论文与专利 - 周 迪
学术论文
本年度论文:
2024:
[1] Ruitao Li, Diming Xu*, Chao Du, Qianqian Ma, Feng Zhang, Xu Liang*, Dawei Wang, Zhongqi Shi, Wenfeng Liu, and Di Zhou,* Giant dielectric tunability in ferroelectric ceramics with ultralow loss by ion substitution design, Nature Communications, 2024, 15, 3754.
[2] Fang-Fang Wu, Di Zhou,* Chao Du, Diming Xu, Zhong-Qi Shi, Moustafa Adel Darwish, Tao Zhou, Shi-Kuan Sun, Xiao-Gang Yao, Hui-Xing Lin, Mei-Rong Zhang, Qi-Xin Liang, Ya-Wei Chen, and Heli Jantunen,* A comprehensive study on crystal structure, phase compositions of the BiVO4-LaVO4 binary dielectric ceramic system and a typical design of Dielectric Resonator Antenna for C-band Applications, Applied Materials Today, 2024, 38, 102222.
[3] Yan Guo, Di Zhou*, Ruitao Li, Da Li, Weichen Zhao, Lixia Pang, Zhongqi Shi, Wenfeng Liu, Jinzhan Su, Tao Zhou, Guohua Chen, Novel relaxor ferroelectric BTWO nanofillers for improving the energy storage performance of polymer-based dielectric composites, Journal of Energy Storage, 2024, 76, 109585.
[4] Yan Guo, Weichen Zhao, Da Li, Yang Liu, Lixia Pang, Zhongqi Shi, Wenfeng Liu, Jinzhan Su, Guohua Chen, Di Zhou,* Trilayer structured ceramic/polymer nanocomposites with superior breakdown strength and discharged energy density, Composites Science and Technology, 2024, 248, 110477.
[5] Tiezhu Guo, Xiao Li, Haowei Zhou, Lixia Pang, Tao Zhou, Zhongqi Shi, Di Zhou,* Effect of large-sized hydrophilic polypyrrole on electrochemical properties of MXene films, Journal of Power Source, 2024, 593, 233978.
[6] Xiao Li, Haowei Zhou, Jinlin Zhang, Xinyue Zhang, Man Li, Jieyan Zhang, Moustafa Adel Darwish, Tao Zhou, Shi-Kuan Sun, Lei Xie,* Di Zhou,* Construction of shell-like carbon superstructures through anisotropically oriented self-assembly for distinct electromagnetic wave absorption, Journal of Materials Chemistry A, 2024, 12, 4057–4066.
[7] Xiangkun Li, Di Zhou*, Xiaogang Yao*, Haiyi Peng, Xingyu Tian, Zhongyuan Gu, Huixing Lin, Zhongqi Shi, Wenfeng Liu, Tao Zhou, Modified poly(phenylene oxide)/(CaSr)TiO3 composites with ultrahigh permittivity and low loss for microwave substrates, Journal of Alloys and Compounds, 2024, 970, 172533.
[8] Chang-Hao Wang, Zhong-Qi Shi, Wen-Feng Liu, Moustafa Adel Darwish, Tao Zhou, Ya-Wei Chen, Qi-Xin Liang, Mei-Rong Zhang, and Di Zhou,* Sintering behaviors and microwave dielectric properties of Ba3P4O13 ceramics, Materials Research Bulletin, 2024, 174, 112704.
[9] Xin Wang, Tao Zhou, Wei Wang, Zhaochen Xi, Diming Xu, Chao Du, Xiao-Gang Yao, Hui-Xing Lin, Huiqi Xia, Biaobing Jin, and Di Zhou,* Effect of B-site complex substitutions on orthorhombic distortions and microwave dielectric properties of Ca(Zr0.95Ti0.05)O3 perovskites, Journal of Materials Chemistry C, 2024, 12, 3124 - 3131.
[10] Sen Ren, Lixia Pang,* Xiaolong Wang, Zhen Fang, Di Zhou,* Yuanjie Zhao, Wenbo Li, Improvement of high-temperature energy storage properties of polyimide-based nanocomposites with sandwich structure, J Appl Polym Sci. 2024, 141, e54848.
[11] Yonghao Zhang, Yan Guo, Yang Liu, Zhongqi Shi, Wenfeng Liu, Jinzhan Su, Guohua Chen, and Di Zhou,* All-organic ArPTU/PEI composite dielectric films with high-temperature resistance and high energy storage density, Journal of Materials Chemistry C, 2024, 12, 4426-4432.
[12] Jinnan Liu, Da Li, Weichen Zhao, Diming Xu, Zhongqi Shi, Wenfeng Liu, Jinzhan Su, Tao Zhou*, Guohua Chen, and Di Zhou,* Excellent energy storage performance achieved in Sr(Sc0.5Nb0.5)O3 doped Bi0.5Na0.5TiO3-based lead-free relaxor ferroelectric ceramics, ACS Applied Energy Materials, 2024, 7, 5, 2030–2038.
[13] Jing Li, Xiao Li, Li He, Huanhuan Guo, Weimin Xia, Bangyong Sun, Congjun Cao, Lijuan Sha, Di Zhou,* MoS2-based Nanocomposites for Microwave Absorption: A Review, ACS Applied Nano Materials, 2024, 7, 6, 5761–5775.
[14] Chao Du, Huizhen Chen, Shaofei Wang, Yongqiang Pang, Tao Zhou, Song Xia, Di Zhou,* Dual-polarized angle-selective surface based on double-layer frequency selective surface, Appl. Phys. Lett., 2024, 124, 111701.
[15] Ahmed Redwan Hazaa Alzakree, Chang-Hao Wang, Muhammad Shehbaz, Wei Wang, Di-Ming Xu, Chao Du, Di Zhou,* Microwave dielectric properties of (Na0.5Bi0.5)MoO4–BaMoO4 composite ceramics with ultralow sintering temperature, Journal of the American Ceramic Society, 2024, 107, 4738–4746.
[16] Jia-Jia Ren, Di-Ming Xu, Qian-Qian Ma, Da Li, Wei-Chen Zhao, Zhen-Tao Wang, Tao Zhou, Wenfeng Liu, and Di Zhou,* Optimized energy storage performance in (Ba0.8Sr0.2)TiO3-based ceramics via Bi(Zn0.5Hf0.5)O3-doping, Journal of Materials Chemistry C, 2024, 12, 6239.
[17] Chao Du, Ziyan Bao, Hetuo Chen,* Guohong Zhou, Yongqiang Pang, Haiwen Liu, Huangfu Jiang, Tao Zhou, Song Xia, and Di Zhou,* A Wide-band High-gain Dielectric Resonator Antenna Based on Mullite Microwave Dielectric Ceramics, Journal of Applied Physics, 2024, 135, 144503.
[18] Jia-Pei Jiang, Chang-Hao Wang, Wei Wang, Zhong-Qi Shi, Xiao-Gang Yao, Hui-Xing Lin, Tao Zhou, Ya-Wei Chen, Qi-Xin Liang, Mei-Rong Zhang, Di Zhou*, Low-temperature sintering of (Co0.35Zn0.65)TiNb2O8 temperature-stable microwave dielectric ceramics with BaCu(B2O5) additions, Journal of the European Ceramic Society, 2024, 44, 6384–6389.
[19] 王震涛,李达,赵维琛,刘津男,徐谛明,周迪*, NaNbO3基无铅储能介质陶瓷研究进展, 硅酸盐学报, 2024, 52[4], 1460-1476.
[20] Li-Xia Pang, Zhen Fang, Di Zhou*, Wei Wang, Zhong-Qi Shi, Fayaz Hussain, Moustafa Adel Darwish, Tao Zhou, Shi-Kuan Sun, Qi-Xin Liang & Ya-Wei Chen, Sintering behaviors and microwave dielectric properties of BaO-MgO-SiO2 ternary ceramics, International Journal of Applied Ceramic Technology, 2024, 21, 3652–3659.
[21] Yu Lou, Wei Wang, Di-Ming Xu, Chao Du, Xin Wang, Fayaz Hussain, Moustafa Adel Darwish, Tao Zhou, Ya-Wei Chen, Qi-Xin Liang, Mei-Rong Zhang, Yong-Qiang Pang, & Di Zhou*, Effect of LiF and LBSCA glass on the microwave dielectric properties of 0.5BaCuSi4O10-0.5BaCuSi2O6-based ceramics for LTCC applications, Journal of the American Ceramic Society, 2024, 107, 6964–6973.
[22] Xiao-Long Wang, Li-Xia Pang*, Di Zhou*, Wen-Bo Li, Sen Ren, Wei-Guo Liu, Microwave dielectric properties of (1-x)Na0.5Y0.5MoO4-xNa0.5Bi0.5MoO4 ceramics for LTCC applications, Journal of the European Ceramic Society, 2024, 44, 7623–7629.
[23] Sen Ren, Shihao Yuan, Mingkun Huang, Lixia Pang, Wenbo Li, Xiaolong Wang, Di Zhou*, Yuanjie Zhao, Cost-Effective Strategy for high-temperature energy storage performance of polyimide nanocomposite films, Journal of Energy Storage, 2024, [95], 112524.
[24] Shehbaz, Muhammad; Du, Chao; Li, Rui-Tao; Wang, wei; Alzakree, Ahmed Redwan Hazaa; Yao, Xiaogang; Peng, Haiyi; Lin, Huixing; Shi, Zhong-Qi ; Xu, Diming; Xia, Song; Pang, Yongqiang; Zhou Di*, Millimeter wave dielectric resonator antenna using high quality factor temperature stable dielectric ceramic composite K18 for 5G applications, ACS Applied Electronic Materials, 2024, 6, 6120-6130.
[25] Chang-Hao Wang, Wei Wang, Di-Ming Xu, Ahmed Redwan Hazaa Alzakree, Fayaz Hussain, Moustafa Adel Darwish, Tao Zhou, Ya-Wei Chen, Qi-Xin Liang, Mei-Rong Zhang, Yaguang Wu, Di Zhou*, Low temperature sintering and improvement of temperature Stability of Ba3P4O13 microwave dielectric ceramics by BCB additions, Materials Research Bulletin, 2024, 179, 112964.
[26] Wei Wang, Xin Wang, Jian Bao, Jiapei Jiang, Zhen Fang, Biaobing Jin, Zhongqi Shi, Moustafa Adel Darwish, Yawei Chen, Qixin Liang, Meirong Zhang, Diming Xu, Chao Du, Di Zhou*, Low-permittivity BaCuSi4O10-based dielectric Ceramics: An available solution to connect low temperature cofired ceramic technology and millimeter-wave communications, Chemical Engineering Journal, 2024, 494, 153172.
[27] Zhentao Wang, Da Li, Wenyuan Liu, Xu Liang, Weichen Zhao, Jinnan Liu, Jiajia Ren, Tao Zhou, Diming Xu, Wenfeng Liu and Di Zhou*, Improved energy storage properties achieved in NaNbO3-based relaxor antiferroelectric ceramics via anti-parallel polar nanoregion design, Journal of Materials Chemistry A, 2024, 12, 19551–19558.
[28] Zi-Yang Liu, Wei Wang, Di-Ming Xu, Chao Du, Xin Wang, Guo-Qiang He, Fayaz Hussain, Tao Zhou, Biao-Bing Jin, Ke-Hong Zhou, Jun Li, Chao Liang, Di Zhou*, Microwave dielectric properties, vibrational spectrum, and antenna design of a novel melilite-type Ba2CoSi2O7 ceramic, Journal of the American Ceramic Society, 2024, https://doi.org/10.1111/jace.20097.
往年论文:
授权专利
[1] 一种低温烧结铋基微波介质陶瓷材料及其制备、中国发明专利、CN100358837C、2008年授权、汪宏 周迪 张磊 姚熹;
[2] 一种低温烧结的Ti基微波介质陶瓷材料及其制备、中国发明专利、CN100591641C、2010年授权、汪宏 庞利霞 周迪 姚熹;
[3] 一种低温烧结LTCC微波介质陶瓷材料及其制备方法、中国发明专利、CN101224977B、2010年授权、汪宏 周焕福 丁晓言 庞利霞 周迪 姚熹;
[4] 铋基钼基超低温烧结微波介质陶瓷材料及其制备、中国发明专利、CN101318815B、2011年授权、汪宏 周迪 姚熹 庞利霞;
[5] 一种白钨矿型钼基超低温烧结微波介质陶瓷材料及其制备方法、中国发明专利、ZL201010191401.1、2012年11月28日授权、周迪 汪宏 姚熹 张高群 庞利霞 吴新光 郭靖;
[6] 一种硅铍石超低温烧结微波介质陶瓷材料及其制备方法、中国发明专利、ZL201010192027.7、2012年11月28日授权、周迪 汪宏 姚熹 庞利霞 吴新光 郭靖 张高群;
[7] 一种钼基超低温烧结微波介质陶瓷材料及其制备方法、中国发明专利、ZL201010170146.2、2013年04月17日授权、周迪 汪宏 姚熹 庞利霞 吴新光 郭靖 张高群;
[8] 一种铋基钒基低温烧结微波介质陶瓷材料及其制备方法、中国发明专利、ZL201110100849.2、2013年05月22日授权、周迪 汪宏 姚熹 郭靖 张高群 吴颖 吴新光;
[9] 钼基钛基温度稳定型微波介质陶瓷材料及其制备方法、中国发明专利、CN102173782B、2013年授权、汪宏 郭靖 周迪 姚熹;
[10] 一种低温烧结微波介质陶瓷基板材料及其制备、中国发明专利、CN102390991B、2013年授权、汪宏 吴新光 周迪 代伟 陈月花 曾一;
[11] 一种低温烧结的铋基微波介质陶瓷及其制备方法、中国发明专利、ZL201210185088.X、2013年11月06日授权、周迪 庞利霞 郭靖 姚熹;
[12] 一种超低温烧结的复合微波介质陶瓷材料及其制备方法、中国发明专利、ZL201310141266.3、2014年09月03日授权、周迪 庞利霞 郭靖 姚熹;(转让)
[13] 一种白钨矿型微波介质陶瓷材料及其制备方法、中国发明专利、ZL201310091579.2、2014年授权、李金艳 梁英 周迪;
[14] 一种低温烧结温度稳定型微波介质陶瓷材料及其制备方法、中国发明专利、ZL201410234824.5、2015年10月28日授权、周迪 席海红 贺斌 谢会东;
[15] 一种温度稳定型白钨矿结构微波介质陶瓷及其制备方法、中国发明专利、ZL201410142776.7、2016年03月30日授权、周迪 席海红 贺斌 谢会东;(转让)
[16] 一种温度稳定型中K值微波介质陶瓷及其制备方法、中国发明专利、ZL201410578038.7、2016年08月24日授权、周迪 张一丁;(转让)
[17] 一种中介电常数低损耗微波介质陶瓷及其制备方法、中国发明专利、ZL201510105061.9、2017年09月12日授权、周迪 李文博 庞利霞 赵金雄;
[18] Ti基低损耗中K值微波介质陶瓷及其制备方法、中国发明专利、ZL201510772208.X、2017年10月31日授权、周迪 李文博 赵金雄 姚熹;
[19] 一种钒基温度稳定型微波介质陶瓷及其制备方法、中国发明专利、ZL201510815604.6、2018年07月17日授权、周迪 李文博 姚熹;(转让)
[20] 一种超低温烧结的复合微波介质陶瓷材料及其制备方法、中国发明专利、ZL201911052856.2、2021年1月19日授权、周迪 郝澍钊 郭欢欢 吴芳芳 李文艺 李睿韬 任佳佳。