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个人简历
1997.09-2001.06 中国科学技术大学 本科
2001.09-2006.06 中国科学技术大学 博士
2006.06-2008.12 合肥工业大学光电技术研究院 助理研究员
2009.01-2015.12 合肥工业大学光电技术研究院 副研究员
2016.01至今 合肥工业大学光电技术研究院 研究员
2015.07-2015.12 香港科技大学 访问学者
主要研究领域、方向
硕士生招生专业:材料学(学术型);材料与化工(专业型)
博士生招生专业:材料学(学术型)
目前的研究方向:聚合物/液晶复合材料与器件;新型液晶材料与器件;特种显示技术
研究成果(代表性成果)
(1)快速响应液晶光阀;
(2)液晶手写板技术;
(3)胆甾相液晶显示技术。
目前承担科研项目
1.基于手性离子单体的聚合物稳定胆甾相液晶复合材料的制备及性能研究,国家自然科学青年科学基金,2011-2014;
2.基于XXX的真空彩色显示新技术,总装预研,2012-2017;
3.带宽可调的光响应胆甾相液晶器件的制备及性能研究,安徽省自然科学基金,2017-2019;
4.电控液晶光阀,企业委托,2017-2020;
5.液晶手写板,企业委托,2018-2021;
6.特种光学薄膜的光学性能优化技术研究,企业委托,2019-2020;
7.胆甾相液晶反射膜,企业委托,2020-2022;
8.大面积高效率无铅钙钛矿太阳能电池关键技术研究,重点研发计划国际合作,子项目负责, 2020-2022.
获奖及专利情况
1. 陆红波,周梦怡,郑安东,李志远,韦成.一种联萘偶氮苯环状光敏手性分子及其制备方法及用途.ZL 201910113394.4.
2. 陆红波,李志远,郑安东,夏果,王国栋.一种稀土配合物紫外增强薄膜.ZL 201810823302.7.
3. 陆红波,郑安东,杨乐,高盛.一种太赫兹波段增大商业液晶的介电各向异性的液晶单体材料.ZL 201910158708.2.
4. 陆红波,韦成,张强,李志远,周梦怡.宽范围连续可调的电控光泵浦液晶激光器件及其制备方法.ZL 201810823273.4.
5. 陆红波,沙峻青,韦成,荆帅诚.一种新型可聚合的荧光二色性染料及其制备方法及用途.ZL 201710596292.3.
6. 陆红波,沙峻青,韦成,邢剑.一种高偏振荧光薄膜及其制备方法. ZL 201710596291.9.
7. 陆红波,邢剑,沙峻青,荆帅诚,韦成.一种红外光禁带可调谐的胆甾相液晶器件的制备方法.ZL201611015170.2.
8. 陆红波,吴少君,许伟,吕国强,邱龙臻,张珊娜,胡金良,宋志刚.一种基于手性离子单体的宽带胆甾相液晶器件及其制备工艺. ZL 201410315311.7.
9. 陆红波,张俊,吕国强,张贵玉.一种反射带宽可调的胆甾相液晶显示装置. 2015/04/01, 34,中华人民共和国国家知识产权局, ZL 2012 1 0199614.8.
10. 陆红波,张姗娜,杨家祥,吕国强,邱龙臻,张贵玉,许伟.一种新型液晶发光材料及其制备方法. ZL 201310566376.4.
11. 陆红波,张贵玉,张姗娜,杨家祥,吕国强,邱龙臻,许伟.一种氰基取代二苯乙烯型液晶材料及其制备工艺及应用. ZL 201310616180.1.
12. 陆红波,胡金良,吴少君,宋志刚,吕国强,邱龙臻.一种染料液晶显示器件. ZL 201410193045.5.
13. 陆红波 吕国强 贺晓悦 谢欣燕 邱龙臻.一种光敏手性大环分子及其制备方法和用途. ZL 201410668224.X.
14. 张贵玉 陆红波 吕国强 张珊娜 张俊 宋志刚 邱龙臻.一种用于减小大尺寸液晶光阀极间电容的制备方法. ZL 201310195897.3.
15. 陆红波 宋志刚 张俊 王明晖 林广庆 熊贤风 邱龙臻.一种用于投影显示的大尺寸显示屏幕的制备方法. ZL 201210472421.5.
16. 陆红波,张俊,吕国强.电控彩色滤色液晶光阀. ZL 201120412219.4.
著作论文(代表作)
1. Lu H, Shi J, Wang Q, et al. Tunable multi-mode laser based on robust cholesteric liquid crystal microdroplet[J].Optics letters, 2021, 46(19): 5067-5070.
2. Xia L., Shi J., Yang L., Wei C., Xu M., Zhu J., Qiu L. Z.,Lu H. B.*, Hu, Z. J. Electrically controlled switching of mixed mode laser within the band-gap of cholesteric liquid crystal[J].Liquid Crystals, 2021, 48(9):1268-1275.
3. Liu X. L, Xia X., Yang L., Zhu, J., Xu, M., Zhang G. B., Xia G., Qiu L. Z.,Lu, H. B.*. Physical properties of liquid crystals doped with CsPbBr3quantum dots[J].Liquid Crystals, 2021, 48(10): 1357-1364.
4. Lu H. B., Yang L., Xia L., et al. Band-edge-enhanced tunable random laser using a polymer-stabilised cholesteric liquid crystal[J].Liquid Crystals,2021, 48(2): 255-262.
5. Zhang Q., Zhang X. M., Yang L,Xu M., Zhu J., Zhang G. B.,Ding Y. S.,Qiu L. Z.,Lu, H. B*.Polymer-stabilised cholesteric liquid-crystals as tunable light-reflector with low operating-voltage and energy consumption[J].Liquid Crystals, 2020, 47(11): 1655-1662.
6. Wei Y. P., Xu Y. Y., Wang Q., Wang J. Y.,Lu, H. B*. Zhu J. CsPbBr3nanowire polarized light-emitting diodes through mechanical rubbing[J].Chemical Communications, 2020, 56(40): 5413-5416.
7. Lu Hongbo, Wei Cheng, Zhang Qiang, Xu Miao, Ding Yunsheng, Zhang Guobing, et al. Wide tunable laser based on electrically regulated bandwidth broadening in polymer-stabilized cholesteric liquid crystal.Photonics Research. 2019;7(2):137-143.
8. Lu H*, Zhang Q, Sha J, et al. Highly polarized absorption and emission from polymer-stabilized smectic guest-host systems. Liquid Crystals, 2019, 46(10): 1574-1583.
9. Zhou M,Lu H*, Zhang X, et al. Tuning helical twisting power and photoisomerisation kinetics of axially chiral cyclic azobenzene dopants in cholesteric liquid crystals.Liquid Crystals,2019: 46 (15), 2181-2189.
10. Lu Hongbo*, Xing Jian, Wei Cheng, Xia Jiangying, Sha Junqing, Ding Yunsheng, et al. Band-gap-tailored random laser. Photonics Research. 2018;6(5):390-395.
11. Zhiyuan Li, Mengyi Zhou, Zhiping Yin, Guo Xia, Guobing Zhang, Miao Xu, Longzhen Qiu,Hongbo Lu*.Liquid crystal behavior and luminescence properties of (2Z, 2′ Z)-2, 2′-(1, 4-phenylene) bis (3-(4-(N-alkoxy) phenyl) acrylonitrile.Molecular Crystals and Liquid Crystals, 2018, 666(1): 1-11.
12. Sha Junqing,Lu Hongbo*, Zhou Mengyi, Xia Guo, Fang Yong, Zhang Guobing, et al. Highly polarized luminescence from an AIEE-active luminescent liquid crystalline film.Organic Electronics.2017, 50: 177-183.
13. Lu H. B*., Xing J., Wei C., Sha J. Q., Zhang G. B., Lv G. Q., et al. Near-infrared light directed reflection in a cholesteric liquid crystal.Optical Materials Express.2017;7(11):4163-4170.
14. Lu Hongbo*, Xu Chao, Li Zhiyuan, Xia Guo, Jing Shuaicheng, Bai Xiangyang, et al. High-contrast electrically switchable light-emitting liquid crystal displays based on α-cyanostilbenic derivative.Liquid Crystals. 2017, 45(1):32-39.
15. Lu H. B., Xie X. Y., Xing J., Xu C., et al. Wavelength-tuning and band-broadening of a cholesteric liquid crystal induced by a cyclic chiral azobenzene compound.Optical Materials Express. 2016, 6(10):3145-3148.
16. Chu Yutian, Yin Zhiping*, Sha Junqing, Xu Chao, Zhang Guobing, LvGuoqiang, QiuLongzhen,Lu Hongbo*. Regulation and control of polymer network deformation in reverse-mode polymer-stabilised cholesteric texture.Liquid Crystals, 2016, 44(4):688-694.
17. Lu Hongbo*, Chu Yutian, Sha Junqing, Zhang Guobing, Hu Juntao, LvGuoqiang, QiuLongzhen. Characterisation and effect of polymer network deformation in reverse-mode polymer-stabilised cholesteric texture.Liquid Crystals,2016, 44(3):437-443.
18. Lu Hongbo*, Hu Jinliang, Wu Shaojun, Chu Yutian, Xu Chao, QiuLongzhen, Wang Xianghua, Zhang Guobing, Hu Juntao.The effect of MWS polarisation on the morphology and electro-optical behaviour of normal-mode polymer-stabilised cholesteric textures.Liquid Crystals, 2016, 43: 540-546.