透波与吸波

透波与吸波 (2022 ~ 2023)

点击查阅本刊2021年及之前发表的同主题论文

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.

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.

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.
品味“仙桃” | 锯齿状Mo-MXene纳米纤维与CoNi@NC纳米颗粒双异质界面的“共情”及其电磁波“回应”

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.

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.
品味“仙桃” | 低成本高温吸波新材料：SiCuCN纳米复相陶瓷

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.
品味“仙桃” | 透波、隔热和承载一体化α-SiAlON多孔陶瓷天线罩材料

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.
品味“仙桃” | 原位形成碳纳米管和核壳结构CoSi@C纳米粒子协同增强先驱体转化SiOC基陶瓷吸波性能

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.
品味“仙桃” | 具有优异的电磁屏蔽、焦耳热、耐高温和压力传感性能的石墨烯/SiC涂层修饰多功能织物

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.

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.
品味“仙桃” | 轻薄宽频微波吸收材料的‘一小步’：碳纤维周期性编织结构

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.
品味“仙桃” | 高效吸波SiC/Si₃N₄复合气凝胶

Hu F, Zhang F, Wang X, et al. Ultrabroad band microwave absorption from hierarchical MoO₃/TiO₂/Mo₂TiC₂T_x hybrids via annealing treatment. Journal of Advanced Ceramics, 2022, 11 (9): 1466-1478.
品味“仙桃” | 一种非常有前途的宽频吸波材料：MoO₃/TiO₂/Mo₂TiC₂T_x复合材料

Ma J, Zhao B, Xiang H, et al. High-entropy spinel ferrites MFe₂O₄ (M = Mg, Mn, Fe, Co, Ni, Cu, Zn) with tunable electromagnetic properties and strong microwave absorption. Journal of Advanced Ceramics, 2022, 11 (5): 754-768.
品味“仙桃” | 高熵实现电磁耦合，发现铁氧体吸波材料设计新方向

Zhang W, Xiang H, Dai FZ, et al. Achieving ultra-broadband electromagnetic wave absorption in high-entropy transition metal carbides (HE TMCs). Journal of Advanced Ceramics, 2022, 11 (4): 545-555.
品味“仙桃” | 在高熵过渡金属碳化物 (HE TMC) 中实现超宽频电磁波吸收

Cao Q, Zhang J, Zhang H, et al. Dual-surfactant templated hydrothermal synthesis of CoSe₂ hierarchical microclews for dielectric microwave absorption. Journal of Advanced Ceramics, 2022, 11 (3): 504-514.

Li J, Hong Y, He S, et al. A neutron diffraction investigation of high valent doped barium ferrite with wideband tunable microwave absorption. Journal of Advanced Ceramics, 2022, 11 (2): 263-272.

Qin G, Huang X, Yan X, et al. Carbonized wood with ordered channels decorated by NiCo₂O₄ for lightweight and high-performance microwave absorber. Journal of Advanced Ceramics, 2022, 11 (1): 105-119.
品味“仙桃” | 木质衍生碳负载NiCo₂O₄复合吸波材料制备及吸波机制

点击查阅本刊2021年及之前发表的同主题论文

论文分类推荐为便于读者查找感兴趣的论文，本刊对2022年1月 (第11卷第1期) 以来发表的论文按研究内容进行了分类 (分类不一定准确，仅供参考)。如果您对某一研究内容感兴趣，请点击下方左侧相应链接进入论文题目列表 (为便于读者使用，我们还准备了每月更新一次的分类目录 MS-WORD版供读者下载)。此外，您也可以访问 https://www.sciopen.com/journal/2226-4108可以查阅并下载本刊创刊以来发表的所有论文，或转至总目录页面通过关键词搜索您感兴趣的论文。您在使用本分类目录的过程中，如果发现存在分类不准确、链接错误或不可用等，请及时联系本刊执行主编龚江宏(e-mail: jac@tsinghua.edu.cn或微信13801256332)。如果您有设立新分类类别的建议，也请随时与本刊执行主编联系。尤其是，本目录中所列论文的作者如果觉得自己的论文所在分类不准确或者可以出现在其他更多的分类中，欢迎随时向本刊执行主编提出建议。
01 综述论文 02 高熵陶瓷的制备工艺及性能 03 增材制造及3D/4D打印技术 04 结构陶瓷 05 热障涂层、环境障涂层及其他保护性涂层 06 隔热陶瓷 07 高导热陶瓷 08 透波与吸波 09 透明与发光 10 MAX、MAB、MXenes 及相似二维材料 11 多孔陶瓷与多孔无机膜 12 介电、压电、铁电 13 磁性材料 14 纳米功能材料 15 功能性薄膜 16 电池材料 (电解质、电极等) 17 热电材料 18 催化及有机物降解材料 19 敏感陶瓷 (气敏、NTC、Varistor) 20 核能相关陶瓷材料 21 生物材料 22 聚合物先驱体陶瓷 23 粉体、纤维、晶须 24 玻璃与玻璃陶瓷 25 地聚物陶瓷 26 陶瓷工艺技术 27 涉及材料计算的论文	如果您对某一篇论文感兴趣，请点击论文题目直接进入SciOpen网站该论文所在页面下载论文全文电子版。部分论文的题目下方还给出了“特陶人”公众号上曾经发表的该文的中文推广材料，供点击阅读。有些论文还没有相应的“品味仙桃”中文推广材料。请这些论文的作者尽可能提供中文推广材料 (已经提交的将在公众号连续发出，一个月内未发出的请及时联系期刊执行主编)。此外，如果您愿意为境外作者的某一篇或多篇论文撰写“品味仙桃”，我们不胜感激。
	透波与吸波 (2022 ~ 2023) 点击查阅本刊2021年及之前发表的同主题论文 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. 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. 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. 品味“仙桃” \| 锯齿状Mo-MXene纳米纤维与CoNi@NC纳米颗粒双异质界面的“共情”及其电磁波“回应” 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. 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. 品味“仙桃” \| 低成本高温吸波新材料：SiCuCN纳米复相陶瓷 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. 品味“仙桃” \| 透波、隔热和承载一体化α-SiAlON多孔陶瓷天线罩材料 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. 品味“仙桃” \| 原位形成碳纳米管和核壳结构CoSi@C纳米粒子协同增强先驱体转化SiOC基陶瓷吸波性能 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. 品味“仙桃” \| 具有优异的电磁屏蔽、焦耳热、耐高温和压力传感性能的石墨烯/SiC涂层修饰多功能织物 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. 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. 品味“仙桃” \| 轻薄宽频微波吸收材料的‘一小步’：碳纤维周期性编织结构 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. 品味“仙桃” \| 高效吸波SiC/Si₃N₄复合气凝胶 Hu F, Zhang F, Wang X, et al. Ultrabroad band microwave absorption from hierarchical MoO₃/TiO₂/Mo₂TiC₂T_x hybrids via annealing treatment. Journal of Advanced Ceramics, 2022, 11 (9): 1466-1478. 品味“仙桃” \| 一种非常有前途的宽频吸波材料：MoO₃/TiO₂/Mo₂TiC₂T_x复合材料 Ma J, Zhao B, Xiang H, et al. High-entropy spinel ferrites MFe₂O₄ (M = Mg, Mn, Fe, Co, Ni, Cu, Zn) with tunable electromagnetic properties and strong microwave absorption. Journal of Advanced Ceramics, 2022, 11 (5): 754-768. 品味“仙桃” \| 高熵实现电磁耦合，发现铁氧体吸波材料设计新方向 Zhang W, Xiang H, Dai FZ, et al. Achieving ultra-broadband electromagnetic wave absorption in high-entropy transition metal carbides (HE TMCs). Journal of Advanced Ceramics, 2022, 11 (4): 545-555. 品味“仙桃” \| 在高熵过渡金属碳化物 (HE TMC) 中实现超宽频电磁波吸收 Cao Q, Zhang J, Zhang H, et al. Dual-surfactant templated hydrothermal synthesis of CoSe₂ hierarchical microclews for dielectric microwave absorption. Journal of Advanced Ceramics, 2022, 11 (3): 504-514. Li J, Hong Y, He S, et al. A neutron diffraction investigation of high valent doped barium ferrite with wideband tunable microwave absorption. Journal of Advanced Ceramics, 2022, 11 (2): 263-272. Qin G, Huang X, Yan X, et al. Carbonized wood with ordered channels decorated by NiCo₂O₄ for lightweight and high-performance microwave absorber. Journal of Advanced Ceramics, 2022, 11 (1): 105-119. 品味“仙桃” \| 木质衍生碳负载NiCo₂O₄复合吸波材料制备及吸波机制点击查阅本刊2021年及之前发表的同主题论文
京公网安备 11010802037371号京ICP备05082739号