Pirc, Minren Lin, Xinyu Li, and Lee J. Gorny, “Comparison of directly and indirectly measured electrocaloric effect in the relaxor ferroelectric polymers”. Appl. Phys. Lett., 97, 202901 (2010).
11. S. G. Lu, B. Rožič Q. M. Zhang, Z. Kutnjak, Xinyu Li, E. Furman, Lee J. Gorny, Minren Lin, B. Malič, M. Kosec, R. Blinc, and R. Pirc, “Organic and Inorganic Relaxor Ferroelectrics with Giant Electrocaloric Effect”, Appl. Phys. Lett., 97, 162904 (2010).
12. S. G. Lu, Z. Fang, E. Furman, Y. Wang, Q. M. Zhang, Y. Mudryk, K. A. Gschneidner Jr., V. K. Pecharsky, and C. W. Nan, “Thermally mediated multiferroic composites for the magnetoelectric materials”, Appl. Phys. Lett., 96, 102902 (2010).
13. S. G. Lu, B. Neese, B. J. Chu, Y. Wang, and Q. M. Zhang, “Large electric tunability in poly(vinylidene fluoride – trifluoroethylene) based polymers”, Appl. Phys. Lett., 93, 042905 (2008).
14. S. G. Lu, and Z. K. Xu, “Tunability and permittivity-temperature characteristics of highly (100) oriented compositionally graded (Ba0.7Sr0.3)(SnxTi1-x)O3 thin films grown by pulse-laser deposition”, Appl. Phys. Lett., 89, 152907 (2006).
15. S. G. Lu, Z. K. Xu and Haydn Chen, X. Y. Zhao, H. S. Luo, J. Wang, H. L. W. Chan, and C. L. Choy, “Effect of dc bias on the Curie-Weiss exponent in 0.76Pb(Mg1/3Nb2/3)O3 - 0.24PbTiO3 ferroelectric single crystal”, Appl. Phys. Lett., 86, 142905 (2005).
16. S. G. Lu, Z. K. Xu and Haydn Chen*, “Tunability and relaxor properties of ferroelectric barium stannate titanate ceramics”, Appl. Phys. Lett., 85 (22), 5319 (2004).
17. S. G. Lu, X. H. Zhu, C. L. Mak, K. H. Wong, H. L. W. Chan, and C. L. Choy, “High tunability in compositionally graded epitaxial barium strontium titanate thin films by pulsed laser deposition”, Appl. Phys. Lett., 82 (17), 2877-2879 (2003).
18. S. G. Lu, C. L. Mak, K. H. Wong, K. W. Cheah, “Photoluminescence of transparent strontium barium niobate doped silica nanocomposites”,
19. X. Y. Li, X. S. Qian, S. G. Lu, J. P. Cheng, Z. Fang, and Q. M. Zhang, “Tunable temperature dependence of electrocaloric effect in poly(vinylidene fluoride - trifluoroethylene - chlorofluoroethylene) terpolymer”, Appl. Phys. Lett., 99, 052907 (2011).
20. X. Y. Li, X. S. Qian, H. M. Gu, X. Z. Chen, S. G. Lu, M.R. Lin, F. Bateman, and Q. M. Zhang, “Giant electrocaloric effect in ferroelectric poly(vinylidenefluoridetrifluoroethylene) copolymers near a first-order ferroelectric transition”, Appl. Phys. Lett., 101, 132903 (2012).
21. S. Wu, M. R. Lin, S. G. Lu, L. Zhu, and Q. M. Zhang, “Polar fluoropolymer blends with tailored nanostructures for high energy density low loss capacitor applications”, Appl. Phys. Lett., 99, 132901 (2011).
22. Z. Fang, S. G. Lu, F. Li, S. Datta, Q. M. Zhang, and M. El Tahchi, “Enhancing the magnetoelectric response of Metglass/Polyvinylidene fluoride laminates by exploiting the flux concentration effect”, Appl. Phys. Lett., 95, 112903 (2009).
23. J. H. Lin, S. G. Lu, M. Lin, M. Geub, and Q. M. Zhang, “Evolution of relaxor ferroelectric behavior of poly(venylidene fluoride trifluoroethylene chlorofluoroethylene) terpolymer nanorods”, Appl. Phys. Lett., 95, 022911 (2009).
24. B. Neese, S. G. Lu, B. J. Chu, and Q. M. Zhang, “Electrocaloric effect of the relaxor ferroelectric poly(vinylidene fluoride-trifluoroethylene-chlorofluoroethylene) terpolymer”, Appl. Phys. Lett., 94, 042910 (2009).
25. Baojin Chu, Bret Neese, Minren Lin, Sheng-guo Lu, and Q. M. Zhang, “Enhancement of Dielectric Energy Density in the Poly(vinylidene Fluoride)-Based Terpolymer/Copolymer Blends”, Appl. Phys. Lett., 93, 152903 (2008).
26. S. S. Guo, S. G. Lu, Z. K. Xu, X. Z. Zhao, and S. W. Or, “Enhanced magnetoelectric effect in flextensional cymbal and Terfenol-D laminates”, Appl. Phys. Lett., 88, 182906 (2006).
27. W. P. Chen, Y. Wang, J. Y. Dai, S. G. Lu, X. X. Wang, P. F. Lee, H. L. W. Chan and C. L. Choy, “Spontaneous recovery of hydrogen degraded TiO2 ceramic capacitors”, Appl. Phys. Lett., 84 (1), 103-105 (2004).
28. X. Z. Chen, X. S. Qian, X. Y. Li, S. G. Lu, H. M. Gu, M. R. Lin, Q. D. Shen, and Q. M. Zhang, “Enhanced electrocaloric effect in poly(vinylidene fluoride-trifluoroethylene)-based terpolymer/copolymer blends”, Appl. Phys. Lett., 100 (22), 222902 (2012).
29. S. G. Lu, C. L. Mak, G. K. H. Pang, K. H. Wong, and K. W. Cheah, Nanotechnology, 19, 035702 (2008). Online,
30. S. G. Lu and Q. M. Zhang, “Recent advances in the applications of ferroelectric polymers”, Recent Patents on Materials Science, 3, 40 – 56 (2010).
31. S. G. Lu, J. Z. Jin, X. Zhou, Z. Fang, Q. Wang and Q. M. Zhang, “Linear relationship between the magnetoelectric coupling coefficient and in-situ poling field in poly(vinylidene fluoride – hexafluoropropylene)/Metglas laminates,” J. Appl. Phys. 110, 104103 (2011).
32. S. G. Lu, Z. K. Xu, Haydn Chen, C. L. Mak, K. H. Wong, K. F. Li, K. W. Cheah, “Time-resolved photoluminescence from barium titanate ultrafine particles”, J. Appl. Phys. 99, 064103 (2006).
33. S. G. Lu, C. L. Mak, K. H. Wong, “Optical properties of transparent ferroelectric strontium barium niobate/silica nanocomposite”, J. Appl. Phys. 94 (5), 3422-26 (2003).
34. V. V. Shvartsman, W. Kleemann,J. Dec, Z. K. Xu and S. G. Lu, “Diffuse phase transition in BaSn1-xTixO3 ceramics: an intermediate state between ferroelectric and relaxor behavior”, J. Appl. Phys., 99, 124111 (2006).
35. Y. B. Yao, S. G. Lu, Haydn Chen, J. W. Zhai, and K. H. Wang, “Role of oxygen pressure during pulsed laser deposition on the electric and dielectric properties of antiferroelectric lanthanum-doped lead zirconate stannate titanate thin films”, J. Appl. Phys. 96 (1), 569-574 (2004).
36. Y. B. Yao, S. G. Lu, Haydn Chen and K. H. Wong, “Effect of postdeposition annealing on the dielectric properties of antiferroelectric lanthanum-doped lead zirconate stanate titanate thin films derived from pulsed laser deposition’, J. Appl. Phys. 96 (10), 5830 (2004).
37. S. G. Lu, Y. H. Lu, Z. K. Xu, and K. W. Cheah, “Photoluminescence from boron doped titanium nitride nanocomposite thin films prepared by magnetron sputtering method”, J. Am. Ceram. Soc. 90 (12) 4002-04 (2007). (Introduced by MRS Bulletin, 33, 78 (2008))
38. S. G. Lu, C. L. Mak, K. H. Wong, “Low temperature preparation and size effect of strontium barium niobate ultrafine powder”. J. Am. Ceram. Soc., 84 (1) 79-84 (2001).
39. S. G. Lu, C. L. Mak, K. H. Wong, ”Structure and dielectric properties of strontium barium niobate doped silica fuse glass via a novel route”, J. Am. Ceram. Soc. 86 (8), 1333-37 (2003).
40. S. G. Lu, B. Rožič Q. M. Zhang, Z. Kutnjak, R. Pirc, “Electrocaloric effect in ferroelectric polymers”, App. Phys. A 107, 559 (2012).
41. S. G. Lu and Q. M. Zhang, “Large electrocaloric effect in relaxor ferroelectrics”, J. Adv. Dielect, 2, 123011 (2012).
42. L. Gorny, S. G. Lu, S. Liu, and M. Lin, “Electromechanical properties of relaxor ferroelectric P(VDF-TrFE-CFE)-P(VDF-CTFE) blends”, IEEE Trans. Ultra. Ferro. Freq. Cont. 60 (3), 441 (2013).
智慧財產權
1. S. G. Lu, Z. K. Xu, and S. S. Guo, Chinese Patent, “A new type of magnetoelectric device”. Application No. 200610068282.4.
2. Q. M. Zhang, B. Neese, S. G. Lu, and B. J. Chu, “Solid state refrigeration devices”, US patent, (pending)
3. Q. M. Zhang, S. G. Lu, X. Y. Li, L. Gorny, and J. P. Cheng, “Refrigeration devices based on polar polymers”, US Patent, US2011/0016885; WO/2011/014508.
4. Q. M. Zhang, H. M. Gu, B. Craven, A. L. Cheng, S. G. Lu, “Electrocaloric Polymer Cooling Devices” (US Patent, filed).
科研項目
1. 百人計畫項目-實驗室建設和科研啟動費,廣東工業大學。
2. 多層鐵電材料的電場誘導相變和巨電卡效應的研究,國家自然科學基金委員會。
