“仙桃”虚拟专刊 | 透波与吸波

《先进陶瓷》最新虚拟专刊汇总

《现代技术陶瓷》最新虚拟专刊汇总

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以下汇总了Journal of Advanced Ceramics (仙桃) 2023年1月以来发表的与透波与吸波陶瓷相关的论文 (文后还附上了《现代技术陶瓷》发表的相关论文)。

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Cao W-Q, Zheng Q, Li L, et al. Dielectric genetic tailoring strategy dominating MoSe₂@rGO assembled architecture with electromagnetic functions. Journal of Advanced Ceramics, 2024, 13 (9): 1461-1472.
JAC摘要 | 2024-09-1461-1472

Qian J, Ma D, Zhou X, et al. Synthesis of SiOC@C ceramic nanospheres with tunable electromagnetic wave absorption performance. Journal of Advanced Ceramics, 2024, 13 (9): 1394-1408.
JAC摘要 | 2024-09-1394-1408

Wang C, Chen X, Wang Z, et al. A novel mullite anti-gyroid/SiC gyroid ceramic metastructure based on digital light processing 3D printing with enhanced electromagnetic wave absorption and mechanical properties. Journal of Advanced Ceramics, 2024, 13 (8): 1212-1222.
JAC摘要 | 2024-08-1212-1222

Liu P, Tian Z, Chen Z, et al. Suppressing the phase transition of ZrP₂O₇ by defect and entropy regulation for high-temperature wave-transparent material application. Journal of Advanced Ceramics, 2024, 13 (8): 1164-1177.
JAC摘要 | 2024-08-1164-1177

Wang Z, Zhang F, Wang N, et al. Ternary layered boride MoAlB: A novel thermo-regulation microwave absorbing ceramic material. Journal of Advanced Ceramics, 2024, 13 (5): 699-710.
JAC摘要 | 2024-05-0699-0710

Zhang W, Su L, Lu D, et al. Resilient Si₃N₄@SiO₂ nanowire aerogels for high-temperature electromagnetic wave transparency and thermal insulation. Journal of Advanced Ceramics, 2023, 12 (11): 2112-2122.
JAC摘要 | 2023-11-2112-2122

Wu C, Zhang F, Zhi Q, et al. From binary to ternary and back to binary: Transition of electromagnetic wave shielding to absorption among MAB phase Ni₃ZnB₂ and corresponding binary borides Ni_n+1B_n (n = 1, 3). Journal of Advanced Ceramics, 2023, 12 (11): 2101-2111.
JAC摘要 | 2023-11-2101-2111

Li Y, Qing Y, Zhang Y, et al. Simultaneously tuning structural defects and crystal phase in accordion-like Ti_xO_2x−1 derived from Ti₃C₂T_x MXene for enhanced electromagnetic attenuation. Journal of Advanced Ceramics, 2023, 12 (10): 1946-1960.
JAC摘要 | 2023-10-1946-1960

Qiao L, Bi J, Liang G, et al. Synthesis of high-entropy MXenes with high-efficiency electromagnetic wave absorption. Journal of Advanced Ceramics, 2023, 12 (10): 1902-1918.
JAC摘要 | 2023-10-1902-1918

Zeng X, Jiang X, Ning Y, et al. Construction of dual heterogeneous interface between zigzag-like Mo–MXene nanofibers and small CoNi@NC nanoparticles for electromagnetic wave absorption. Journal of Advanced Ceramics, 2023, 12 (8): 1562-1576.
JAC摘要 | 2023-08-1562-1576

Guo K-Y, Chen L, Yang G-J. Boosting electromagnetic wave absorption of Ti₃AlC₂ by improving effective electrical conductivity. Journal of Advanced Ceramics, 2023, 12 (8): 1533-1546.
JAC摘要 | 2023-08-1533-1546

Yang J, Wen Q, Feng B, et al. Microstructural evolution and electromagnetic wave absorbing performance of single-source-precursor-synthesized SiCuCN-based ceramic nanocomposites. Journal of Advanced Ceramics, 2023, 12 (7): 1299-1316.
JAC摘要 | 2023-07-1299-1316

Yang R, Xu J, Guo J, et al. High wave transmittance and low thermal conductivity Y–α-SiAlON porous ceramics for high-temperature radome applications. Journal of Advanced Ceramics, 2023, 12 (6): 1273-1287.
JAC摘要 | 2023-06-1273-1287

Yu Z, Chen T, Du H, et al. Single-source-precursor derived SiOC ceramics with in-situ formed CNTs and core–shell structured CoSi@C nanoparticles towards excellent electromagnetic wave absorption properties. Journal of Advanced Ceramics, 2023, 12 (6): 1119-1135.
JAC摘要 | 2023-06-1119-1135

Wang C, Xu Q, Hu J, et al. Graphene/SiC-coated textiles with excellent electromagnetic interference shielding, Joule heating, high-temperature resistance, and pressure-sensing performances. Journal of Advanced Ceramics, 2023, 12 (4): 778-791.
JAC摘要 | 2023-04-0778-0791

Niu H, Jiang X, Xia Y, et al. Construction of hydrangea-like core–shell SiO₂@Ti₃C₂T_x@CoNi microspheres for tunable electromagnetic wave absorbers. Journal of Advanced Ceramics, 2023, 12 (4): 711-723.
JAC摘要 | 2023-04-0711-0723

Liu Y, Huang X, Yan X, et al. Pushing the limits of microwave absorption capability of carbon fiber in fabric design based on genetic algorithm. Journal of Advanced Ceramics, 2023, 12 (2): 329-340.
JAC摘要 | 2023-02-0329-0340

Wang L, Cai Z, Su L, et al. Bifunctional SiC/Si₃N₄ aerogel for highly efficient electromagnetic wave absorption and thermal insulation. Journal of Advanced Ceramics, 2023, 12 (2): 309-320.
JAC摘要 | 2023-02-0309-0320

以下是《现代技术陶瓷》近年来发表的与透波与吸波陶瓷相关的论文：

赵禹良, 宋雨晴, 马新等. 莫来石-SiBCN涂层的制备及其吸波性能研究. 现代技术陶瓷, 2024, 45 (3): 259-267.
《现代技术陶瓷》摘要 | 2024-03-259-267

徐俊杰, 王岭, 王晓猛等. 耐高温吸波材料的研究进展. 现代技术陶瓷, 2024, 45 (3): 189-205.
《现代技术陶瓷》摘要 | 2024-03-189-205

李魏, 宋涛, 王坤, 等. 红外隐身材料的研究进展. 现代技术陶瓷, 2023, 44: 245-262.
《现代技术陶瓷》摘要 | 2023-04-245-262

曹俊倡, 李凯, 栾婷, 等. 高温热处理对石英陶瓷材料的影响研究. 现代技术陶瓷, 2023, 44: 210-217.
《现代技术陶瓷》摘要 | 2023-03-210-217

徐莹, 景昭, 高莹莹, 等. 多孔氮化硅陶瓷作为罩体材料的应用研究. 现代技术陶瓷, 2022, 43: 103-109.
《现代技术陶瓷》摘要 | 2022-02-103-109

樊嘉诚, 袁文凤, 周爱国. 二维晶体Ti₃C₂T_xMXene发射与屏蔽电磁波的研究进展. 现代技术陶瓷, 2022, 43: 1-10.
《现代技术陶瓷》摘要 | 2022-01-001-010

段晓峰, 翟萍. 热处理工艺对硅油改性石英纤维/石英复合材料性能的影响. 现代技术陶瓷, 2021, 42: 209-212.
《现代技术陶瓷》摘要 | 2021-03-209-212

王梦雅, 颜鹏, 王海风, 等. 原位反应制备具有高电磁屏蔽性能的MXene/CaF₂复相陶瓷材料. 现代技术陶瓷, 2021, 42: 181-191.
《现代技术陶瓷》摘要 | 2021-03-181-191

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