陈雪

  2025-02-27   点击:[44]


1.X. Chen, N. S. Villa, Y. F. Zhuang, L. Z. Chen, T. F. Wang, Z. D. Li*, T. T. Kong*, Stretchable supercapacitor as emergent energy storage units for health monitoring bioelectronics. Adv. Energy Mater., 2019, 1902769. 

2. B.L. Peng1,*, T.T. Wang1,, L.J. Liu1,X. Chen1,(共一), J.F. Li, Q. Zhang, R.S.Yang, W.H.Sun*, Z.L.Wang*, P-GaN-substrate sprouted giant pure negative electrocaloric effect in Mn-doped Pb(Zr 0.3 Ti 0.7 )O3 thin film with a super-broad operational temperature range. Nano Energy, 2021, 106059. 

3. X. Chen, P. Liu, C. Qi*, T. F. Wang, Z. Liu*, T. T. Kong*, Non-coalescence of oppositely charged droplets in viscous oils. Appl. Phys. Lett., 2019, 115(2), 023701.

4. Q. R. Xie, R. Liu, X. Wang, X. Chen*, Investigation of flow dynamics of thin viscous films down differently shaped fibers. Appl. Phys. Lett., 2021, 119, 201601.

5. X. Chen, X. Wang, P. G. Chen, Q. S. Liu*. Thermal effects of substrate on Marangoni flow in droplet evaporation: response surface and sensitivity analysis. Int. J. Heat Mass Transfer, 2017, 113, 354-365. 

6. X. Chen, P. G. Chen*, J. OuazzaniQ. S. Liu. Numerical simulations of sessile droplet evaporating on heated substrate, Eur. Phys. J. Special Topics, 2017, 226(6), 1325-1335. 

7. X. Chen, X. Wang, P. G. Chen*, Q. S. Liu. Determination of diffusion coefficient in droplet evaporation experiment using response surface method, Microgravity Sci. Technol., 2018, 30, 675-682. 

8. X. ChenZ. Ding*, R. Liu, Spreading of annular droplets on a horizontal fiber, Microgravity Sci. Technol., 2018, 30(3), 143-153. 

9. X. Chen, Z. Q. Zhu, Q. S. Liu*, X. W. Wang. Thermodynamic behaviors of macroscopic liquid droplets evaporation from heated substrates, Microgravity Sci. Technol., 2015, 27(5), 353-360. 

10. X. Wang, S. Khazaie, X. Chen*, Linear approximation of underwater sound speed profile: Precision analysis in direct and inverse problems. Applied Acoustics, 2018, 140, 63-73. 

11. S. Qin, Z. Li, X. Wang, K. Li, X. Chen*, Numerical simulations of a toroidal droplets breakup in viscous oils, AIP Advances, 2022, 12(11), 115213. 

12. F. W. Li, J. Wei, X. M. Qin, X. Chen*, D. W. Chen, W. T. Zhang, J. G. Han, L. B. Yuan, H. C. Deng. Thermo-optical tweezers based on photo thermal wave guides[J]. Microsystems & Nanoengineering, 2024, 10(1): 123. 

13. D. X. Yan, Z. Y. Guo, X. Chen*, K. Li*, J. F. Zhao, W. R. Hu, Rapid prediction of interface morphology and oxygen transportation in crystal growth based on the response surface method[J]. Journal of Crystal Growth, 2025, 649, 127935. 

14. L. M. Quan, B. Zhang, K. Y. Chen, Y. Z. Meng, W. X. Li, C. B. Long*, L. Fang, B. L. Peng, X. Chen*, D. Y. Wang, Y. S. Bai, L. L. da Silva, L. J. Liu*, Phase structure and electrical properties of (Ba1/2Sr1/2)2+ modified high Curie temperature CaBi2Nb2O9-based ceramics, Journal of the American Ceramic Society, 2024, 107: 6119-1629 (2024). 

15. Z. H. Luo, J. Kong*, X. Chen*, L. T. Pan, X. Z. Huang, D. W. Wang, Q. F. Zhu, W. P. Gong, L. J. Liu*, Unveiling high resistivity mechanism in (0.8-x)BaTiO3-0.2BiScO3-x(Bi0.5Li0.5) TiO3 ceramics with good dielectric temperature-stability, Ceramics International, 2024, 50: 35627-35637. 

16. Z. H. Luo, M. M. Lin, J. Kong*, X. W. Zhu, X. Y. Lei, D. W. Wang, C. L. Li, W. P. Gong, X. Chen*, L. J. Liu*, Double enhancement of energy storage density in relaxor ferroelectric 0.8BaTiO3-0.2BiScO3 by Li defect-regulated strategy, Journal of Alloys and Compounds, 2025, 1010: 177558. 

17. M. M. Lin, Z. H. Luo, H. C. Sun, B. Zhang, F. F. Han*, X. Niu, D. Y. Wang, Y. S. Bai, X. Chen*, B. L. Peng, S. G. Lu, L. J. Liu*, Enhanced room-temperature electrocaloric Enhanced room-temperature electrocaloric and di?used phase transition in (Ba0.65Sr0.3Ca0.05) (SnxTi1-x)O3 ferroelectric ceramics. Journal of Materials Chemistry C, 2024. DOI: 10.1039/d4tc03478c.

18. 赵雨杰虞洋赵勇刘荣勇袁富祥陈雪*. 基于响应曲面法预测球磨浆料性能的研究中国陶瓷, 202258(6), 59-64.

19. 郑智跃,蒋占四,丁泽良,杜王芳,李凯,陈雪*.小管径管翅式换热器气压胀接成形机理研究.力学学报,2023,55(02):554-563. 

20. G. Luo, Y. Yu, Y. Yuan, X. Chen, Z. Liu*, T. Kong*, Freeform, Reconfigurable Embedded Printing of All-Aqueous 3D Architectures, Adv. Mater., 2019, 31, 1904631. 

21. S. Yin, Y. Huang*, X. H. Shen, C. Y. Zhang, X. Chen, Marcos, H. W. Li. T. N. Wong*, Triple-layered encapsulation through direct droplet impact, J. Colloid Interf. Sci., 2022, 615, 887-896. 

22. S. Y. Wei, X. Chen, G. Z. Dong, L. J. Liu, Q. Zhang, B. L. Peng*, Large electrocaloric effect in two-step-SPS processed Pb(Sc0.25In0.25Nb0.25Ta0.25)O3 medium-entropy ceramics. Ceramics International, 2022, 48, 15640–15646.

23. Q. W. He, S. Schmid*, X. Chen, B. L. Peng, C. C. Li,1 C. Z. Hu, L. J. Liu*, Ma. Hinterstein, Structure and relaxor ferroelectric behavior of the novel tungsten bronze type ceramic Sr5BiTi3Nb7O30, J. Appl. Phys., 2022, 131, 164102.

24. Y. B. Cui, X. Y. Zhang, X. Y. Lei, T. X. Yan, X. Chen, B. L. Peng, P. R. Ren, C. C. Li*, L. J. Liu*, The high piezoelectricity and thermal stability of high-temperature piezoelectric ceramics BiFeO3-0.25BaTiO(3)-xBi(0.5)K(0.5)TiO(3) near the MPB, J. Mater. Chem. C, 2022, 10(21): 8301-8309.

25. X. R. Qiang, X. F. He, H. Nan*, K. Y. X. Chen,. Y. Lei*, D. W. Wang, C. L. Yin, X. Chen, L. X. Sun, L. J. Liu*, Local phase structure evolution and ferroelectric response in novel Bi-layered structure relaxor BaBi2Ta2O9 ceramic, Physica B: Condensed Matter , 2023, 661: 414919.

26. S. Y. Wei, L. J. Liu*, X. Chen, Y. Z. Meng, Y. Z. Luo, F. F. Han, Q. Zhang, B. L. Peng*, High dielectric tunability of middle entropy Pb(Sc0.25In0.25Nb0.25Ta0.25)O-3 thin films with (111)-preferred orientation, Journal of Alloys and Compounds, 2022, 921: 166101.

27. H. C. Sun, Y. Z. Meng, F. F Han, S. L. Tang, X. Y. Lei*, Q. Q. Ke, D. Y. Wang, Y. S. Bai, B. L. Peng*, X. Chen, X. Niu, S. G. Lu*, L. J. Liu*, Simultaneously achieved large electrocaloric effect and broad working temperature range in transparent Sm-doped 0.88Pb(Mg1/3Nb2/3)O3- 0.12PbTiO3 ceramics at low electric field, Ceramics International, 2024, 50(11): 19237-19244.

28. Z. J. Wang, Y. Z. Meng, S. L. Tang, X. Niu, H. F. Zhang*, D. Y. Wang, Y. S. Bai, B. L. Peng, X. Chen, Q. Q. Ke*, S. G. Lu*, L. J. Liu*, Simultaneous achievement of large electrocaloric effect and ultra-wide operating temperature range in BaTiO3-based lead-free ceramic. Journal of Advanced Ceramics, 2024, 13(8): 1234-1241.

29. C. L. Li, C. Huang, M. L. Zhu, S. Y. Wang, A. Q. Xu, X. Liu, X. Chen, S. G. Yan, B. L. Peng, J. M. Deng, X. Y. Lei, Y. F. Shen, L. J. Liu, Defect engineering in rare-earth-doped SrTiO3 ceramics: Route to colossal capacitance material up to X9R capacitor standard, Materials Today Communications, 2024, 39: 108680.

30. C. L. Li, C. Huang, M. L. Zhu, S. Y. Wang, A. Q. Xu, X. Liu, X. Chen, S. G. Yan, B. L. Peng, J. M. Deng, X. Y. Lei*, Y. F. Shen*, L. J Liu, High-resistance X9R-type colossal dielectric ceramics achieved by reducing grain size in Y-modified SrTiO3, Journal of the American Ceramic Society, 2024, 107(6): 4223-4231.

31. C. Huang, Y. Z. Meng, C. L. Li, D. W. Wang, X. Chen, L. X. Sun, B. L. Peng, X. Y. Lei*, Y. F. Shen*, L. J. Liu, Colossal permittivity, low dielectric loss, and good thermal stability achieved in Ta-doped BaTiO3 by B-site defect engineering, Journal of Materials Science: Materials in Electronics, 2023, 34: 2231.

32. C. L. Li, C. Huang, Y. Z. Meng, S. Y. Wang, D. W. Wang, X. Chen, L. X. Sun, B. L. Peng, X. Y. Lei*, Y. F. Shen*, L. J. LiuX9R-type SrTiO3 based ceramics with colossal dielectric permittivity and low loss derived from defect engineering and high-energy ball milling, Ceramics International, 2024, 50: 3975-3981.

33. R. Liu*, X. Chen, X. Wang, Effects of thermocapillarity on the dynamics of an exterior coating flow of a self-rewetting fluid. Int. J. Heat Mass Transfer., 2019, 136, 692-701. 

34. R. Liu, X. Chen, Z. Ding*, Absolute and convective instabilities of a film flow down a vertical fiber subjected to a radial electric field, Phys. Rev. E, 2018, 97, 013109. 

35. R. Liu, Z. Ding*, X. Chen, The effect of thermocapillarity on the dynamics of an exterior coating film flow down a fibre subject to an axial temperature gradient, Int. J. Heat Mass Transfer, 2018, 123, 718-727. 

36. X. W. Wang, Q. S. Liu*, Z. Q. Zhu, X. Chen, Experiments of transient condensation heat transfer on the heat flux senor, Microgravity Sci. Technol., 2015, 27(5), 369-376.


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