师资队伍 - 教师简介
男,民盟盟员,博士/副教授/硕士生导师,国家自然科学基金评审专家,重庆市高校中青年骨干教师。2014年1月博士毕业于中国科学院大学,2014年2月起在重庆科技学院任教。主要承担《半导体物理学》、《微电子器件工艺》等本科生课程的教学任务以及《纳微材料及应用》、《材料性能学》等研究生的教学任务。
目前主要从事磁、电、光等功能材料的制备、性能、机制方面的研究。近年来承担国家自然科学基金、省部级等项目30余项;在Nanoscale, Advanced Electronic Materials,Applied Physics Letters等世界著名刊物上发表SCI论文130余篇;制定国家标准1项,授权专利36件(发明专利25件,18件专利成果已实现转让);获省部级奖励5项。目前担任国际期刊《Advances in Computers and Electronics》主编、《Materials International》、《Advances in Materials》、《Edelweiss Chemical Science》、《Annals of Research and Reviews》等多个国际期刊编委;《Advanced Power Materials》、《粉末冶金材料科学与工程》青年编委,长期担任担任 Nature Communications、Advanced Materials 、ACS Applied Materials & Interfaces, NPG Asia Materials等多个国外知名SCI期刊审稿人。被Journal of Physics D: Applied Physics、 Journal of Materials Engineering and Performance等国际著名SCI期刊评为优秀审稿人(Outstanding Reviewer);获ECS-IOP值得信赖的审稿人奖(ECS-IOP Trusted Reviewer Status)。 2023年入选全球前2%顶尖科学家榜单。
2015.12-今,重庆科技大学, 副教授
2014.02-2015.11,重庆科技大学,讲师
2010.09-2014.01,中国科学院大学,博士研究生
2006.07-2009.06,西南大学,硕士研究生
2000.,9-2004.07,西南大学,本科生
重庆三变净化设备科技有限公司横向项目,关于净化装置的发明专利转让,2024.04-2024.12,3.0万元,主持。
冶金自动化研究设计院有限公司横向项目,基于双目视觉的履带板轮廓识别及精准定位项目开发与应用,2024.01-2024.06,5.0万元,主持。
冶金自动化研究设计院有限公司横向项目,工程项目管理平台,2023.05-2023.12,9.0万元,主持。
深圳立专信息科技有限公司横向项目,关于太阳能电池的专利转让,2023.11-2024.08,1.2万元,主持。
台晶(重庆)电子有限公司横向项目,技术合作协议,2021.11-2022.06,0.5万元,主持。
重庆市教委科学技术研究重点项目,KJZD-K202201506,基于成分/厚度双梯度协同调控的钡铁氧体@聚合物复合材料吸波性能研究,2022.10.01- 2025.9.30,12万元,参与。
重庆市鸿富诚电子新材料有限公司横向项目,低反射、大带宽钡铁氧体高频吸波材料的研发,2022.10-2024.12,70万元,参与。
重庆市基础研究与前沿探索专项项目,cstc2021jcyj-msxmX0008,基于载流子产生/分离协同的量子点@叠层铁电薄膜光伏效应调控,2021/10-2024/09, 3万元,主持
重庆市基础研究与前沿探索专项项目,cstc2021jcyj-msxmX0039,核@壳结构柔性磁电复合纳米线阵列耦合特性调控,2021/10-2024/09, 5万元,参与
重庆科技学院自制教学仪器设备项目,ZZSB202106,液体材料电性能测试实验装置研制,2021/11-2023/10,1.9万元,主持。
1重庆蕴博知识产权代理有限公司横向项目,一种太阳能电池结构等三个专利转让,2021/1-2022/12,9.85万元,主持。
重庆蕴博知识产权代理有限公司横向项目,铁电纳米链制备方法等五个专利转让,2021/1-2022/12,5.88万元,主持。
重庆市自然科学基金重点项目, cstc2020jcyj-zdxmX0008,夹心式磁电纳米线阵列能量收集器的光伏效应多维调控机理,2020/09-2023/08,20万元,参与
重庆市鸿富诚电子新材料有限公司横向项目,面向5G通信用高性能Mn-Zn铁氧体/FeSiAl软磁吸波材料的研发,2020/11-2022/12,44万元,参与
重庆科技学院科研资助项目(青年科学基金),CKRC2019020,过渡金属硫系化合物和尖晶石双金属氧化物的二元复合纳米结构的可控制备和电化学水裂解催化性能研究,15万元,2019/09-2022/09,参与.
重庆市教委科学技术研究项目, KJQN20190150,基于磁-电双分散智能液体磁/极化协同的耦合效应调控机制研究,2019/10-2022/10,4万元,主持
重庆市基础研究与前沿探索专项项目 (重庆市自然科学基金项目),cstc2018jcyjAX0416,基于核壳结构多铁性液体磁电耦合效应的磁/电极化特性调控研究,2018/08-2021/07,10万元,主持。
冶金自动化研究设计院横向项目,钢轨廓形在线分析与检测技术前期研究调研,2019/01-2019/07,7.0万元,主持。
重庆大学国家镁合金材料工程技术研究中心开放基金,镁合金氧化膜压电性探索,2018/12-2020/11,2.5万元,主持。
重庆市教委科学技术研究项目,KJQN201801509, ABX3型钙钛矿@半导体核壳结构纳米材料光催化HMF调控及机理研究,2018/08-2021/07,5万元,参与。
重庆市教委科学技术研究项目,KJ1713338,高优值氧化物热电材料的纳米尺度效应研究,2017/01-2018/12,2万元,参与。
重庆市自然科学基金项目,cstc2016jcyjA0611,基于光驱动铁电复合多层膜的光致伸缩效应及其耦合机理研究,2016/08-2019/07,5万元,主研。
重庆市自然科学基金项目,cstc2016jcyjA0615,基于非接触式移相器用多铁薄膜磁电耦合效应研究,2016/08-2019/07,5万元,主研。
重庆高校创新团队建设计划,CXTDX201601032,纳微智能材料,2016.09 - 2019.09,30万元,参与。
重庆市自然科学基金项目,cstc2015jcyjA50015,基于氧空位及退极化场调控的铁电薄膜光伏效应机制研究,2015/08-2018/07,2.5万元,主持。
重庆市教委科学技术研究项目,KJ1501310,光伏/压电复合薄膜光致伸缩效应研究,2015/07-2017/07,2万元,主研。
重庆市教委科学技术研究项目,KJ1501318,基于电畴及界面调控的铁电薄膜光伏效应机制研究,2015/08-2018/07,2万元,主持。
重庆市自然科学基金项目,cstc2015jcyjA50003,基于高固溶度组元合金化协同调制碲化铅热电材料能带与微结构,2015/08-2018/07,2.5万元,参与。
重庆科技学院博士基金,CK2015B05,基于电场驱动的铁电薄膜光伏效应调控机制研究,2015/05-2018/04,6万元,主持。
重庆科技学院重点培育基金,CK2015Z13,非接触式介磁移相器用多铁薄膜的磁电耦合效应研究,2015/05-2018/04,3万元,参与。
国家自然科学基金青年基金,51402031,基于电脉冲法的铁电薄膜光伏效应调控机制研究,2015/01-2017/12,25万元,主持。
国家自然科学基金青年基金,61404018,基于磁场驱动电畴的多铁薄膜介磁非线性调控研究,2015/01-2017/12,24万元,参与。
重庆科技学院院士专家工作站合作项目,CKYS2014Z01,电脉冲法对铁电薄膜光伏效应原位调控机制研究,2014/05-2016/04,3万元,主持。
重庆科技学院院士专家工作站合作项目,CKYS2014Z03,基于多尺度微结构和多效应能带结构协同调控Pb1-xMnxTe电热输运性能,2014/05-2016/04,3万元,主持。
重庆科技学院院士专家工作站合作项目,CKYS2014Y04,磁场调控电畴的多铁薄膜介磁非线性研究,2014/05-2016/04,1.5万元,参与。
国家自然科学基金面上项目,11374339,氧化物阻变效应动态过程及相关机理研究,2014/01-2017/12,89万元,参与。
国家自然科学基金面上项目,11274363,金属/绝缘体随机混合体系阻变效应研究,2013/01-2016/12,90万元,参与。
国家自然科学基金面上项目,11174345,钙钛矿锰氧化物薄膜表面电子结构研究,2012/01-2015/12,75万元,参与。
国家自然科学基金面上项目,10974159,基于界面激子复合的新型有机太阳能电池,2010/01-2012/12,42万元,参与。
重庆市自然科学基金,CSTC2007BA3031,二元磁性液体的制备及其物理性质研究,2007/11-2010/12,2万元,参与。
1.以第一/通讯作者发表的部分代表性论文:
1. Chen Chen, Hong Ao, Yiwen Ding , Gang Meng*, Yulin Zhang, Siqi Zhong, Guiyun Sun, R.L. Gao*, Xiaoling Deng, Wei Cai*, Zhenhua Wang, Chunlin Fu, Xiang Lei, Gang Chen. Settlement stability, electrical properties, and magnetoelectric properties of Mn0.5Zn0.5Fe2O4-PbZr0.5Ti0.5O3 multiferroic fluids modulating by particle sizes, Materials Today Communications, 40, 110145 (2024) (SCI)
2. Chen Chen, Haowen Mu, Youlun Zhu, Hong Ao, Gang Meng*, Yiwen Ding, R.L. Gao*, Xiaoling Deng, Wei Cai*, Zhenhua Wang, Chunlin Fu, Xiang Lei, Gang Chen. Study on the magnetoelectric coupling properties of Mn0.5Zn0.5Fe2O4-PbZryTi1-yO3 multiferroic fluids with different polarization intensities. Materials Science and Engineering B, 304: 117337 (2024) (SCI)
3. Yiwen Ding, Keju Ren, Chen Chen, Li Huan, R.L. Gao*, Xiaoling Deng∗,Gang Chen, Wei Cai, Chunlin Fu, Zhenhua Wang, Xiang Lei. High-entropy perovskite ceramics: Advances in structure and Properties. Processing and Application of Ceramics, 18 [1]:1-11(2024) (SCI)
4. Hong Ao, Chen chen, Haowen Mu, Youlun Zhu, Gang Meng*,Yiwen Ding, Heng Wu, R.L. Gao*, Xiaoling Deng, Wei Cai, Yilong Ma, Chunlin Fu. Influence of Volume Fraction on Magnetodielectric Effect in CoFe2O4-Ba0.8Sr0.2TiO3 Multiferroic Fluids. Applied Physics A, 130:182 (2024) (SCI)
5. Yulin Zhang, Siqi Zhong, Guiyun Sun, Chen Chen, Yiwen Ding, R.L. Gao*,Wei Cai, Chunlin Fu. Effect of annealing atmosphere on the energy storage performance of antiferroelectric ceramics PLZT, Journal of Materials Science, Materials in Electronics, 35: 181 (2024) (SCI)
6. Yiwen Ding, Zhixin Zeng, KeJu Ren, Gang Meng*, R.L. Gao*, Xiaoling Deng, Gang Chen, Wei Cai, Chunlin Fu, Zhenhua Wang, Xiang Lei. Improved photomagnetoelectric properties of BiFeO3/CoFe2O4 films by using the size effect. Journal of Materials Science, Materials in Electronics, 35: 7 (2024) (SCI)
7. Chen Chen, Siqi Zhong, Guiyun Sun, Yulin Zhang, Yiwen Ding, Keju Ren, Huan Li, R.L. Gao*, Xiaoling Deng, Wei Cai*, Zhenhua Wang, Chunlin Fu, Xiang Lei, Gang Chen. The magnetoelectric coupling effect of multiferroic fluids and their potential applications. Journal of Materials Science, Materials in Electronics, 34:2041 (2023) (SCI)
8. Siqi Zhong, Yulin Zhang, Guiyun Sun, Chen Chen, Yiwen Ding, Hong Ao, R.L. Gao*, Xiaoling Deng, Wei Cai*, Zhenhua Wang, Chunlin Fu, Xiang Lei, Gang Chen. Enhanced magnetoelectric coupling properties of MnFe2O4–PbZr0.52Ti0.48O3 multiferroic liquids tuning by volume fraction. Journal of Materials Science, Materials in Electronics, 34:1733 (2023) (SCI)
9. Siqi Zhong, Yulin Zhang, Guiyun Sun, Heng Wu, Hong Ao, Wenchuan Li, R.L. Gao*, Xiaoling Deng*, Wei Cai, Zhenhua Wang, Chunlin Fu, Xiang Lei, Gang Chen. Effect of ball milling time on the magnetoelectric coupling effect of the multiferroic liquid CoFe2O4-Ba0.8Sr0.2TiO3. Journal of Materials Research, 38, 2576-2587 (2023)(SCI)
10. H. Wu, Y.L. Zhang, H. Ao, S.Q. Zhong, Z.X. Zeng, W.C.Li, R.L. Gao*, C.L. Fu, G. Chen, X.L. Deng, Z.H. Wang, X. Lei, W. Cai*. Controlling magnetoelectric coupling effect of CoFe2O4-Ba0.8Sr0.2TiO3 multiferroic fluids by viscosity. New Journal of Chemistry, 47, 4113(2023)(SCI)
11. R.J. Wu, L.Y.J. Huang, L.G. Jin, R.L. Gao*, L. Bai, Z.Y. Xu*. Microstructure, dielectric and ferroelectric properties of (1-x)Bi0.5Na0.5TiO3-x(0.8Ba0.9Sr0.1TiO3-0.2BiFeO3) lead-free ceramics. Journal of Materials Science, Materials in Electronics, 33, 25404-25418(2022)(SCI)
12. W.C. Li, H. Ao, X.X. Liu, H. Wu, S.Q. Zhong, Y.L. Zhang, R.L. Gao*, X.L. Deng, G. Chen, W. Cai, C.L. Fu, Z.H. Wang, X. Lei. Effect of sintering temperature on magnetoelectric properties of Co0.8Cu0.2Fe2O4@(Pb0.95La0.05)(Zr0.86Ti0.14)O3 ceramics. Journal of Materials Science, Materials in Electronics, 33, 20413-20423 (2022)(SCI)
13. H. Ao, W.C. Li, Y.L. Zhang, S.Q. Zhong, H.g Wu, R.L. Gao*, X.L. Deng, G. Chen, C.L. Fu, Z.H. Wang, W. Cai*, X. Lei. Effect of particle size of ferroelectric phase on multiferroic properties of MnFe2O4-PbZr0.52Ti0.48O3 multiferroic liquid. Journal of Materials Science, Materials in Electronics, 33, 18472-18486 (2022)(SCI)
14. H. Ao, H. Wu, W.C. Li, M.S. Lan, Z.X. Zeng, Q. Zhang, R.L. Gao*, X.L. Deng, G. Chen, C. Fu, Z.H. Wang, X. Lei, W. Cai. Effect of sintering temperatures on the magnetoelectric properties of Bi0.78La0.08Sm0.14Fe0.85Ti0.15O3 ceramics. Processing and Application of Ceramics, 16 (2), 89-96 (2022) (SCI)
15. H. Wu, W.C. Li, H. Ao, Z.X. Zeng, X.F. Qin, S.L. Xing, C. Zhou, R.L. Gao*, X.L. Deng, W. Cai#, G. Chen, Z.H. Wang, X. Lei, C.L. Fu. Effect of holding time on microstructure, ferroelectric and energy-storage properties of Pb0.925La0.05Zr0.95Ti0.05O3@SiO2 ceramics. Journal of Alloys and Compounds, 896, 162932 (2021) (SCI)
16. W.C. Li, H. Wu, H. Ao, Z.X. Zeng, R.L. Gao*, W. Cai*, C.L. Fu, X.L. Deng, G. Chen, Z.H. Wang, X. Lei. Dielectric, ferroelectric, magnetic and multiferroic properties of xNi0.15Cu0.25Zn0.6Fe2O4-(1-x)Ba0.85Ca0.15Zr0.1Ti0.9O3 composite ceramics. Applied Physics A, 127, 915 (2021) (SCI)
17. X.F. Qin, H. Wu, C.Y. Chen, H. Ao, W.C. Li, R.L. Gao*, W. Cai, G. Chen, X.L. Deng, Z.H. Wang, X. Lei, C.L. Fu. Enhanced energy-storage performance of Pb0.925La0.05Zr0.95Ti0.05@xwt%SiO2 composite ceramics. Journal of Alloys and Compounds, 890, 161869 (2021) (SCI)
18. H. Wu, R.C. Xu, C. Zhou, S.L. Xing, Z.X. Zeng, H. Ao, W.C. Li, X.F. Qin, R.L. Gao*. Effect of core size on the magnetoelectric properties of Cu0.8Co0.2Fe2O4@Ba0.8Sr0.2TiO3 ceramics. Journal of Physics and Chemistry of Solids, 160, 110314 (2022) (SCI)
19. R. L. Gao*, T.Y. Lei, C.L. Fu, W. Cai, G. Chen, X.L. Deng, Z.H. Wang, X. Lei. Photovoltaic effect in Sr-doped BiFeO3 thin films. Ferroelectrics, 582(1): 70-79(2021) (SCI)
20. H. Wu, Z.X. Zeng, S.L. Xing, M.S. Lan, W.C. Li, Q. Zhang, H. Ao, C. Zhou, R.C. Xu, R. L. Gao*, X.L. Deng. Microstructure, Magnetodielectric and Multiferroic Properties of xCo0.8Cu0.2Fe2O4-y(0.8BaTiO3-0.2BiAlO3) Composite Ceramics. Advanced Engineering Materials, 2100410, (2021) (SCI)
21. H. Wu, H. Ao, W.C. Li, Z.X. Zeng, R.L. Gao*, C.L. Fu, G. Chen, X.L. Deng, Z.H. Wang, X. Lei, W. Cai*. Improvement of magnetoelectric coupling effect in Ba0.8Sr0.2TiO3-Co0.5Cu0.5Fe2O4 multiferroic fluids by tuning the composition. Materials Today Chemistry, 21: 100511 (2021) (SCI)
22. X.F. Qin, C. Zhou, H. Wu, L. Cheng, T. Fan, R.L. Gao*, Z.X. Zeng, H.D. Wu. Effect of Al2O3 addition on magnetoelectric properties of Ni0.5Zn0.5Fe2O4/Ba0.8Sr0.2TiO3 composite ceramics. Journal of Electronic Materials, 50(26): 1-9 (2021) (SCI)
23. J. Yu, L. Bai, R. L. Gao*. Effect of sintering temperature on magnetoelectric coupling effect of 0.2Ni0.9Zn0.1Fe2O4-0.8Ba0.9Sr0.1TiO3 composite ceramics. Processing and Application of Ceramics. 14[4]: 336–345 (2020)(SCI)
24. R.L. Gao*, X.F. Qin, H.L. Duan, H. Wu, R.C. Xu, Q.W. Zhang, S.L. Zhang, Z.D. Li. Dielectric and multiferroic properties of 0.8BaTiO3-0.2BiAlO3/Co0.8Cu0.2Fe2O4 composite ceramics, Journal of Materials Science, Materials in Electronics, 31:13730-13745 (2020)(SCI)
25. R.L. Gao*, Y.Z. Xue, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, X. Lei, W. Cai. Effect of particle size on dielectric and magnetoelectric coupling effect of CoFe2O4@BaTiO3 composite fluids. Journal of Materials Science, Materials in Electronics, 31:9026-9036 (2020)(SCI)
26. C.Y. Li, R.C. Xu, R.L. Gao*, Z.H. Wang, G. Chen, X.L.g Deng, W. Cai, C.L. Fu, Q.T. Li. Structure, dielectric, piezoelectric, antiferroelectric and magnetic properties of CoFe2O4-PbZr0.52Ti0.48O3 composite ceramics, Materials Chemistry and Physics, 249: 123144 (2020)(SCI)
27. X.F. Qin, H. Wu, R.C. Xu, R.L. Gao*, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, W. Cai. Study on magnetoelectric properties of Ni0.5Zn0.5Fe2O4/Ba0.8Sr0.2TiO3 composite ceramics based on Bi2O3 as combustion aid. Journal of Materials Science, Materials in Electronics, 31: 4073-4082 (2020)(SCI)
28. R.L. Gao*, X.F. Qin, T. Fan, R.C. Xu, H. Wu, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, W. Cai. Influence of IrO2 addition on magnetoelectric propertiesof Ni0.5Zn0.5Fe2O4/Ba0.8Sr0.2TiO3 composite ceramics. Journal of Materials Science, Materials in Electronics, 31:2436–2445 (2020)(SCI)
29. H. Wu, R.C. Xu, X.F. Qin, R.L. Gao*, Z.H. Wang, C.L. Fu, W. Cai, G. Chen, X.L. Deng. Effect of volume fraction on magnetoelectric coupling effect of Co0.1Cu0.9Fe2O4/Ba0.8Sr0.2TiO3 composite liquid. Applied Physics A, 126:94-104 (2020)(SCI)
30. C.Y. Li, R.C. Xu, R. L. Gao*, Z.H. Wang, G. Chen, X.L. Deng, W. Cai, C.L. Fu, Q.T. Li. A comparative study on the structural, dielectric, ferroelectric and magnetic properties of CoFe2O4/PbZr0.52Ti0.48O3 multiferroic composite with different molar ratios. Journal of Physics Communications. 3: 125010 (2019)(ESCI)
31. H. Wu, R.C. Xu, X.F. Qin, R.L. Gao*, S.L. Zhang, C. Zhou, S.L. Xing, W. Cai. Enhancement of magnetoelectric properties and coupling coefficient of Co1-xCuxFe2O4/Ba0.8Sr0.2TiO3 composite liquid. Journal of Materials Science, Materials in Electronics, 31:885-895(2020) (SCI)
32. X.F. Qin, R.C. Xu, H. Wu, R.L. Gao*, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, W. Cai. A Comparative Study on the Dielectric and Multiferroic Properties of Co0.5Zn0.5Fe2O4/Ba0.8Sr0.2TiO3 Composite Ceramics. Processing and Application of Ceramics. 13(4): 349–359 (2019)(SCI)
33. R.L. Gao*, X.F. Qin, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, W. Cai. A comparative study of the dielectric, ferroelectric and anomalous magnetic properties of Mn0.5Mg0.5Fe2O4/Ba0.8Sr0.2Ti0.9Zr0.1O3 composite ceramics. Materials Chemistry and Physics, 232:428-437 (2019)(SCI)
34. R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, W. Cai. Anomalous magnetoelectric coupling effect of CoFe2O4-BaTiO3 binary mixed Fluids. ACS Applied Electronic Materials, 1(7):1120-1132 (2019) (SCI)
35. R.L. Gao*, X.F. Qin, H. Wu, R.C. Xu, L. liu, Z.H. Wang, C.L. Fu, W. Cai, G. Chen, X.L. Deng. Effect of Ti doping on the dielectric, ferroelectric and magnetic properties of Bi0.86La0.08Sm0.14FeO3 ceramics. Materials Research Express. 6(10):106317 (2019) (SCI)
36. L. Bai, R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, Wei Cai#. Influence of molar ratio on dielectric, ferroelectric and magnetic properties of Co0.5Mg0.5Fe2O4/Ba0.85Sr0.15TiO3 composite ceramics. Processing and Application of Ceramics. 13(3): 257–268 (2019) (SCI)
37. L. Bai, R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, X.D. Luo, W. Cai#. Strong magnetic properties and enhanced coupling effect by tailoring the molar ratio in BaTiO3/Co0.5Mg0.3Zn0.2Fe2O4 composite ceramics. Journal of Materials Science, Materials in Electronics, 30: 11563-11575 (2019) (SCI)
38. L. Bai, R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, Y. Qiu. Luo, W. Cai#. Microstructure, dielectric and enhanced multiferroic properties of Fe3O4/PbZr0.52Ti0.48O3 composite ceramics. Journal of Materials Science, Materials in Electronics, 30(13), 12295-12306 (2019) (SCI)
39. R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, G. Chen, X.L. Deng, C.L. Fu, W. Cai. A comparative study on the structural, dielectric and multiferroic properties of Co0.6Cu0.3Zn0.1Fe2O4/Ba0.9Sr0.1Zr0.1Ti0.9O3 composite ceramics. Composites Part B. 166:204-212 (2019) (SCI)
40. R.L. Gao*, X.F. Qin, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, W. Cai. Enhancement of Magnetoelectric properties of (1-x)Mn0.5Zn0.5Fe2O4-xBa0.85Sr0.15Ti0.9Hf0.1O3 Composite Ceramics. Journal of Alloys and Compounds, 795: 501-512 (2019) (SCI)
41. R.L. Gao*, Q.M. Zhang, Z.Y. Xu, Z.H. Wang, C.L. Fu, G. Chen, X.L. Deng, X.D. Luo, Y. Qiu, Wei Cai#. Enhanced multiferroic properties of Co0.5Ni0.5Fe2O4/Ba0.85Sr0.15TiO3 composites based on particle size effect. Journal of Materials Science: Materials in Electronics, 30(11): 10256-10273 (2019) (SCI)
42. Y.Z. Xue, R.C. Xu, Z.H. Wang, R.L. Gao*, C. Y. Li, G. Chen, X.L. Deng, W. Cai, C.L. Fu#. Effect of Magnetic Phase on Structural and Multiferroic Properties of Ni1-xZnxFe2O4/BaTiO3 Composite Ceramics. Journal of Electronic Materials, 48(8): 4806-4817 (2019) (SCI)
43. R. C. Xu, S. L. Zhang, F. Q. Wang, Q. W. Zhang, Z. D. Li, Z. H. Wang, R.L. Gao*, C. L. Fu#. The Study of Microstructure, Dielectric and Multiferroic Properties of (1-x) Co0.8Cu0.2Fe2O4-xBa0.6Sr0.4TiO3 Composites, Journal of Electronic Materials, 48(1), 386-400 (2019) (SCI)
44. R.L. Gao*, Q.Z. Leng, Z.H. Wang, G. Chen, C.L. Fu, X.L. Deng, W. Cai#. Magnetocapacitance and magnetoelectric coupling effect of Ni0.5Cu0.5Fe2O4/BaTiO3 mixed multiferroic fluids. Materials Research Express. 6, 026308 (2019) (SCI)
45. R.L. Gao*, Q. M. Zhang, Z. Y. Xu, Z. H. Wang, W. Cai, G. Chen, X. L. Deng, X. L Cao, X. D. Luo, C. L. Fu. Strong Magnetoelectric Coupling Effect in BaTiO3@CoFe2O4 Magnetoelectric Multiferroic Fluids. Nanoscale, 10(26), 11750-11759 (2018) (SCI)
46. R.L. Gao*, L. Bai, Z. Y. Xu, Q. M. Zhang, Z. H. Wang, W. Cai, G. Chen, X. L. Deng, C. L. Fu. Electric-field induced magnetization rotation in magnetoelectric multiferroic fluids. Advanced Electronic Materials, 4(6),1800030 (2018) (SCI)
47. R.L. Gao*, Z.H. Wang, G.Chen, X.L. Deng, W. Cai, C.L.Fu#. Influence of core size on the multiferroic properties of CoFe2O4@BaTiO3 core shell structured composites. Ceramics International. 44: S84-S87(2018) (SCI)
48. R.C. Xu, Z. H. Wang, R. L. Gao*, S.L. Zhang, Q.W. Zhang, Z. D. Li, C. Y. Li, G. Chen, X. L. Deng, W. Cai, C.L. Fu*. Effect of molar ratio on the microstructure, dielectric and multiferroic properties of Ni0.5Zn0.5Fe2O4-Pb0.8Zr0.2TiO3 nanocomposite. Journal of Materials Science, Materials in Electronics, 29:16226-16237 (2018) (SCI)
49. J. H. Zou, R.L. Gao*, C.L. Fu, W. Cai, G. Chen, X. L. Deng. Influence of Co ion doping on the microstructure, magnetic and dielectric properties of Ni1-xCoxFe2O4 ceramics. Processing and Application of Ceramics.12(4): 335-341 (2018) (SCI)
50. Z.X. Li, Z.H. Wang, R.L. Gao*, W. Cai, G. Chen, X.L. Deng, C.L. Fu*. Dielectric, ferroelectric and magnetic properties of Bi0.78La0.08Sm0.14Fe0.85Ti0.15O3 ceramics prepared at different sintering conditions, Processing and Application of Ceramics. 12(4): 394-402 (2018) (SCI)
51. R.L. Gao*, C.L. Fu, W. Cai, G. Chen, X.L. Deng, X.L. Cao, X.D. Luo. Photovoltaic effect in rhombohedral and tetragonal phase BiFeO3 ferroelectric thin films. Integrated Ferroelectrics. 192 (1), 146-153 (2018) (SCI)
52. R.L. Gao*, C.L. Fu*, W. Cai, G. Chen, X.L. Deng, X.L. Cao. Thickness dependence of photovoltaic effect in BiFeO3 thin films based on asymmetric structures. Journal of Electronic Materials, 46(4), 2373-2378(2017) (SCI)
53. R.L. Gao*, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. R. Zhang, J. R. Sun, B. G. Shen. Electric Control of the Hall effect in Pt/Bi0.9La0.1FeO3 bilayers, Scientific Reports, 6, 20330 (2016) (SCI)
54. R.L. Gao*, W. Cai, G. Chen, X.L. Deng, X.L. Cao, C.L. Fu*. Enhanced ferroelectric photovoltaic effect based on converging depolarization field. Materials Research Bulletin, 84, 93-98 (2016) (SCI)
55. R.L. Gao*, C.L. Fu, W. Cai, G. Chen, X.L. Deng, X.L. Cao. Switchable Photovoltaic Effect in Au/Bi0.9La0.1FeO3/La0.7Sr0.3MnO3 heterostructures. Materials Chemistry and Physics, 181, 277-283(2016) (SCI)
56. R.L. Gao, S. N. Han, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. R. Zhang, J. R. Sun. Enhanced photovoltaic effect of La0.8Sr0.2MnO3-dThin Films based on electric field training. Materials Letters, 166, 5-8(2016) (SCI)
57. R.L. Gao, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. R. Zhang, J. R. Sun, B. G. Shen. Anomalous Hall effect based on Pt/Bi0.9La0.1FeO3 bilayers, Japanese Journal of Applied Physics, 55, 045801 (2016) (SCI)
58. X. D. Luo, R.L. Gao*, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. R. Zhang, J. R. Sun. Resistance Switching Mechanism of La0.8Sr0.2MnO3-d Thin Films, Physica B, 2015, 483, 99-102 (2016) (SCI)
59. R.L. Gao, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. W. Yang, J. R. Sun, Y. G. Zhao, B. G. Shen. Mechanism of ferroelectric resistive switching in Bi0.9La0.1FeO3 thin films, Thin Solid Films, 583(1), 13-18 (2015) (SCI)
60. R.L. Gao, Z.Y. Xu, L.C. Wang, Q.Y. Dong, Y. Zhang, F.H. Liu, Z.J. Mo, E. Niu, C.L. Fu, W. Cai,G. Chen, X.L. Deng. Magnetic properties and low-temperature large magnetocaloric effect in the antiferromagnetic HoCu0.33Ge2 and ErCu0.25 Ge2 compounds, Journal of Alloys and Compounds, 631, 33-37 (2015) (SCI)
61. R.L. Gao, H. W. Yang, C. L. Fu, W. Cai, G. Chen, X. L. Deng, J. R. Sun, Y. G. Zhao and B. G. Shen, Tunable photovoltaic effects induced by different cooling oxygen pressure in Bi0.9La0.1FeO3 thin films, Journal of Alloys and Compounds, 624, 1-8 (2015) (SCI)
62. R.L. Gao, C. L. Fu, L. Cui, Q. Y. Dong, W. Cai, Y. Zhang, X. L. Deng, Z.Y. Xu , G. Chen. Low-temperature large reversible “table-like” magnetocaloric effect in HoNi0.9Cu0.1Al compound, Physica B. 457, 36-39 (2015) (SCI)
63. Q. M. Zhang, R. L. Gao*, L. Cui, L. C. Wang, C. L. Fu, Z. Y. Xu, Z. J. Mo, W. Cai, G. Chen, X. L. Deng. Magnetic properties and magnetocaloric effect of the compound NdSi, Physica B. 456, 258-260 (2015) (SCI)
64. R.L. Gao, H. W. Yang, J. R. Sun, Y. G. Zhao, B. G. Shen. Oxygen vacancies induced switchable and nonswitchable photovoltaic effects in Ag/Bi0.9La0.1FeO3 /La0.7Sr0.3MnO3 sandwiched capacitors. Applied Physics Letters. 104, 031906 (2014) (SCI)
65. R.L. Gao, Y. S. Chen, J. R. Sun, Y. G. Zhao, J. B. Li, B. G. Shen. Mechanism of switchable and nonswitchable short circuit photocurrent accompanying polarization switching in Bi0.9La0.1FeO3 thin films. Europhysics Letter, 105, 37008 (2014) (SCI)
66. R.L. Gao, H. W. Yang, Y. S. Chen, J. R. Sun, Y. G. Zhao, B. G. Shen. Effect of cooling oxygen pressure on the photoconductivity in Bi0.9La0.1FeO3 thin films. Journal of Alloys and Compounds, 591, 346 (2014) (SCI)
67. R.L. Gao, H. W. Yang,Y. S. Chen,J. R. Sun, Y. G. Zhao, B. G. Shen. The study of open circuit voltage in Ag/Bi0.9La0.1FeO3/La0.7Sr0.3MnO3 heterojunction structure. Physica B. 432, 111 (2014) (SCI)
68. R.L. Gao, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. W. Yang, J. R. Sun, Y. G. Zhao, B. G. Shen. Transport properties and anomalous fatigue effect of Ag/Bi0.9La0.1FeO3/La0.7Sr0.3MnO3 sandwiched structure. Chinese Physics B, 23 (9), 097702 (2014) (SCI)
69. R.L. Gao, C. L. Fu, W. Cai, G. Chen, X. L. Deng, H. W. Yang, J. R. Sun and B. G. Shen. Oxygen vacancies induced enhancement of photoconductivity of La0.5Sr0.5CoO3-d thin film. Materials Research Express. 1, 035016 (2014) (SCI)
70. R.L. Gao, H. W. Yang, Y. S. Chen, J. R. Sun, Y. G. Zhao, B. G. Shen. Ferroelectric polarization switching kinetics process in Bi0.9La0.1FeO3 films. Journal of Applied Physics, 114, 174101(2013) (SCI)
71. R.L. Gao, Y. S. Chen, J. R. Sun, Y. G. Zhao, J. B. Li, B. G. Shen. The effect of polarization fatigue process and light illumination on the transport behavior of Bi0.9La0.1FeO3 sandwiched capacitor. Journal of Applied Physics, 113, 183501(2013) (SCI)
72. R.L. Gao, Y. S. Chen, J. R. Sun, Y. G. Zhao, J. B. Li, B. G. Shen, Complex transport behavior accompanying domain switching in La0.1Bi0.9FeO3 sandwiched capacitors, Applied Physics Letters, 101, 152901 (2012) (SCI)
2.部分专利
1. 高荣礼、符春林、蔡苇、陈刚、邓小玲,原位观察铁电材料在电场作用前后电畴结构的装置及方法,发明专利:201510267408.X
2. 高荣礼、符春林、蔡苇、陈刚、邓小玲,一种铁电性液体及其制备方法,发明专利:201510426568.4
3. 高荣礼、符春林、蔡苇、陈刚、邓小玲,一种多铁性液体及其制备方法,发明专利:201510427408.1
4. 高荣礼、符春林、蔡苇、邓小玲、陈刚,一种二元磁性液体及其制备方法,发明专利:201510569465.3
5. 陈刚、高荣礼、符春林、蔡苇、邓小玲,一种多铁性液体及其制备方法,发明专利:201510426566.5
6. 高荣礼、符春林、蔡苇、邓小玲、陈刚,一种太阳能电池结构,发明专利:201510223181.9
7. 陈刚、符春林、高荣礼,蔡苇、邓小玲,一种光致伸缩复合膜及其制作的光驱动器,发明专利:201510242924.7
8. 高荣礼、符春林、蔡苇、邓小玲、陈刚,原位观察铁电材料在电场作用前后电畴结构的装置及方法,发明专利:201510268087.5
9. 高荣礼、符春林、蔡苇、邓小玲、陈刚,一种太阳能电池结构,发明专利:申请号:201510283873.2
10. 符春林、高荣礼、蔡苇、陈刚、邓小玲,制备铁酸铋薄膜的装置、方法及制备太阳能电池的方法,发明专利:201510372226.9
11. 符春林、高荣礼、蔡苇、陈刚、邓小玲,一种坩埚及用其制备具有织构特征的铁酸铋靶材的方法,发明专利:201510374891.1
12. 邓小玲、高荣礼、符春林、蔡苇、陈刚,一种多铁性液体及其制备方法,发明专利:201510427302.1
13. 高荣礼、符春林、蔡苇、陈刚、邓小玲,液体太阳能电池及其制备方法,发明专利:201510518062.6
14. 高荣礼、符春林、蔡苇、陈刚、邓小玲,液体太阳能电池及其制备方法,发明专利:201510518861.3
15. 高荣礼、符春林、蔡苇、陈刚、邓小玲,铁电纳米链的制备方法,发明专利:201510516490.5
16. 高荣礼、符春林、蔡苇、陈刚、邓小玲,铁电纳米链的制备方法,发明专利:201510518000.5
17. 高荣礼、符春林、蔡苇、陈刚、邓小玲,纳米链太阳能电池的制备方法,发明专利:201510518824.2
18. 高荣礼、符春林、蔡苇、陈刚、邓小玲,纳米链太阳能电池的制备方法,发明专利:201510518363.9
19. 高荣礼、符春林、蔡苇、陈刚、邓小玲,纳米链太阳能电池的制备方法,发明专利:201510518822.3
20. 高荣礼、符春林、蔡苇、陈刚、邓小玲、邹吉华,具有织构的铁电薄膜的制备方法,发明专利:201510689332.X
21. 高荣礼、符春林、蔡苇、陈刚、邓小玲、强卓敏,提高钙钛矿型氧化物薄膜光电性能的方法,发明专利:201510685840.0
22. 高荣礼、符春林、蔡苇、陈刚、邓小玲、邹吉华,一种通过极化方向调控霍尔效应的结构,发明专利:201510689015.8
23. 高荣礼、符春林、蔡苇、陈刚、邓小玲,一种具有体光伏效应的铁电薄膜器件,发明专利:201610039249.2
24. 高荣礼、符春林、蔡苇、陈刚、邓小玲,一种制备T相铁酸铋薄膜的方法,发明专利:201610040335.5
25. 蔡苇、高荣礼、符春林、邓小玲、陈刚、王凤起、何海峰. 铁电/钙钛矿复合太阳能电池及其制备方法,发明专利:201610657348.7
26. 高荣礼、白守勇、符春林、蔡苇、陈刚、邓小玲、何海峰、伍胜兰,能够产生非均匀电场的静电净化装置,发明专利:201710022978.1
27. 高荣礼、白守勇、符春林、蔡苇、陈刚、邓小玲、王凤起、张鲸,非均匀静电场高效除杂设备,发明专利:201710023241.1
28. 郭丰昱、高荣礼、符春林、蔡苇、陈刚、邓小玲、白守勇,具有多维梯度电场的静电净化装置,发明专利:201710023224.8
29. 高荣礼、白守勇、符春林、蔡苇、陈刚、邓小玲、何海峰、伍胜兰,能够产生非均匀电场的静电净化设备,发明专利201810111996.1
30. 高荣礼、符春林、蔡苇、陈刚、邓小玲、王凤起、张鲸、何海峰、伍胜兰,采用静电除杂的净化装置,发明专利:201710624246.X
31. 高荣礼、符春林、蔡苇、陈刚、邓小玲、何海峰、王凤起、伍胜兰、张鲸,静电式滤清装置,发明专利:201710622559.1
32. 高荣礼、符春林、蔡苇、陈刚、邓小玲、何海峰、伍胜兰、王凤起、张鲸,带有金属颗粒的静电式净化装置,发明专利:201710625844.9
33. 陈刚、高荣礼、符春林、蔡苇、邓小玲、王振华、何海峰、伍胜兰、王凤起、张鲸,一种多铁性液体的测试装置及方法,发明专利,201810082987.4
34. 蔡苇、高荣礼、符春林、陈刚、邓小玲、王振华、张鲸、王凤起、伍胜兰、何海峰,一种测试多铁性液体的装置及方法,发明专利,201810083337.1
35. 王振华、高荣礼、符春林、蔡苇、陈刚、邓小玲、徐瑞成、李震东、张钱伟、张世龙,一种多铁性液体的性能测试装置及方法,发明专利,201810083324.4
36. 邓小玲,高荣礼、符春林、蔡苇、陈刚、王振华、张钱伟、张世龙、徐瑞成、李震东,一种测试多铁性液体性能的装置及方法,发明专利,201810083732.X
37. 高荣礼、符春林、蔡苇、陈刚、邓小玲、王振华、吴恒、周兰,多铁性液体物理特性测试装置,发明专利,201810186510.0.
38. 蔡苇、高荣礼、符春林、陈刚、邓小玲,一种多铁性液体及其制备方法,发明专利:201510427378.4
39. 符春林、何云飞、蔡苇、高荣礼、王振华. 基于量子点的壳芯结构纳米线阵列太阳能电池. 发明专利:202110051938.6
40. 符春林、李佳桦、何云飞、何继壮、幸书林、蔡苇、高荣礼、王振华. 量子点增强型纳米线阵列钙钛矿太阳能电池. 发明专利:202111188888.2
41. 高荣礼、钟思琦、符春林、蔡苇、陈刚、邓小玲、王振华、雷祥、吴恒. 一种便于固定的多功能材料电性能测试装置. 发明专利:202111412226.9
42. 陈刚、钟思琦、高荣礼、符春林、蔡苇、邓小玲、王振华、雷祥. 一种多物理场下材料的电性能测试装置及方法. 发明专利:202111623395.7
43. 邓小玲、钟思琦、高荣礼、符春林、蔡苇、陈刚、王振华、雷祥. 一种多物理场下流体材料的光、电性能测试装置及方法. 发明专利:202111622642.1
44. 王振华、钟思琦、高荣礼、符春林、蔡苇、邓小玲、陈刚、雷祥. 一种多物理场下材料的光、电性能测试装置及方法. 发明专利:202111631917.8
45. 蔡苇、钟思琦、高荣礼、符春林、邓小玲、陈刚、王振华、雷祥. 一种不同压力、温度下流体电性能的测试装置及方法. 发明专利:202111643909.5
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