刘兵 副教授

刘兵，博士，副教授。2015-2016美国博伊西州立大学访问学者，2017年获浙江大学工学博士学位，同年进入raybet下赌注 从事教学科研工作。主要从事中低介5G微波介质陶瓷与相关电子元器件设计开发，新型冷烧结制备技术等工作。作为负责人主持国家自然科学基金青年、面上项目各1项，浙江省自然科学基金项目1项，中国科协优秀青年项目1项，温州市科研项目1项，校级项目3项。近年来以第一作者或通讯作者在国外学术刊物发表SCI论文50余篇，其中TOP论文29篇，ESCI高被引论文2篇，他引次数2000余次；授权发明专利11项；2024年入选全球前2%顶尖科学家榜单。

2024年度

1.       Bing Liu, Feng Li Lin, Kai Xin Song, and Yu Hui Huang.Resolving the role of configurational entropy in the optimization of mechanical, thermal, and microwave dielectric properties of SrLa(Al_0.50–xGa_xZn_0.125Mg_0.125Ti_0.25)O₄ ceramics. ACS Appl. Mater. Interfaces, 16, 55741−55750 (2024).

2.       Jiamin Lin, Fu Lv, Zijian Hong, Bing Liu, Yongjun Wu, Yuhui Huang. Ultrahigh piezoelectric response obtained by artificially generating a large internal bias field in BiFeO₃–BaTiO₃ lead-free ceramics. Adv. Funct. Mater., 2313879 (2024).

3.       Bing Liu, Juan Liu, Cheng Chao Hu, Kai Xin Song, Yu Hui Huang. Low-temperature co-fired ceramics with high thermal expansion and reliability for millimeter-wave antennas. Cell Reports Physical Science, 5, 101959 (2024).

4.       Mo Wei, Meng Fei Zhou, Bing Liu, Cheng Chao Hu, Yu Hua Cheng, and Kai Xin Song. Low permittivity MgF₂-LiF ceramics with ultra-low dielectric loss for ULTCC applications. J. Eur. Ceram. Soc.,44, 6495-6500 (2024).

5.       Juan Liu, Bing Liu, Kai Xin Song. Enhanced microwave dielectric properties of Al₂O₃ ceramics via a cold sintering assisted two-step sintering route. J. Mater. Sci. Mater. Electron., 35, 764 (2024).

6.       Jia Peng Yuan, Bing Liu, Cheng Chao Hu, Kai Xin Song, and Yu Hui Huang. Reactive cold sintering of dense barium sulfate ceramics for high-reliability chip packaging in integrated circuits. J. Eur. Ceram. Soc., 44, 116671 (2024).

7.       Jia Peng Yuan, Nuo Chen, Cheng Chao Hu, Bing Liu, and Kai Xin Song. Enhanced microwave dielectric properties in one-step cold sintered LiF ceramics via pre-calcination treatment. Ceram. Int., (2024).

2023年度

1.       Meng Fei Zhou, Bing Liu, Cheng Chao Hu, Kai Xin Song. Ultra-low permittivity MgF₂ ceramics with high Qf values and their role as microstrip patch antenna substrates. Ceram. Int.,49, 369–374 (2023).

2.       Feng Li Lin, Bing Liu, Cheng Chao Hu, Kai Xin Song. Novel high-entropy microwave dielectric ceramics Sr(La_0.2Nd_0.2Sm_0.2Eu_0.2Gd_0.2)AlO₄ with excellent temperature stability and mechanical properties. J. Eur. Ceram. Soc., 43, 2506–2512 (2023).

3.       Bing Liu, Ke Sha, Qin Wei Zhou, Kai Xin Song, Feng Shi, and Yu Hua Cheng. One-step cold sintering process towards translucent BaF₂ ceramics. J. Eur. Ceram. Soc., 43, 7053-7058 (2023).

4.       Juan Liu, Bing Liu, Cheng Chao Hu, Qing Wei Zhou, and Kai Xin Song. Ultra-low temperature sintered (1–x)BaV₂O₆-xLiF ceramics for ULTCC and 5G millimeter-wave antenna applications. J. Eur. Ceram. Soc., 43, 6130-6136 (2023).

5.       Feng Li Lin, Bing Liu, Qing Wei Zhou, Yu Hua Cheng, and Kai Xin Song. Novel non-equimolar SrLa(Al_0.25Zn_0.125Mg_0.125Ga_0.25Ti_0.25)O₄ high-entropy ceramics with excellent mechanical and microwave dielectric properties. J. Eur. Ceram. Soc., 43, 6909-6915 (2023).

2022年度

1.       Bing Liu, Feng Li Lin, Cheng Chao Hu, Kai Xin Song, Jia Heng Zhang, Cheng Lu, Yu Hui Huang, Novel transparent LiF ceramics enabled by cold sintering at 150 °C, Scripta Mater., 220, 114917 (2022).

2.       Bing Liu, Ke Sha, Meng Fei Zhou, Kai Xin Song, Cheng Chao Hu, Cheng Lu, Cold sintering assisted CaF₂ microwave dielectric ceramics for C-band antenna applications, J. Eur. Ceram. Soc., 42, 5698–5704 (2022).

3.       Meng Fei Zhou, Cheng Chao Hu, Jian Bing Yin, Yu Jiang, Bing Liu, Kai Xin Song. Cold sintering optimized SrF₂ microwave dielectric ceramics for the development of dielectric resonator antenna at 5G millimeter-wave band. Ceram. Int., 48, 29847–29853 (2022).

4.       Feng Li Lin, Bing Liu, Kai Xin Song. NaLaMgWO₆ microwave dielectric ceramics and their sub-6 GHz band microstrip patch antenna applications. J. Mater. Sci. Mater. Electron., 33, 21737–21745 (2022).

5.       Ke Sha, Feng Li Lin, Bing Liu, Kai Xin Song, Jia Heng Zhang. Structure, chemical bond, and microwave dielectric properties of (Sr_1-xCa_x)₂(Ti_1-xSn_x)O₄ ceramics. J. Mater. Sci. Mater. Electron., 33, 21976–21984 (2022).

6.       Meng Fei Zhou, Yu Jiang, Bing Liu, Kai Xin Song, Feng Shi. Cold sintering optimized LiF microwave dielectric ceramics for the development of dielectric resonator antennas at 5G millimeter-wave band. J. Mater. Sci. Mater. Electron.,33, 20012–20020 (2022).

2021年度

1.       Bing Liu, Kai Xin Song, Vibrational spectroscopy and microwave dielectric properties of two novel Ca₃Ln₂W₂O₁₂ (Ln= La, Sm) tungstate ceramics, Mater. Res. Bull., 133, 111022 (2021).

2.       Bing Liu, Lei Li, Kai Xin Song, Min Min Mao, Zhilun Lu, Ge Wang, Linhao Li et al, Enhancement of densification and microwave dielectric properties in LiF ceramics via a cold sintering and post-annealing process, J. Eur. Ceram. Soc., 41, 1726-1729 (2021).

3.       Bing Liu, Ke Sha, Ying Qiang Jia, Yu Hui Huang, Cheng Chao Hu, Lei Li, Di Zhou, Kai Xin Song, High quality factor cold sintered LiF ceramics for microstrip patch antenna applications, J. Eur. Ceram. Soc., 41, 4835-4840 (2021).

4.       Bing Liu, Ke Sha, Meng Fei Zhou, Kai Xin Song, Yu Hui Huang, Cheng Chao Hu, Novel low-ε_r MGa₂O₄ (M= Ca, Sr) microwave dielectric ceramics for 5G antenna applications at the Sub-6 GHz band, J. Eur. Ceram. Soc., 41, 5170-5175 (2021).

5.       Ding Hao Jin, Bing Liu, Kai Xin Song, Kui Wen Xu, Yu Hui Huang, Cheng Chao Hu, Yuan Yun Hu, Boosting densification and microwave dielectric properties in cold sintered BaF₂ ceramics for 5.8 GHz WLAN applications, J. Alloys Compd., 886, 161141 (2021).

6.       Yi Ding, Cheng Chao Hu, Wei Qin Sheng, Kai Xin Song, Bing Liu, Crystal structure, microwave dielectric properties, and dielectric resonant antenna studies of novel low-permittivity CoAl₂O₄ spinel ceramics, J. Mater. Sci. Mater. Electron., 32, 22813-22821 (2021).

7.       Meng Fei Zhou, Yi Xuan Zheng, Ke Sha, Kai Xin Song, Bing Liu, A novel strategy to assemble core–shell-structured LiF-CaTiO₃ microwave dielectric ceramics via cold sintering and post-annealing treatment, J. Mater. Sci. Mater. Electron., 32, 28447-28453 (2021).

8.       Ding Hao Jin, Cheng Chao Hu, Bing Liu, Improved sinterability and temperature stability in Zn²⁺/Ti⁴⁺-co-substituted CaAl₂O₄ ceramics and their 5G antenna applications, J. Mater. Sci. Mater. Electron., 32, 18205–18211 (2021).

2020年度

1.       Yi Wu, Cheng Chao Hu, Bing Liu, Yu Hui Huang, Kai Xin Song, Crystal structure, vibrational spectroscopy, and microwave dielectric properties of CaAl₄O₇ ceramics with low permittivity, J. Mater. Sci. Mater. Electron., 31, 4520-4526 (2020).

2.       Yi Wu, Bing Liu, Kai Xin Song, Ca₃Al₂O₆: novel low-permittivity microwave dielectric ceramics with abnormally large negative τ_f, J. Mater. Sci. Mater. Electron., 31, 7953-7958 (2020).

2019年度

1.       Bing Liu, Yu Hui Huang, Hadi Barzegar Bafrooei, Kai Xin Song, Lei Li, Xiang Ming Chen, “Effects of structural transition on microwave dielectric properties of Sr₃(Ti_1-xSn_x)₂O₇ ceramics,” J. Eur. Ceram. Soc., 39, 4794–4799 (2019) .

2.       Bing Liu, Cheng Chao Hu, Yu Hui Huang, Kai Xin Song, “Effects of (Mg1/3Nb2/3) substitution on the structure and microwave dielectric properties of Sr2TiO4 ceramics,” Mater. Lett., 253, 293–297 (2019).

3.       Bing Liu, Yu Hui Huang, Cheng Chao Hu, Kai Xin Song and Y. J. Wu, “Colossal dielectric permittivity in (Al+Nb) co-doped Ba_0.4Sr_0.6TiO₃ ceramics,” Ceram. Int., 45, 14263-14269 (2019).

4.       Bing Liu, Cheng Chao Hu, Yu Hui Huang, Hadi Barzegar Bafrooei, Kai Xin Song, “Crystal structure, infrared reflectivity spectra and microwave dielectric properties of CaAl₂O₄ ceramics with low permittivity,” J. Alloy Compd., 791, 1033–1037 (2019).

5.       Bing Liu, Yi Wu, Cong Kang Hu and Kai Xin Song, “Synthesis, crystal structure and microwave dielectric properties of Sr₂LnMgNbO₇ (Ln = La, Nd, Sm) novel compounds with Ruddlesden-Popper structure,” Mater. Lett., 238, 245–248 (2019).

6.       Bing Liu, Yi Wu, Y. H. Huang, Kai Xin Song and Y. J. Wu, “Enhanced dielectric strength and energy storage density in BaTi_0.7Zr_0.3O₃ ceramics via spark plasma sintering,” J. Mater. Sci., 54, 4511–4517 (2019).

7.       Yu Hui Huang, Bing Liu and Kai Xin Song, “Microwave dielectric properties of temperature stable (1-x)SrLaAlO₄-xTiO₂ composite ceramics” Ceram. Int., 44, S125–S128 (2018).

2018年度

1.       B. Liu, Y. H. Huang, K. X. Song, L. Li and X. M. Chen, “Structural evolution and microwave dielectric properties in Sr2(Ti1-xSnx)O4 ceramics,” J. Eur. Ceram. Soc., 38, 3833-3839 (2018).

2.       B. Liu, X. Q. Liu and X. M. Chen, “Structural evolution and enhanced microwave dielectric properties in Sr2+/Ti4+ co-substituted SrNd2Al2O7 ceramics,” J. Alloy Compd., 758, 25-31 (2018).

3.       Y. H. Huang, Y. J. Wu, B. Liu, T. N. Yang, J. J. Wang, J. Li, L. Q. Chen and X. M. Chen, “From core–shell Ba_0.4Sr_0.6TiO₃@SiO₂ particles to dense ceramics with high energy storage performance by spark plasma sintering,” J. Mater. Chem. A, 6, 4477-4484 (2018).

2017年度

1.       K. Tolman, R. Ubic, B. Liu, I. Williamson, K. Bedke, E. B. Nelson, L. Li and X. M. Chen, Empirical Evidence for A-site Order in Perovskites, J. Am. Ceram. Soc., 100, 429–42 (2017).

2.       G. R. Ren, J. Y. Zhu, L. Li, B. Liu, and X. M. Chen, SrLa(R0.5Ti0.5)O4 (R = Mg, Zn) Microwave Dielectric Ceramics with Complex K2NiF4-Type Layered Perovskite Structure, J. Am. Ceram. Soc., 100, 2582–2589 (2017).

3.       B. Liu, L. Li, X. Q. Liu and X. M. Chen, Srn+1TinO3n+1 (n = 1, 2) Microwave Dielectric Ceramics with Medium Dielectric Constant and Ultra-Low Dielectric Loss, J. Am. Ceram. Soc., 100, 496-500 (2017).