Follow
Xinyu Li
Title
Cited by
Cited by
Year
Giant Electrocaloric Response Over A Broad Temperature Range in Modified BaTiO3 Ceramics
XS Qian, HJ Ye, YT Zhang, H Gu, X Li, CA Randall, QM Zhang
Advanced Functional Materials 24 (9), 1300-1305, 2014
4242014
Organic and inorganic relaxor ferroelectrics with giant electrocaloric effect
SG Lu, B Rožič, QM Zhang, Z Kutnjak, X Li, E Furman, LJ Gorny, M Lin, ...
Applied Physics Letters 97 (16), 2010
3802010
Novel polymer ferroelectric behavior via crystal isomorphism and the nanoconfinement effect
L Yang, X Li, E Allahyarov, PL Taylor, QM Zhang, L Zhu
Polymer 54 (7), 1709-1728, 2013
3122013
Pyroelectric and electrocaloric materials
X Li, SG Lu, XZ Chen, H Gu, X Qian, QM Zhang
Journal of Materials Chemistry C 1 (1), 23-37, 2013
2612013
Comparison of directly and indirectly measured electrocaloric effect in relaxor ferroelectric polymers
SG Lu, B Rožič, QM Zhang, Z Kutnjak, R Pirc, M Lin, X Li, L Gorny
Applied Physics Letters 97 (20), 2010
2592010
A chip scale electrocaloric effect based cooling device
H Gu, X Qian, X Li, B Craven, W Zhu, A Cheng, SC Yao, QM Zhang
Applied Physics Letters 102, 122904, 2013
2222013
Tunable temperature dependence of electrocaloric effect in ferroelectric relaxor poly (vinylidene fluoride-trifluoroethylene-chlorofluoroethylene terpolymer
X Li, X Qian, SG Lu, J Cheng, Z Fang, QM Zhang
Applied Physics Letters 99 (5), 2011
1732011
Giant electrocaloric effect in ferroelectric poly (vinylidenefluoride-trifluoroethylene) copolymers near a first-order ferroelectric transition
X Li, XS Qian, H Gu, X Chen, SG Lu, M Lin, F Bateman, QM Zhang
Applied Physics Letters 101 (13), 2012
1142012
Maximizing the number of coexisting phases near invariant critical points for giant electrocaloric and electromechanical responses in ferroelectrics
ZK Liu, X Li, QM Zhang
Applied Physics Letters 101 (8), 2012
1042012
A polymer blend approach to tailor the ferroelectric responses in P (VDF–TrFE) based copolymers
XZ Chen, X Li, XS Qian, S Wu, SG Lu, HM Gu, M Lin, QD Shen, QM Zhang
Polymer 54 (9), 2373-2381, 2013
782013
Simulation of chip-size electrocaloric refrigerator with high cooling-power density
H Gu, B Craven, X Qian, X Li, A Cheng, QM Zhang
Applied Physics Letters 102 (11), 2013
702013
Enhanced electrocaloric effect in poly (vinylidene fluoride-trifluoroethylene)-based terpolymer/copolymer blends
X Chen, X Qian, X Li, SG Lu, H Gu, M Lin, Q Shen, QM Zhang
Applied Physics Letters 100 (22), 2012
532012
Large electrocaloric effect in a dielectric liquid possessing a large dielectric anisotropy near the isotropic–nematic transition
XS Qian, SG Lu, X Li, H Gu, LC Chien, Q Zhang
Advanced Functional Materials 23 (22), 2894-2898, 2013
462013
A nanocomposite approach to tailor electrocaloric effect in ferroelectric polymer
XZ Chen, X Li, XS Qian, M Lin, S Wu, QD Shen, QM Zhang
Polymer 54 (20), 5299-5302, 2013
402013
Refrigeration devices based on polar-polymers
Q Zhang, SG Lu, X Li, L Gorny, J Cheng
US Patent App. 12/844,335, 2011
212011
Tailoring electrically induced properties by stretching relaxor polymer films
V Bobnar, X Li, G Casar, A Eršte, S Glinšek, X Qian, QM Zhang
Journal of Applied Physics 111 (8), 2012
202012
Electrocaloric effect and dipolar entropy change in ferroelectric polymers
R Pirc, B Rožič, Z Kutnjak, R Blinc, X Li, QM Zhang
Ferroelectrics 426 (1), 38-44, 2012
142012
Influencing dielectric properties of relaxor polymer system by blending vinylidene fluoride–trifluoroethylene-based terpolymer with a ferroelectric copolymer
G Casar, X Li, QM Zhang, V Bobnar
Journal of Applied Physics 115 (10), 2014
112014
Electrocaloric and electrostrictive effect of polar P (VDF–TrFE–CFE) terpolymers
SG Lu, H Xiong, A Wei, X Li, Q Zhang
Journal of Advanced Dielectrics 3 (02), 1350015, 2013
102013
Electrocaloric Materials: Giant Electrocaloric Response Over A Broad Temperature Range in Modified BaTiO3 Ceramics (Adv. Funct. Mater. 9/2014)
XS Qian, HJ Ye, YT Zhang, H Gu, X Li, CA Randall, QM Zhang
Advanced Functional Materials 24 (9), 1336-1336, 2014
92014
The system can't perform the operation now. Try again later.
Articles 1–20