Cite
Remarkably enhanced dielectric stability and energy storage properties in BNT—BST relaxor ceramics by A-site defect engineering for pulsed power applications
MLA
Zhumei Wang, et al. “Remarkably Enhanced Dielectric Stability and Energy Storage Properties in BNT—BST Relaxor Ceramics by A-Site Defect Engineering for Pulsed Power Applications.” Journal of Advanced Ceramics, vol. 11, no. 2, Jan. 2022, pp. 283–94. EBSCOhost, widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi.dedup.....4b49602d51f133e163d251fdd08344e9&authtype=sso&custid=ns315887.
APA
Zhumei Wang, Fusheng Song, Wen-Qin Luo, Zong-Yang Shen, Yueming Li, Dongxu Li, Xiaojun Zeng, Zhipeng Li, & Xingcai Wang. (2022). Remarkably enhanced dielectric stability and energy storage properties in BNT—BST relaxor ceramics by A-site defect engineering for pulsed power applications. Journal of Advanced Ceramics, 11(2), 283–294.
Chicago
Zhumei Wang, Fusheng Song, Wen-Qin Luo, Zong-Yang Shen, Yueming Li, Dongxu Li, Xiaojun Zeng, Zhipeng Li, and Xingcai Wang. 2022. “Remarkably Enhanced Dielectric Stability and Energy Storage Properties in BNT—BST Relaxor Ceramics by A-Site Defect Engineering for Pulsed Power Applications.” Journal of Advanced Ceramics 11 (2): 283–94. http://widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi.dedup.....4b49602d51f133e163d251fdd08344e9&authtype=sso&custid=ns315887.