Items where Author is "Xu, Fangfang"
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Number of items: 6.
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LU, Zhilun, WANG, Ge, LI, Linhao, HUANG, Yuhe, FETEIRA, Antonio, BAO, Weichao, KLEPPE, Annette K., XU, Fangfang, WANG, Dawei and REANEY, Ian M.
(2021).
In situ poling X-ray diffraction studies of lead-free BiFeO3–SrTiO3 ceramics.
Materials Today Physics, 19.
[Article]
JI, Hongfen, WANG, Dawei, BAO, Weichao, LU, Zhilun, WANG, Ge, YANG, Huijing, MOSTAED, Ali, LI, Linhao, FETEIRA, Antonio, SUN, Shikuan, XU, Fangfang, LI, Dejun, MA, Chao-Jie, LIU, Shu-Yu and REANEY, Ian
(2021).
Ultrahigh energy density in short-range tilted NBT-based lead-free multilayer ceramic capacitors by nanodomain percolation.
Energy Storage Materials.
[Article]
LU, Zhilun, BAO, Weichao, WANG, Ge, SUN, Shi-Kuan, LI, Linhao, LI, Jinglei, YANG, Huijing, JI, Hongfen, FETEIRA, Antonio, LI, Dejun, XU, Fangfang, KLEPPE, Annette K, WANG, Dawei, LIU, Shi-Yu and REANEY, Ian M
(2021).
Mechanism of enhanced energy storage density in AgNbO3-based lead-free antiferroelectrics.
Nano Energy, 79, p. 105423.
[Article]
YANG, Hui-Jing, LU, Zhilun, LI, Linhao, BAO, Weichao, JI, Hongfen, LI, Jinglei, FETEIRA, Antonio, XU, Fangfang, ZHANG, Yong, SUN, Huajun, HUANG, Zhichao, LOU, Weichao, SONG, Kaixin, SUN, Shikuan, WANG, Ge, WANG, Dawei and REANEY, Ian M
(2020).
Novel BaTiO3-based, Ag/Pd compatible lead-free relaxors with superior energy storage performance.
ACS Applied Materials and Interfaces.
[Article]
LU, Zhilun, WANG, Ge, BAO, Weichao, LI, Jinglei, LI, Linhao, MOSTAED, Ali, YANG, Huijing, JI, Hongfen, LI, Dejun, ANDRE QUADROS DA CUNHA FETEIRA, Antonio, XU, Fangfang, SINCLAIR, Derek C, WANG, Dawei, LIU, Shi-Yu and REANEY, Ian M
(2020).
Superior energy density through tailored dopant strategies in multilayer ceramic capacitors.
Energy and Environmental Science.
[Article]
LU, Zhilun, WANG, Ge, BAO, Weichao, LI, Jinglei, LI, Linhao, MOSTAED, Ali, YANG, Huijing, JI, Hongfen, LI, Dejun, FETEIRA, Antonio, XU, Fangfang, SINCLAIR, Derek C., WANG, Dawei, LIU, Shi-Yu and REANEY, Ian M
(2020).
Superior energy density through tailored dopant strategies in multilayer ceramic capacitors.
Energy & Environmental Science.
[Article]