电子科技大学肖旭和文岐业课题组--用于太赫兹电磁吸收/屏蔽的Ti3C2Tx MXene水性涂料

随着太赫兹(THz)技术的发展,太赫兹屏蔽/吸收材料的需求激增,以避免电磁干扰(EMI)或污染。可以快速固化成膜并稳定粘附在任意基材上的涂料非常适用于屏蔽/吸收应用。最近,具有高电子电导率和亲水性的MXenes引起了人们对EMI屏蔽的极大兴趣。在这项工作中,研究人员制备了一种基于共聚物-聚丙烯酸乳胶(PAL)的MXene水性涂料(MWP),它不仅具有强大的太赫兹EMI屏蔽/吸收效率,而且可以轻易粘附在太赫兹频段常用的各种基材上。通过调节胶体力和粘性力可以调节MWP的粘度,PAL中的氰基在MWP和基材之间提供了强烈的分子间极性相互作用。因此,在石英上38.3微米厚的MWP涂层表现出64.9 dB的EMI屏蔽值,并且在MWP涂覆的海绵泡沫上获得了32.8 dB的出色反射损耗。这种独立于基板的MWP涂层提供了一种实现高性能太赫兹电磁屏蔽/吸收的简单有效的方法。

Figure 1.MWP的合成和不同MXene填料含量的MWP的粘度测量。(a)Ti3C2Tx水分散体和Ti3C2Tx MXene水性涂料的制备示意图。(b)40 mg mL-1的MXene水分散体和具有不同填料含量的MWP的粘度

Figure 2. Ti3C2Tx和MWP的表征。(a-c)粘度随MXene填料含量变化的示意图。(d)氧化铝过滤器上Ti3C2Tx薄片的SEM图像。(e)原始Ti3C2Tx和具有不同填料含量的MWP的XRD图。(f)30 wt% MWP的N1s XPS谱图。(g) MXene和MWP在乙醇中超声处理5分钟后粘附稳定性的比较。左图显示将MXene和30 wt% MWP涂覆的石英基板置于50 mL乙醇中。(h)超声处理5分钟后MXene和MWP(30 wt% MXene)的紫外可见光谱。MWP石英超声溶液的吸光度约为0.006%,远低于纯MXene石英超声溶液和参考溶液。

Figure 3.不同基材上的MWP涂层。(a)不同基材上30 wt% MWP涂层的照片:印刷纸、铝箔、铜箔、海绵泡沫、载玻片、聚酰亚胺胶带、硅片和石英。(b)粘附在PMMA基材上的30 wt% MWP的SEM图像显示MWP的层状结构在刮刀涂布的剪切应力下得以保留。(c)纯MXene和MWP在不规则形状铝合金上的比较。(d)网格轮廓(PMMA)上的MWP涂层的照片,作为一些复杂结构的示例。(e)海绵泡沫上30 wt% MWP涂层的SEM图像,其显示海绵泡沫框架上有许多MXene薄膜。

Figure 4 MWP的电导率和30 wt% MWP的太赫兹辐射屏蔽/吸收性能。(a)具有不同Ti3C2Tx填料含量的MWP的电导率。(b)EMI SE值与石英上30 wt% MWP的厚度的关系。(c)MWP涂覆海绵泡沫的RL值。(d)30 wt% MWP涂覆不同类型基材的EMI SE值:柔性、刚性、多孔。(e)不同类型基材的 RL:柔性、刚性、多孔。(f)EMI SE与先前文献的比较。

相关研究成果由电子科技大学 Xu Xiao 和 Qiye Wen 课题组于2021年发表在ACS NANO (https://doi.org/10.1021/acsnano.1c04656)上。原文:Substrate-Independent Ti3C2Tx MXene Waterborne Paint for Terahertz Absorption and Shielding。

肖旭

E-Mail:xuxiao@uestc.edu.cn

School/Department:Professor of School of Electronic Science and Engineering

Education Level:With Certificate of Graduation for Doctorate Study

Gender:Male

Contact Information:xuxiao@uestc.edu.cn

Degree:Doctor of Engineering

Professional Title:Researcher

Status:On the job

Alma Mater:Huazhong University of Science and Technology

Supervisor of Doctorate Candidates

Email : xuxiao@uestc.edu.cn

文岐业

电子科技大学教授,博导。教育部青年,教育部新世纪优秀人才,四川省学术与技术带头人,四川省青年科技创新团队负责人。中国兵工学会太赫兹专委会委员,中国仪器仪表学会光学仪器分会理事,Wiley出版社SCI期刊《Microwave and Optical Technical Letters》(IF=1.39)的 Associate Editor, SCI期刊《Electronics》(IF=2.42) 编辑。主要从事毫米波太赫兹先进信息材料和集成器件研究工作。近年来针对毫米波太赫兹通信、成像和探测技术需求,在电磁屏蔽/吸波材料、电磁调控机理与调制器件、磁光法拉第晶体和单向传输器件等方面开展了大量研究工作。作为第一负责人承担了国家自然科学基金重点项目、科技部国际科技合作对R重点专项、教育部科学技术研究重大项目、科学挑战计划项目等国家级项目20多项。获得国防技术发明一等奖、教育部自然科学一等奖/二等奖、全国创新争先奖牌等奖励8项。共计获得授权发明专利26件,发表SCI论文120多篇,7篇论文SCI引用超过100次,2篇入选ESI高引用论文,出版《太赫兹技术与应用》、《太赫兹通信技术导论》等学术论著3部。

发表论文:

1.Yi-Lei, Li, Teng-Fei Li, Fei Fan, Qing-Hui Yang, Sheng-Jiang Chang, Qi-Ye Wen*, Terahertz magneto-optical response of bismuth-gadolinium-substituted rare-earth garnet film, Optics Express, 29(15), 23540-23548 (2021)

2.Yulian He, Yuansheng Wang, Mo Li, Qinghui Yang, Zhi Chen, Jian Zhang* and Qiye Wen*, All-optical spatial terahertz modulator with surface-textured and passivated silicon,Optics Express, 29(6):8914-8925, 2021.

3.Jiacheng Cai, Benwen Chen, Jingbo Wu*, Yi-Hang Li, Qiang Xue, Taofeng Wang, Caihong Zhang, Qiye Wen*, Biaobing Jin*, Jian Chen, and Peiheng Wu. Reconfigurable terahertz rainbow deflector, Applied Physics Letters. 118, 141105 (2021);

4.Shui, Wenchao; Li, Jianmin; Wang, Hao; Xing, Yang; Li, Yilei ; Yang, Qinghui; Xiao, Xu*; Wen, Qiye*; Zhang, Huaiwu, Ti3C2Tx MXene Sponge Composite as Broadband Terahertz Absorber, Adv. Optical Mater., 10.1002/adom.202001120, 2020

5.Yi-Lei, Li, Teng-Fei Li, Qi-Ye Wen,* Fei Fan, Qing-Hui Yang, Sheng-Jiang Chang, Terahertz magneto-optical effect of wafer-scale La: yttrium iron garnet single-crystal film with low loss and high permittivity, Optics Express, 28(14), 21062, 2020

6.Teng-Fei Li, Yi-Lei Li, Zi-Yang Zhang, Qing-Hui Yang, Fei Fan,* Qi-Ye Wen,* Sheng-Jiang Chang,*,Terahertz Faraday rotation of magneto-optical films enhanced by helical metasurface, Appl. Phys. Lett., 116, 251102 (2020)

7.Qi-Ye Wen,* Yu-Lian He, Qing-Hui Yang, Peng Yu, Zheng Feng, Wei Tan, Tian-Long Wen, Ya-Xin Zhang, Zhi Chen,* and Huai-Wu Zhang, High performance Photo-induced Spatial Terahertz Modulator Based on Micro-pyramid Silicon Array, Adv. Mater. Technol. 19: 1901058, 2020

8.Jacob S. Schalch, Yaojia Chi, Yulian He, Yahua Tang, Xiaoguang Zhao, Xin Zhang, Qiye Wen*, Richard D. Averitt.* Broadband electrically tunable VO2 Metamaterial terahertz switch with suppressed reflection, Microw Opt Technol Lett. 2020;62: 2782–2790.

9.Yu-Lian He, Jing-Bo Liu, Tian-LongWen, Qing-Hui Yang, Zheng Feng, Wei Tan, Xue-Song Li, Qi-Ye Wen* and Huai-Wu Zhang, Flexible terahertz modulators based on graphene FET with organic high-k dielectric layer, Mater. Res. Express 5 (2018) 115607

10.Zhong-wei Shi, Xing-Xing Cao, Qi-Ye Wen,* Tian-Long Wen, Qing-Hui Yang, Zhi Chen, Wen-Sheng Shi, and Huai-Wu Zhang, Terahertz modulators based on Silicon Nanotip Array, Advanced Optical Materials, 6: 1700620, 2018.

11.Dainan Zhang, Tianlong Wen, Ying Xiong, Donghong Qiu, Qiye Wen, Effect of Al2O3 Buffer Layers on the Properties of Sputtered VO2 Thin Films, Nano-Micro Lett. 9:29, 2017

12.L. Y. Hao, X. J. Zhou, Z. B. Yang, H. L. Zhang, H. C. Sun, H. X. Cao, P. H. Dai, J. Li, T. Hatano, H. B. Wang, Q. Y. Wen*, and P. H. Wu, A power-adjustable superconducting terahertz source utilizing electrical triggering phase transitions in vanadium dioxide, Appl. Phys. Lett. 109, 233503 (2016); 2016.12.5

13.Tianlong Wen,* Dainan Zhang, Qiye Wen,* Yulong Liao, Chong Zhang, Jiayang Li, Wei Tian, Yuanpeng Li, Huaiwu Zhang,* Yuanxun Li, Qinghui Yang, and Zhiyong Zhong, Enhanced Optical Modulation Depth of Terahertz Waves by Self-Assembled Monolayer of Plasmonic Gold Nanoparticles, Adv. Opt. Mater., 4(12): 1974-1980, DEC 2016DOI: 10.1002 /adom.201600248 (2016)

14.Jingbo Liu, Pingjian Li*, Yuanfu Chen*, Xinbo Song, Qi Mao, Yang Wu, Fei Qi, Binjie Zheng, Jiarui He, Hyunsoo Yang, Qiye Wen*, and Wanli Zhang, “Flexible terahertz modulator based on coplanar-gate graphene field-effect transistor structure”, Optics Letters, 41(4):816-819 (2016) doi: 10.1364/OL.41.000816, Feb 15, 2016

15.Tianlong Wen,  Dainan Zhang, Qiye Wen, Huaiwu Zhang, Yulong Liao, Qiang Li, Qinghui Yang, Feiming Bai and   Zhiyong Zhong, Magnetic nanoparticle assembly arrays prepared by hierarchical self-assembly on a patterned surface, Nanoscale, 2015,7, 4906-4911

16.Qi-Ye Wen*, Wei Tian, Qi Mao, Zhi Chen, Wei-Wei Liu, Qing-Hui Yang, Matthew Sanderson, Huai-Wu Zhang. Graphene based All-Optical Spatial Terahertz Modulator, Scientific Reports, 4:7409 (2014). Published on line 10 Dec. 2014

17.Ying Xiong, Qi-Ye Wen*, Zhi Chen, Wei Tian, Tian-Long Wen,Yu-Lan Jing, Qing-Hui Yang1 and Huai-Wu Zhang, Tuning the phase transitions of VO2 thin films on silicon substrates using ultrathin Al2O3 as buffer layers, J. Phys. D: Appl. Phys. 47 (2014) 455304 (5pp)

18.Qi Mao, Qi-Ye Wen,* Wei Tian, Tian-Long Wen, Zhi Chen,Qing-Hui Yang, and Huai-Wu Zhang, High-speed and broadband terahertz wave modulators based on large-area graphene field-effect transistors, OPTICS LETTERS, 39 (2014) 5649-5652

19.Dong-Hong Qiu, Qi-Ye Wen*, Qing-Hui Yang, Zhi Chen, Yu-Lan Jing, Huai-WuZhang Electrically-driven metal-insulator transition of vanadium dioxide thin films in a metal-oxide-insulator-metal device structure, Materials Science in Semiconductor Processing, 27 (2014) 140–144

20.Mo Man-Man, Wen Qi-Ye*, Chen Zhi, Yang Qing-Hui,Qiu Dong-Hong, Li Sheng, Jing Yu-Lan, and Zhang Huai-Wu, Strong and broadband terahertz absorber using SiO2-based metamaterial structure,Chin. Phys. B, 23(4):047803 (2014)

21.Chen Zhi, Wen Qi-Ye*. Zhang H.W. et al, Ultrafast and broadband terahertz switching based on photo-induced phase transition in vanadium dioxide Film. Chin. Phys. Lett. 30(1):017102, 2013

22.Qi-Ye Wen, Huai-Wu Zhang, Qing-Hui Yang, Zhi Chen, Yang Long, Yu-Lan Jing, Yuan Lin and Pei-Xin Zhang, A tunable hybrid metamaterial absorber based on vanadium oxide films, J. Phys. D: Appl. Phys. 45 235106 (2012)

23.Q. H. Yang, H. W. Zhang, Q. Y. Wen, Y. L. Liu, The absorption property of single crystal LuBiIG granet film in terahertz band, J Appl. Phys. 111:07A513(2012)

24.Qi-Ye Wen, Huai-Wu Zhang, Qing-Hui Yang, Yu-Lan Jing, and Pei-Xin Zhang, Ferromagnetism in Nitrogen-Doped TiO2 Nanoparticles, IEEE Trans Magn. 47(10), 3987-3990, (2011)

25.Qi-Ye Wen, Huai-Wu Zhang, Qing-Hui Yang, Yuan-Song Xie, Kang Chen, Ying-Li Liu, “Terahertz Metamaterials with VO2 Cut-wires for Thermal Tunability”, Appl. Phys. Lett. 97(2),021111 (2010),

26.Qi-Ye Wen, Huai-Wu Zhang, Qing-Hui Yang, Yuan-Qiang Song, and John Q. Xiao,Effects of Fe doping and the dielectric constant on the room temperature ferromagnetism of polycrystalline CeO2 oxides,J. Appl. Phys. 107, 09C307 (2010); doi:10.1063/1.3352892 (3 pages)

27.Qi-Ye Wen, Huai-Wu Zhang, Yun-Song Xie, Qing-Hui Yang, and Ying-Li Liu, “Dual Band Terahertz Metamaterial Absorber: Design, fabrication, and characterization”, Appl Phys Lett, 95, 241111(2009)   (2009.12.18)

28.Q.Y.Wen, Y. S, Xie, H.W. Zhang, Q. H. Yang, Y. X. Li, Y. L. Liu, “Transmission line model and fields analysis of metamaterial absorber in the terahertz band”, Optics Express, Vol. 17, Iss. 22, pp. 20256–20265 (2009)

29.Qi-Ye Wen; Huai-Wu Zhang; Qing-Hui Yang; De-En Gu; Yuan-Xun Li; Ying-Li Liu; Jian Shen; Xiao,J.Q.” Magnetic Characteristics of Carbon-Doped Nanocrystalline TiO2”,IEEE Trans. Magn. 45(10): 4096-4099, 2009  (2009.9.18)

30.Q.Y.Wen, D.E.Gu, H.W.Zhang, Q.H.Yang, Magnetic properties of V doped TiO2 nano-crystalline film synthesized by liquid phase deposition technique, J. Phys.D: Appl. Phys. 42(2009)055012

专利成果:

1.文岐业;汪璐;张岱南;梁博;杨青慧;陈智;张怀武;朱韵樵;张豪,可拉伸式双面超宽带太赫兹吸波材料及其制备方法, 申请号:201910318273.3, 申请时间:2019.4.9,授权时间:2020.11.09

2.文岐业,唐亚华,张岱南,何雨莲,杨青慧,陈智,张怀武,低电压驱动的常开型太赫兹超表面调制器及其制备方法,申请号:2019102380811,申请时间:2019.3.27,授权时间:2020.8.28

3.文岐业 代朋辉 杨青慧 文天龙 谭为 冯正 唐亚华 张怀武, 硅基全介质型电控太赫兹波调控器件及其制备方法,申请号:201810054913X,申请日:2018.1.19,授权日期:2019.12.27

4.文岐业,刘洋,何雨莲,刘浩天,陈智,杨青慧,张怀武,基于柔性石墨烯场效应晶体管结构的多级太赫兹调制器,申请号:201611244496.2. 申请日:2016.12.29,授权时间:2019.7.19

5.文岐业,沈雁飞、刘朝阳、李加洋、殷亮、刘洋、涂翔宇、文天龙、陈智、 杨青慧、张怀武SOI衬底石墨烯晶体管太赫兹波双频点选频调制器及其制备方法,201610223600.3,申请日:2016.4.13,授权日期,2019.5.14。

6.文岐业,李加洋,沈雁飞,陈智,杨青慧,张怀武,殷亮,刘朝阳,基于石墨烯掺杂硅复合双层结构的光控太赫兹调制器,ZL201610228317.x,申请日:2016.4.14,授权时间:2019.2.25

7.文岐业,熊瑛,张怀武,“一种在硅基底上制备高电阻变化率二氧化钒薄膜的方法”,申请时间:2014.,授权时间2016.6.5号;专利号:zl201410338437.6。

8.文岐业,张怀武,杨青慧,陈智,孙丹丹,田伟,毛淇,刘海涛,“一种基于石墨烯的全光学宽带空间型太赫兹调制器”,申请号:201318005887.x,申请日2013.11.1.授权日期:2015.6.15

9.文岐业,张怀武,杨青慧,陈智,莫漫漫,邱东鸿,熊瑛,一种具有自保护功能的太赫兹波吸收器,申请号:201318007640.1,申请日:2013.11.26,授权时间2015.8.10

10.杨青慧,饶毅恒,张怀武,田晓洁,文岐业,贾利军,朱英超,金曙晨,梅兵。一种钇铁石榴石单晶薄膜及其制备方法。申请日期:2015.4.15;授权日期:2017.10.17. 专利号:ZL201510177591.4.

11.杨青慧,饶毅恒,张怀武,田晓洁,文岐业,贾利军,金曙晨,梅兵。一种亚微米级低损耗单晶钇铁石榴石薄膜的液相外延制备方法。申请日期:2015.4.15;授权日期:2017.6.16. 专利号:ZL201510177930.9

12.杨青慧,王明,许玥,张怀武,贾利军,廖宇龙,文岐业,一种铁氧体移相器的驱动控制系统及相移量控制方法,申请日期:2014.8.1;授权日期:2017.5.10. 专利号:ZL201410377133.0.

13.杨青慧,饶毅恒,张怀武,金曙晨,田晓洁,梅兵,文岐业, 李颉, 一种YIG静磁波谐振器,申请日期:2014.9.18;授权日期:2017.2.25. 专利号:ZL201410478031.8.

14.文岐业,张怀武;杨青慧;梁栋;龙洋;赵碧辉;荆玉兰,一种可调谐的平板电磁波吸收材料,申请时间,2011.6.21,专利号:ZL201110167384.2,授权时间2014.1.14

15.杨青慧,张怀武 ,文岐业,梁栋,基于异向介质理论的双频吸收器,ZL201110162211.1,申请时间:2011.6.16;授权时间:2014.3.26.

16.文岐业、张怀武、蒋向东、唐晓莉、张万里,彭斌. “一种基于非晶/纳米晶软磁薄膜的磁三明治材料及其制备方法”. 申请时间;2005.8.26授权时间2009.9.30,专利号:ZL 200510021532.4

17.文岐业;张怀武;杨青慧;谢云松;刘颖力;李元勋”一种太赫兹波平面吸收材料”,申请时间:2009.10.29, 授权时间2011.05.11,专利号:ZL 200910216064.4

18.张怀武,田东斌,文岐业,李胜,一种用于太赫兹波调制的超材料结构,ZL 200910167953.6. 授权时间:2012.04.25

19.杨青慧,张怀武,刘颖力,文岐业,李元勋,贾利军,唐晓莉,钇铁石榴石薄膜结构及制备方法,专利号:ZL200810044302.3,授权时间:2012.10.31

20. 张怀武,李胜,文岐业,光子晶体T形功率分配器,申请时间:2009.05.27,授权时间2011.04.27,专利号ZL200910059440.3,

21.文岐业,张怀武,杨青慧,刘颖力,李元勋,“一种用于太赫兹波调制的结构材料”,申请时间,2010.7.7, 申请号:201010218977.2

22.文岐业,毛淇,张怀武,“一种石墨烯场效应晶体管太赫兹调制器及其制备方法”, 申请时间,2014.7.25,申请号:201410359765.4。

23.文岐业,殷亮、刘朝阳、李加洋、沈雁飞、文天龙、陈智、杨青慧、张怀武一种基于高电子迁移率晶体管的频点可调太赫兹波调制器,201610223408.4申请日:2016.4.12

24.文岐业、刘浩天、史中伟、杨青慧、文天龙、陈智、荆玉兰、张怀武,一种基于硅纳米针的光控太赫兹波幅度调制器,201610533950.x, 申请日:2016.7.8

25.文岐业,史中伟,一种基于硅纳米针的太赫兹波宽带吸收材料,申请号:201611243901.9,申请日:2016.12.29

26.文岐业,金浓,硅基微纳米混合结构光控太赫兹波调制器,申请号:2018100542126,申请日:2018.1.19

27.文岐业,朱韵樵,赵斌兴,杨青慧 ,陈智,张怀武,谭为,冯正,基于激光振镜的太赫兹单像素成像系统及成像方法,申请号:2019102394138,申请时间:2019.3.27

28.文岐业,张豪,申朝阳,何雨莲,杨青慧,谭为,冯正,张怀武,基于SOI上硅基微结构的光控太赫兹调制系统及制备方法,申请号:2019103768148,申请时间:2019.5.7

29.文岐业,沈仕远,杨青慧,王元圣,陈智,冯正,谭为,张怀武,基于介质超表面的双模式太赫兹波束调控器及方法和应用,申请号:202010270800.0,申请日期:2020年4月28日

30.文岐业, 梁博, 何雨莲, 杨青慧, 陈智, 张怀武. 具有梯度孔径结构的太赫兹吸波材料及其制备方法[P]. 中国, 发明专利, 申请号:202010595071.6, 申请日期:2020年6月28日

31.文岐业, 申朝阳, 杨青慧, 陈智, 王元圣, 冯正, 谭为, 张怀武. 基于多棱台阵列的硅基全光控太赫兹波调制器及方法[P]. 中国, 发明专利, 申请号:202010350491.8, 申请日期:2020年4月28日

32.文岐业;税文超(学);肖旭 ;李建民;邢杨(学);杨青慧;张怀武 ;一种基于MXene的太赫兹波宽带超强吸收泡沫,中国, 发明专利, 申请号:202010778633.0, 申请日期:2020年8月5日

出版专著:

Qi-Ye Wen, Yu-Lian He, Jing-Bo Liu, Qi Mao, Qing-Hui Yang, Zhi Chen and Huai-Wu Zhang (July 18th 2018). Graphene Field-Effect Transistor for Terahertz Modulation, Design, Simulation and Construction of Field Effect Transistors, Dhanasekaran Vikraman and Hyun-Seok Kim, IntechOpen, DOI: 10.5772/intechopen.76744.

文岐业,张岩,常胜江,张怀武,曹俊诚,刘伟伟,Terahertz Technology and Applications, University of Electronic Science and Technology of China press, 54万字,2017年6月,ISBN: 9787564545141, 成都。

李少谦,陈智,文岐业,张波,何奇,太赫兹通信技术导论,无线通信前沿技术丛书,“十二五”国家重点规划出版丛书,国防工业出版社,出版时间2016.1. ISBN, 9787118108637, 北京。主编:李少谦

张培新,文岐业,朱才镇,矿渣微晶玻璃材料设计与计算,化学工业出版社,2010年5月。ISBN: 9787122079350

Qi-ye Wen, Huai-wu Zhang, Qing-hui Yang, zhi Chen, Bi-hui Zhao, Yang Long, Yu-lan Jing, “Perfect Metamaterial Absorbers in Microwave and Terahertz Bands”, pp501-512, In Metamaterials, Edited by Xun-Ya Jiang, ISBN 978-953-51-0591-6, Publisher: InTech, Published: May 16, 2012

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