Journal of Inorganic Materials ›› 2020, Vol. 35 ›› Issue (1): 99-104.DOI: 10.15541/jim20190148
Special Issue: MAX相和MXene材料; 功能陶瓷论文精选(二); 【虚拟专辑】吸波材料(2020~2021); 【虚拟专辑】层状MAX,MXene及其他二维材料
Previous Articles Next Articles
LIU Zhang-Shuo,LIU Ji,DAI Yang,LI Xiao-Feng,YU Zhong-Zhen,ZHANG Hao-Bin()
Received:
2019-04-11
Revised:
2019-07-05
Published:
2020-01-20
Online:
2019-09-12
About author:
LIU Zhang-Shuo(1994-), female, Master candidate. E-mail:Liu_zhangshuo@163.com
Supported by:
CLC Number:
LIU Zhang-Shuo, LIU Ji, DAI Yang, LI Xiao-Feng, YU Zhong-Zhen, ZHANG Hao-Bin. Bioinspired Ultrathin MXene/CNC Composite Film for Electromagnetic Interference Shielding[J]. Journal of Inorganic Materials, 2020, 35(1): 99-104.
Fig. 2 (a) FT-IR spectra of Ti3C2Tx, CNC and Ti3C2Tx/CNC films; (b) XPS broad surveys of Ti3C2Tx and Ti3C2Tx/CNC films; (c) XRD patterns of Ti3C2Tx/CNC films; (d) TGA curves of Ti3C2Tx, CNC and Ti3C2Tx/CNC films
Fig. 3 (a) Tensile stress and toughness of Ti3C2Tx/CNC films with different Ti3C2Tx content; (b) Stress-strain curves of Ti3C2Tx film and M60-C40 composite film; (c) Side view SEM image of M60-C40
Fig. 4 (a) Electrical conductivity of Ti3C2Tx/CNC films with different Ti3C2Tx contents; (b) EMI SE of Ti3C2Tx/CNC films with different Ti3C2Tx contents; (c) Total EMI SE (SET) and its absorption (SEA) and reflection (SER) mechanism in Ti3C2Tx and M60-C40
[1] |
MICHAEL NAGUIB, MURAT KURTOGLU, VOLKER PRESSER , et al.Two-dimensional nanocrystals produced by exfoliation of Ti3AlC2.Advanced Materials, 2011,23(37):4248-4253.
DOI URL PMID |
[2] |
LUKATSKAYA MARIA R, KOTA SANKALP, LIN ZIFENG , et al.Ultra-high-rate pseudocapacitive energy storage in two-dimensional transition metal carbides.Nature Energy, 2017,2:17105.
DOI URL |
[3] |
LUO JIAN-MIN, ZHANG WEN-KUI, YUAN HUA-DONG , et al.Pillared structure design of MXene with ultralarge interlayer spacing for high-performance lithium-ion capacitors.ACS Nano, 2017,11(3):2459-2469.
DOI URL PMID |
[4] |
LIU JI, ZHANG HAO-BIN, SUN REN-HUI , et al.Hydrophobic, flexible, and lightweight MXene foams for high-performance electromagnetic-interference shielding.Advanced Materials, 2017,29:1702367.
DOI URL PMID |
[5] |
SUN REN-HUI, ZHANG HAO-BIN, LIU JI , et al.Highly conductive transition metal carbide/carbonitride (MXene)@polystyrene nanocomposites fabricated by electrostatic assembly for highly efficient electromagnetic interference shielding. Advanced Functional Materials, 2017,27(45):1702807.
DOI URL |
[6] |
FAISAL SHAHZAD, MOHAMED ALHABEB, CHRISTINE B. HATTER , et al. Electromagnetic interference shielding with 2D transition metal carbides (MXenes). Science, 2016,353(6304):1137-1140.
DOI URL PMID |
[7] |
WANG QI-WEI, ZHANG HAO-BIN, LIU JI ,et al. Multifunctional and water-resistant MXene-decorated polyester textiles with outstanding electromagnetic interference shielding and Joule heating performances. Advanced Functional Materials, 2019,29(7):1806819.
DOI URL |
[8] |
ZHAO SAI, ZHANG HAO-BIN, LUO JIA-QI ,et al. Highly electrically conductive three-dimensional Ti3C2Tx MXene/reduced graphene oxide hybrid aerogels with excellent electromagnetic interference shielding performances. ACS Nano 2018,12:11193-11202.
DOI URL PMID |
[9] |
LIU JI, ZHANG HAO-BIN, XIE XI , et al.Multifunctional, superelastic, and lightweight MXene/polyimide aerogels. Small, 2018,14(45):1802479.
DOI URL PMID |
[10] |
HAN MEI-KANG, YIN XIAO-WEI, WU HENG , et al.Ti3C2 MXenes with modified surface for high-performance electromagnetic absorption and shielding in the X-band.ACS Applied Materials & Interfaces, 2016,8:21011-21019.
DOI URL PMID |
[11] |
LING ZHENG, CHANG E RENA, ZHAO MENG-QIANG ,et al. Flexible and conductive MXene films and nanocomposites with high capacitance. Proceedings of the National Academy of Sciences of the United States of America, 2014,111(47):16676-16681.
DOI URL |
[12] |
CAO WEN-TAO, CHEN FEI-FEI, ZHU YING-JIE ,et al. Binary strengthening and toughening of MXene/cellulose nanofiber composite paper with nacre-inspired structure and superior electromagnetic interference shielding properties. ACS Nano, 2018,12(5):4583-4593.
DOI URL PMID |
[13] |
LIU RUI-TING, MIAO MIAO, LI YA-HUI , et al.Ultrathin biomimetic polymeric Ti3C2Tx MXene composite films for electromagnetic interference shielding.ACS Applied Materials & Interfaces, 2018,10:44787-44795.
DOI URL PMID |
[14] |
WAN SI-JIE and CHENG QUN-FENG . Bioinspired nanocomposites: fatigue-resistant bioinspired graphene-based nanocomposites. Advanced Functional Materials, 2017,27(43):1703459.
DOI URL PMID |
[15] |
WAN SI-JIE and CHENG QUN-FENG . Role of interface interactions in the construction of GO-based artificial nacres. Advanced Materials Interfaces, 2018,5(12):1800107.
DOI URL |
[16] |
HOPE MICHAEL A, FORSE ALEXANDER C, GRIFFITH KENT J , et al.NMR reveals the surface functionalization of Ti3C2 MXene.Physical Chemistry Chemical Physics, 2016,18(7):5099-5102.
DOI URL PMID |
[17] |
GAO YUAN, XU HANJIE, CHENG QUN-FENG . Multiple synergistic toughening graphene nanocomposites through cadmium ions and cellulose nanocrystals. Advanced Materials Interfaces, 2018,5(10):1800145.
DOI URL |
[18] |
CAO MAO-SHENG, CAI YONG-ZHU, HE PENG , et al.2D MXenes: electromagnetic property for microwave absorption and electromagnetic interference shielding.Chemical Engineering Journal, 2019,359:1265-1302.
DOI URL |
[1] | FAN Wugang, CAO Xiong, ZHOU Xiang, LI Ling, ZHAO Guannan, ZHANG Zhaoquan. Anticorrosion Performance of 8YSZ Ceramics in Simulated Aqueous Environment of Pressurized Water Reactor [J]. Journal of Inorganic Materials, 2024, 39(7): 803-809. |
[2] | WU Yuhao, PENG Renci, CHENG Chunyu, YANG Li, ZHOU Yichun. First-principles Study on Mechanical Properties and Melting Curve of HfxTa1-xC System [J]. Journal of Inorganic Materials, 2024, 39(7): 761-768. |
[3] | WANG Weiming, WANG Weide, SU Yi, MA Qingsong, YAO Dongxu, ZENG Yuping. Research Progress of High Thermal Conductivity Silicon Nitride Ceramics Prepared by Non-oxide Sintering Additives [J]. Journal of Inorganic Materials, 2024, 39(6): 634-646. |
[4] | SUN Haiyang, JI Wei, WANG Weimin, FU Zhengyi. Design, Fabrication and Properties of Periodic Ordered Structural Composites with TiB-Ti Units [J]. Journal of Inorganic Materials, 2024, 39(6): 662-670. |
[5] | CAI Feiyan, NI Dewei, DONG Shaoming. Research Progress of High-entropy Carbide Ultra-high Temperature Ceramics [J]. Journal of Inorganic Materials, 2024, 39(6): 591-608. |
[6] | LIU Guoang, WANG Hailong, FANG Cheng, HUANG Feilong, YANG Huan. Effect of B4C Content on Mechanical Properties and Oxidation Resistance of (Ti0.25Zr0.25Hf0.25Ta0.25)B2-B4C Ceramics [J]. Journal of Inorganic Materials, 2024, 39(6): 697-706. |
[7] | SU Yi, SHI Yangfan, JIA Chenglan, CHI Pengtao, GAO Yang, MA Qingsong, CHEN Sian. Microstructure and Properties of C/HfC-SiC Composites Prepared by Slurry Impregnation Assisted Precursor Infiltration Pyrolysis [J]. Journal of Inorganic Materials, 2024, 39(6): 726-732. |
[8] | ZHANG Rui, ZHANG Kan, YUAN Mengya, GU Xinlei, ZHENG Weitao. Nitrogen Vacancy Regulated Lattice Distortion on Improvement of (NbMoTaW)Nx Thin Films: Mechanical Properties and Wear Resistance [J]. Journal of Inorganic Materials, 2024, 39(6): 715-725. |
[9] | ZHANG Yuchen, LU Zhiyao, HE Xiaodong, SONG Guangping, ZHU Chuncheng, ZHENG Yongting, BAI Yuelei. Predictions of Phase Stability and Properties of S-group Elements Containing MAX Borides [J]. Journal of Inorganic Materials, 2024, 39(2): 225-232. |
[10] | LI Lei, CHENG Qunfeng. Recent Advances in the High Performance MXenes Nanocomposites [J]. Journal of Inorganic Materials, 2024, 39(2): 153-161. |
[11] | XU Xiangming, Husam N ALSHAREEF. Perspective of MXetronics [J]. Journal of Inorganic Materials, 2024, 39(2): 171-178. |
[12] | LI La, SHEN Guozhen. 2D MXenes Based Flexible Photodetectors: Progress and Prospects [J]. Journal of Inorganic Materials, 2024, 39(2): 186-194. |
[13] | BA Kun, WANG Jianlu, HAN Meikang. Perspectives for Infrared Properties and Applications of MXene [J]. Journal of Inorganic Materials, 2024, 39(2): 162-170. |
[14] | YIN Jianyu, LIU Nishuang, GAO Yihua. Recent Progress of MXene in Pressure Sensing [J]. Journal of Inorganic Materials, 2024, 39(2): 179-185. |
[15] | LIU Yanyan, XIE Xi, LIU Zengqian, ZHANG Zhefeng. Metal Matrix Composites Reinforced by MAX Phase Ceramics: Fabrication, Properties and Bioinspired Designs [J]. Journal of Inorganic Materials, 2024, 39(2): 145-152. |
Viewed | ||||||||||||||||||||||||||||||||||||||||||||||||||
Full text 1818
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||
Abstract 1317
|
|
|||||||||||||||||||||||||||||||||||||||||||||||||