陳學鋒

陳學鋒，副研。

多年來，一直從事鐵電/反鐵電陶瓷材料的套用基礎研究工作，在材料的製備科學、結構調控、性能最佳化、極化反轉機理等方面有較豐富的積累。作為項目負責人承擔了中國科學院科技創新基金和JG配套任務；作為研究骨幹參加了國家自然科學基金委與中國工程物理研究院聯合基金(NSAF基金)“衝擊波壓縮下PZT95/5 鐵電陶瓷的電擊穿機理研究”、中國科學院能源創新工程方向性項目以及多項軍品配套任務的研究工作。其中NSAF 基金被國家自然科學基金委和中國工程物理院聯合評審委員會評定為“優秀”，相關研究成果被科技部選入了“2009 年度中國基礎研究十大新聞”30 項候選新聞。已在Appl. Phys. Lett.，J. Appl. Phys.，J. Am. Ceram. Soc.等國內外刊物發表SCI論文27篇，申請發明專利3項。

[1] 鐵電陶瓷材料（PZT）

[2] 反鐵電陶瓷材料（PZST）

[1] X. F. Chen, H. L. Zhang, F. Cao, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu，Charge-discharge properties of lead zirconate stannate titanate ceramics, J. Appl. Phys

[2] X. F. Chen, X. L. Dong, H. L. Zhang, N. B. Feng, H. C. Nie, F. Cao, G. S. Wang, Y. Gu, and H. L. He. Temperature scaling of dynamic hysteresis in Zr-rich PbZr1−xTixO3 ceramics, J. Appl. Phys.

[3] X. F. Chen, X. L. Dong, H. L. Zhang, G. Yu, F. Cao, and G. S. Wang, Polarization switching process of soft lead zirconate titanate bulk ceramics, Solid State Comm.

[4] X. F. Chen, X. L. Dong, N. B. Feng, H. C. Nie , F. Cao, G. S. Wang, Y. Gu, and H. L. He, Scaling behaviors of dynamic hysteresis in Zr-rich lead zirconate titanate bulk ceramics, Solid State Comm.

[5] X. F. Chen, X. L. Dong, H. L. Zhang, F. Cao, G. S. Wang, Y. Gu, H. L. He, and Y. S. Liu, Frequency dependence of coercive field in soft Pbbulk ceramics, J. Am. Ceram. Soc.

[6] X. F. Chen, F. Cao, H. L. Zhang, G. Yu, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu, Dynamic hysteresis and scaling behavior of energy density in antiferroelectric bulk ceramics, J. Am. Ceram. Soc.

[7] X. F. Chen, X. L. Dong, G. S. Wang, F. Cao, and Y. L. Wang, Doped Pb(Zr,Sn,Ti)O3 slim-loop ferroelectric ceramics for high-power pulse capacitors application, Ferroelectrics

[8] 陳學鋒, 李華梅, 李東傑, 董顯林, 曹菲, 脈衝電容器用細電滯回線鐵電陶瓷材料的研究， 物理學報

[9] H. L. Zhang, X. F. Chen, F. Cao, G. S. Wang, X. L. Dong, Y. Gu, and Y. S. Liu, Reversible pyroelectric response in Pbceramics near its phase transition, Appl. Phys. Lett.

[10] H. L. Zhang, X. F. Chen, F. Cao, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu, Low thermal hysteresis pyroelectric response near the ferroelectric/antiferroelectric phase transition in Pb0 ceramics, J. Appl. Phys.

[11] H. L. Zhang, X. F. Chen, F. Cao, G. S. Wang, and X. L. Dong, Charge-discharge properties of an antiferroelectric ceramics capacitor under different electric fields, J. Am. Ceram. Soc

[12] H. C. Nie, X. F. Chen, N. B. Feng, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu, Scaling behaviors of dynamic hysteresis in Zr-rich lead zirconate titanate bulk ceramics, Solid State Comm

[13] G. Yu, X. F. Chen, F. Cao, G. S. Wang, and X. L. Dong, Dynamic ferroelectric hysteresis scaling behavior in bulk ceramics, Solid State Comm

[14] H. L. Zhang, X. F. Chen, G. Yu, F. Cao, C. L. Mao, G. S. Wang, X. L. Dong, and Y. L. Wang, Investigation on the phase transition behaviors inceramics, Ferroelectrics

[15] H. C. Nie, N. B. Feng, X. F. Chen, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S .Liu, Enhanced ferroelectric properties of intragranular-porous Pbceramic fabricated with carbon nanotubes, J. Am. Ceram

[16] H. C. Nie, X. L. Dong, X. F. Chen, G. S. Wang, Y. Gu, H. L. He, and Y. S. Liu, Formation Mechanism of intragranular pores in Pb(Zr0.95Ti0.05)O3 ferroelectric ceramic, J. Am. Ceram. Soc.

[17] H. C. Nie, N. B. Feng, X. F. Chen, G. S. Wang, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu, Quantitative dependence of the properties of ferroelectric ceramics on porosity”, Mater. Res. Bull

[18] H. L. Zhang, G. S. Wang, X. F. Chen, F. Cao, X. L. Dong, Y. Gu, H. L. He, and Y. S. Liu, Mechanism of the pyroelectric response under direct-current bias in La-modified lead zirconate titanate stannate ceramics, CHIN. PHYS. LETT

[19] N. B. Feng, H. C. Nie, X. F. Chen, G. S. Wang, X. L. Dong, and H. L. He, Depoling of porous Pb0 ferroelectric ceramics under shock wave load, Cur. Appl. Phys.

[20] 余罡，董顯林，王根水，陳學鋒，曹菲，37BiScO3-63PbTiO3鐵電陶瓷極化翻轉行為研究，物理學報

[22] H. C. Nie, X. L. Dong, N. B. Feng, X. F. Chen, G. S. Wang, Y. Gu, H. L. He, and Y. S. Liu, Microgeometry effect on the properties of Pb ferroelectric ceramics, Mater. Res. Bull.

[23] 馮寧博，谷岩，劉雨生，聶恆昌，陳學鋒，王根水，賀紅亮，董顯林，衝擊波載入下孔隙率對Pb0鐵電陶瓷去極化性能的影響，物理學報

[24] G. Yu, X. L. Dong, G. S. Wang, F. Cao, X. F. Chen, H. C. Nie, Three- stage evolution of dynamic hysteresis scaling behavior bulk ceramics, J. Appl. Phys

[25] G. Yu, X. L. Dong, G. S. Wang, F. Cao, X. F. Chen, Effect of phase structure on the dynamic hysteresis scaling behavior in bulk ceramics, J. Alloys

[26] T. Zeng, X. L. Dong, H. L. He, C. H. Yao, X. F. Chen, Pressure induced ferroelectric to antiferroelectric phase transformation in porous PZT95/5 ceramics, Phys. Stat

[27] T. Zeng, G. S. Wang, X. L.Dong, H. L. He, X. F. Chen, Investigation on FRLH-FRHT phase transition and pyroelectric properties of porous Zr-rich lead zirconate titante ceramics, Mater

[1] 陳學鋒，董顯林，王根水，瞿翠鳳，曹菲, 一種鐵電陶瓷材料及其製備方法. GF專利. 授權號

[2] 董顯林，張紅玲，陳學鋒，一種鐵電－反鐵電相變熱釋電陶瓷材料、陶瓷元件及其製備方法. 中國發明專利. 申請號

[3] 曹菲，董顯林，王根，姚春華，毛朝梁，陳學鋒，一種同步測量熱釋電材料偏場下介電熱釋電性能的裝置及方法. 中國發明專利. 申請號

[1] JG配套任務，耐高衝擊壓力鐵電陶瓷材料研製

[2] 中國科學院科技創新基金，高儲能密度脈衝電容器用相變鐵電陶瓷材料研究