(*:通讯作者;#:第一作者)
[1]Xueting Zhao#,Zhao Zhang#,Takanori Hattori,JiantaoWang,LingliLi,Yating Jia,Wanwu Li,Jianing Xue,Xiaoyan Fan,Ruiqi Song,Jinlong Zhu,Peitao Liu,Xing-Qiu Chen,Zhidong Zhang & Bing Li*
All-temperature barocaloric effects at pressure-induced phase transitions
Nature Communications 16(1),7713
DOI:https://doi.org/10.1038/s41467-025-63068-z
[2]J Yao*,W Ren,Q Guo,Z Guan,D Zhao,J He,B Li*
Influence of K+ introduction on ultra-low-temperature magnetocaloric effects in rare-earth fluorides
Materials Today Communications,113539
DOI:https://doi.org/10.1016/j.mtcomm.2025.113539
[3]J. Qi*,H. Wang*,Q. Zhang,Y. Kawakita,K. Shibata,P. Miao,S. Torii,Y. K. Huang,D. Li,K. Singh,R. Rawat,T. Kamiyama,D. Vaknin,E. P. Gilbert,Z. D. Zhang,K. Nakajima,and B. Li*
Magnetic evolution induced by freezing of Ag+ fluctuations in an intercalated transition metal dichalcogenide
PHYSICAL REVIEW MATERIALS 9,044411 (2025)
DOI:10.1103/PhysRevMaterials.9.044411
[4]Changjiang Bao,# Zhe Zhang,# Kun Zhang,Ziqi Guan,Haoyu Wang,Yanxu Wang,Bo Yang,Liang Zuo,and Bing Li*
Low-Pressure-Driven Colossal Barocaloric Effect in an Organometallic Sandwich Compound
ACS Materials Letters, 2025,7(7),2451–2457
DOI:https://doi.org/10.1021/acsmaterialslett.5c00620
[5]ZhenYan,NaikunSun,XinguoZhao, HaoyuWang,Bing Li , Juan Cheng , Jiaohong Huang, Fuchun Chang , Yingwei Song
Novel graphite-coated La(Fe,Si)13Hy plates for magnetocaloric cooling
Journal of Magnetism and Magnetic Materials 628,173219,2025
DOI:https://doi.org/10.1016/j.jmmm.2025.173219
[6]Jiwei Yao,Weijun Ren,Qing Guo,Peng Liu,Ziqi Guan ,Changjiang Bao,Zhenquan Zhang,Dan Huang,Kun Zhang,Yanxu Wang,Dongliang Zhao,Jun He *,Bing Li*
Low-field-driven giant magnetocaloric effect in KGdF4 for sub-Kelvin cryogenic refrigeration
Materials Today Physics,2025,55,101762
DOI:https://doi.org/10.1016/j.mtphys.2025.101762
[7]Wanwu Li,Kun Zhang*,Xueting Zhao,KuoLi,YanchunLi,WenYin,BingLi*New mechanism revealed on the anomalous thermal expansion behavior of NbO2F
Scripta Materialia 258,116534,2025
DOI:https://doi.org/10.1016/j.scriptamat.2024.116534
[8]Diyi Fu,Xiu Su,Haoyu Wang,Zhenxing Li,b Qiang Zheng*,Bing Li and Juan Du*
Colossal barocaloric effect in fatty acid methyl esters
J. Mater. Chem. C,2025,13,2229
DOI: https://doi.org/ 10.1039/d4tc03483j
[9]Xuelian Wang#,Haoyu Wang#,Xueting Zhao,ZheZhang,Xiaolei Wang* and Bing Li*
Colossal barocaloric effect with a wide working temperature span in octylamine hydrochloride
J. Mater. Chem. A,13,2025,139
DOI:10.1039/d4ta06806h
[10]X. Zhao,K. Zhang*,P. Liu,Q. Guo,H. Wang,Y. Feng,B Li*.
Simultaneous optimization of entropy changes and thermal hysteresis in barocaloric compound of Mn3Pt.
Intermetallics,176: 108558,2025
DOI:https://doi.org/10.1016/j.intermet.2024.108558
[11]Pengtao Cheng,Zuhua Chen,Chengliang Zhang,Zhengming Zhang,Bing Li,and Dunhui Wang
Barocaloric effect in ferroelastic Pb3(VO4)2
Chinese Physics B, 2025,34(3),036801
DOI:10.1088/1674-1056/ada9d8
[12]Ren Qingyong*#,Wang Jianli,Li Bing,Ma Jie,Tong Xin,
Neutron scattering studies of complex lattice dynamics in energy materials
Wuli Xuebao Acta Physica Sinica, 2025,74(1),012801
DOI: 10.7498/aps.74.20241178
[13]Ziqi Guan,Changjiang Bao,Jiaqi Liu,Zhao Zhang,Haoyu Wang,Kun Zhang,Yanxu Wang,Yunlong Tang,and Bing Li*
Boosting low-pressure reversible barocaloric effect in plastic crystal KPF6 through controlled particle size
Applied Physics Letters, 2025,126(8),081904
DOI: 10.1063/5.0247473
[14]Zhenquan Zhang,Ziqi Guan,Yanxu Wang*,Jun Hu,Zhenzhuang Li,Jiwei Yao,Changjiang Bao,Kun Zhang,Bing Li*
Improved cyclic stability of elastocaloric effect in NiTi alloys via low-angle cyclic torsion
Materialia,2025,40,102422
DOI: 10.1016/j.mtla.2025.102422
[15]Xiang-Rui Liu,Ming-Yuan Zhu,Yuanwen Feng,Meng Zeng,Xiao-Ming Ma,Yu-Jie Hao,Yue Dai,Rong-HaoLuo,Yu-Peng Zhu,Kohei Yamagami,Yi Liu,Shengtao Cui,Zhe Sun,Jia-Yu Liu,Yu Huang,Zhengtai Liu,Mao Ye,Dawei Shen,Bing Li*&Chang Liu*
Observation of floating surface state in obstructed atomic insulator candidate NiP2
npj Quantum Materials (2024) 9:85
DOI:https://doi.org/10.1038/s41535-024-00699-3
[16]Yanna Chen#*,Zhao Zhang#,Zhe Zhang,Houbo Zhou,Xuexi Yan,Tao Sun,Katherine J Harmon,Shigeki Owada,Kensuke Tono,Michihiro Sugahara,Osami Sakata,Michael J Bedzyk,Chunlin Chen,Zhigao Sheng,Bing Li*,Fengxia Hu*,Yue Cao*,Baogen Shen,Zhidong Zhang.
Transient energy dissipation at the Fermi velocity in a magnetocaloric metal.
Physical Review B 110(13):134323,2024
DOI:
[17]L Zhu#,H He#,M Naeem#,X Sun,J Qi,P Liu,S Harjo,K Nakajima,B Li*,XL Wang.
Antiferromagnetism and Phase Stability of CrMnFeCoNi High-Entropy Alloy.
Phys. Rev. Lett.,133:126701. 2024
[18]K Zhang#,X Wang#,H Li,X Zhao,G Zhang,C Tan*,Y Wang*,B Li*.
Large thermal hysteresis enabled caloric batteries
Applied Energy,377:124408,2025
DOI:https://doi.org/10.1016/j.apenergy.2024.124408
[19]C Bao#,Z Guan#*,Z Li,H Wang,Y Feng,Q Guo,K Zhang,Y Wang,L Zuo,B. Li*.
Realizing overall trade-off of barocaloric performances in 1-bromoadamantane-graphene composites.
Journal of Materials Science & Technology,218: 88-94,2025
DOI:https://doi.org/10.1016/j.jmst.2024.08.019
[20]M Seredyuk,R Li,K Znovjyak,Z Zhang,FJ Valverde‐Muñoz,B Li*,M Carmen Muñoz,Quanjin Li,Bingbing Liu,Georgiy Levchenko,José Antonio Real.
Reversible Colossal Barocaloric Effect of a New FeII Molecular Complex with Low Hysteretic Spin Crossover Behavior.
Advanced Functional Materials,34(30):2315487,2024
[21]K Qian,S Lin*,Z Zhang,B Li*,Y Peng,Y Li,C Zhao*.
Highly efficient mechanocaloric cooling using colossal barocaloric plastic crystals
Cell Reports Physical Science,5(6):101981,2024
[22]H Wu,L Zhang,W Ren*,Q Zhang*,F Gao,M An,B Li*,Z Zhang.
Transition from an incommensurate spin density wave to a commensurate magnetic order in a triangular lattice compound Ho2PdAl6Ge4,
Journal of Alloys and Compounds,998:174975,2024
[23]J Liu,Z Huang,Y Xu,P Liu,K Wu,Y Hao,Y Zhang,Zhiyuan Zhang,Zehao Zhang,B. Ding*,B. Li*,B. Liu*.
Tunable and No-Invasive Printing of Transmissive Interference Colors with 2D Material Inks
Small,2402116,2024
[24]Z Zhang,T Xiong,Z Zhang,B Li,P Tong,J Shen,Q Zheng*,J Du*.
Colossal Barocaloric Effect near Ambient Temperature in 1-Dodecanol under a Low Pressure
The Journal of Physical Chemistry Letters,15 (28),7141-7146,2024
[25]Z Zhang,T Hattori,R Song,D Yu,R Mole,J Chen,L He,Z Zhang,B Li*.
Giant barocaloric effects in sodium hexafluorophosphate and hexafluoroarsenate.
Journal of Applied Physics,136 (3):035105,2024
DOI:https://doi.org/10.1063/5.0211085
[26]Q. Guo*,P. Liu,X. Zhao,W. Li,H. Wang,Z. Zhang,C. Yu,C. Bao,M.T. Abbas,R. Song,Z. Guan,K. Zhang,Y. Wang,X. Wang,B. Li*.
Magnetic properties and cryogenic magnetocaloric effects of rare earth fluorides NH4RE3F10 (RE= Tb,Dy,Ho,Er)
Physica B: Condensed Matter,691: 416291,2024
DOI:https://doi.org/10.1016/j.physb.2024.416291
[27]L. Qu#,M.T. Abbas#,K. Zhang*,Zhe. Zhang,T. Yang,Z. Zhang,P. Liu,J. Qi,Q. Guo,W. Li,X. Zhao,Y. Wang,Z. Zhang and B. Li*
Lithium oxides LiRO2 (R= Rare Earth Elements) with negative thermal expansion behavior and inverse barocaloric effect.
Journal of Materials Research and Technology,30: 9084-9092,2024
DOI:https://doi.org/10.1016/j.jmrt.2024.05.251
[28]X. Zhao,Y. Ke*,S. Xie,M. Sun,H. Jiang,B. Li* and X.L. Wang
Nanoprecipitation induced giant magnetostriction: A time-resolved small-angle neutron scattering study of the vacancy-assisted kinetics.
Journal of Materials Science & Technology,210:1-9 2025
[29]P. Liu,W. Ren,Q. Guo,Zhao. Zhang,X. Zhao,Z. Zhang,W. Dai,and B. Li*. Cryogenic magnetocaloric effects of NaLnF4 (Ln= Gd,Tb,Dy,Ho,Er,Tm,and Yb).
AIP Advances,14(5):2024
DOI:https://doi.org/10.1063/5.0209262
[30]王延绪,龚武,苏玉华,李昺*. 中子表征技术在金属结构材料研究中的应用. 金属学报,2024
[31]K. Zhang#,Zhe Zhang#,H. Pan,H. Wang,X. Zhao,J. Qi,Zhao Zhang,R. Song,C. Yu,B. Huang,X. Li,H. Chen,C. Tan,W. Yin,W. Hu,M. Wübbenhorst,J. Luo*,D. Yu*,Z. Zhang,B. Li*.
Taming heat with tiny pressure
The innovation,5(2):100577,2024
DOI:https://doi.org/10.1016/j.xinn.2024.100577
[32]C. Yu,Y. Kawakita,T. Kikuchi,M. Kofu,T. Honda,Zhe. Zhang,Zhao Zhang,Y. Liu*,S. Liu,and B. Li*. Atomic Structure and Dynamics of Organic–Inorganic Hybrid Perovskite Formamidinium Lead Iodide. The Journal of Physical Chemistry Letters,15(1):329-338,2024
DOI:https://doi.org/10.1021/acs.jpclett.3c02498
[33]Zhishuai Wang,Hui Zhang,Naikun Sun*,Hao Wang,Jie Guo,Xinguo Zhao*, Jiaohong Huang,Bing Li,Zhidong Zhang. Structure and cryogenic magnetocaloric effects of NaREO2 (RE= Er,Ho) compounds. Ceramics International 50(7):10385-10391,2024
DOI:https://doi. org/10.1016/j.ceramint.2023.12.350.
[34]Yu,S.L.*,Tian,L.,Wang,J.F.*,Zhao,X.G.,Li,D.,Mo,Z.J. and Li,B.,2024.
Magnetic and magnetocaloric effect of Er20Ho20Dy20Cu20Ni20 high-entropy metallic glass.
Chinese Physics B. 33: 057502,2024
[35] 任卫军*,安萌,高飞,罗小华,李昺,张志东,王进威.
三方Cr5Te8的磁结构和反常热膨胀.
金属学报,60(8)
[36]F Gao,W Ren*,CW Wang*,S Yano,S Calder,Q Zhang,H Wu,M An,Y Jing,B. Li*,Z. Zhang.
High-order harmonics and the reverse of the squaring up process in the triangular-lattice magnet HoPdAl4Ge2.
Physical Review B,109(13):134407,2024
DOI: 10.1103/PhysRevB.109.134407
[37]R Li,Z Zhang,YS Bibik,IA Gural'skiy,I Zatovsky,Z Liu,Q Li,B Li*,Georgiy Levchenko*,Bingbing Liu.
Colossal barocaloric effect of the spin-crossover compound {Fe (pz) 2 (BH3CN) 2} near room temperature.
Applied Physics Letters,124(12),2024
DOI:https://doi.org/10.1063/5.0195431
[38]X Su,Z Zhang,J Liu,Q Zheng*,Z Li,J Shen,B Li,J Du*.
Colossal Barocaloric Effect of Binary Fatty Acid Methyl Esters under Low Pressures near Room Temperature.
The Journal of Physical Chemistry Letters 15 (7),1962-1968,2024
[39]M Barrio,J. M. Bermúdez-García,E. V. Bogdanov,A. M. G. V. Carvalho,c Cazorla,I Delgado-Ferreiro,I. N. Flerov,J García-Ben,M Gorev,A Greco,M. A. Halcrow,Y Kawakita,B. Li,K. Li,S. Lin,P Lloveras,C Masselli,X Moya,N. A. Oliveira,L. S. Paixão,J Salgado-Beceiro,K. G. Sandeman,J Tamarit,D. Yu,M. Zeng,Z. Zhang.
Barocaloric Effects in the Solid State. 2023
[40]Z. Zhang,W. Gong,X. Zhao,J. Qi,M. Li,S. Torii,H. Chen,W. Yin,K. Ohara,Z. Zhang,Y. Kawakita*,B. Li*.
Local atomic structures and lattice dynamics of inverse colossal barocaloric ammonium thiocyanate.
Physical Review Materials,7(12):125402,2023
[41]P. Liu,D. Yuan*,C. Dong,G. Lin,E.G. Víllora,J. Qi,X. Zhao,K. Shimamura,J. Ma,J. Wang*,Z. Zhang,B. Li*.
Ultralow-field magnetocaloric materials for compact magnetic refrigeration.
NPG Asia Materials,15(1):41,2023
[42]Zhe Zhang#,K. Li#,S. Lin#,*,R. Song,D. Yu,Y. Wang,J. Wang,S. Kawaguchi,Zhao Zhang,C. Yu,X. Li,J. Chen,L. He,R. Mole,B. Yuan,Q. Ren,K. Qian,Z. Cai,J.Yu,M.o Wang,C. Zhao,X. Tong,Zhidong Zhang*,B. Li*.
Thermal batteries based on inverse barocaloric effects.
Science Advances,9(7):eadd0374,2023
DOI:10.1126/sciadv.add0374
[43]Zhao Zhang,X. Jiang,T. Hattori,X. Xu,M. Li,C. Yu,Zhe Zhang,D. Yu,R. Mole,S. Yano,J. Chen,L. He,C.W. Wang,H. Wang*,B. Li*,Zhidong Zhang.
A colossal barocaloric effect induced by the creation of a high-pressure phase.
Materials Horizons 10(3):977-982,2023
DOI:DOI: 10.1039/d2mh00905f
[44]W. Zhao,Y. Zhao,X. Tian,C. Tan*,K. Zhang*.
A deep insight into the mechanical properties of Mg-Sc alloys through DFT.
Computational Materials Science,230C:112495,2023
[45]Y Wang,W. Gong,T Kawasaki,S Harjo,K Zhang,Z Zhang,B Li*.
In situ neutron diffraction study on the deformation behavior of the plastic inorganic semiconductor Ag2S.
Applied Physics Letters 123(1):011903,2023
[46]X. Zhao,K. Zhang*,Ji Qi,P. Liu,Z. Zhang,L. Qu,Z. Zhang,B. Li*.
Low-pressure-driven barocaloric effects at colinear-to-triangular antiferromagnetic transitions in Mn3-xPt1+x.
Microstructures,3(3):2023022,2023
[47]F. Gao,W. Ren*,H. Wu,M. An,X. Zhao,B. Li*,Z. Zhang.
Magnetic properties and magnetocaloric effect of a metallic triangular lattice antiferromagnetic DyAl2Ge2 single crystal.
Journal of Solid State Chemistry 328:124347,2023
[48]J.G. Nakamura*,Y. Kawakita,H. Okabe,B. Li,K. Shimomura,T. Suemasu.
Short-range spin order in paramagnetic AgCrSe2.
Journal of Physics and Chemistry of Solids,175:111199,2023
[49]F. Gao,J. Huang,W. Ren*,H. Wu,M. An,X. Wu,L. Zhang,T. Yang,A. Wang,Y. Chai,X. Zhao,T. Yang,B. Li,Zhidong Zhang.
Magnetic and Magnetotransport Properties of the Magnetic Topological Nodal-Line Semimetal TbSbTe.
Advanced Quantum Technologies,583:171009(2023)
[50]P. Cheng,Zhao. Zhang,X. Kan,C. Zhang,Zhengming Zhang,B. Li,D. Wang*.
Low-pressure-induced large barocaloric effect in MnAs0.94Sb0.06 alloy around room temperature.
Rare Metals. 42:3977–3984(2023)
[51]F. Gao#,H. Wang#,M. Cui#,W. Ren*,C.W. Wang,S. Yano,X. Liu,Z. He,B. Li*,Z. Zhang.
Noncollinear commensurate antiferromagnetic structure in metallic Pr2PdAl7Ge4.
Physical Review B,107(21):214435 (2023)
[52]M. Li,D. Han,Z. Wang*,B. Li*,T. Yang,Z. Zhang,F. Gao,H. Wang,X. Zhao,D. Li,Z. Zhang.
Magnetic and transport properties in antiferromagnetic antiperovskite Eu3SnO.
Physical Review Materials. 7(7):074203(2023)
[53]Q. Xia,C. Tan*,T. Ma,R. Liu,X. Tian & K. Zhang*
The impact of hydrostatic pressure and uniaxial strain on the of Ni-Co-Mn-Sb Heusler alloy involving 4O martensite.
Materials Today Communications,34:105271(2023)
[54]C. Tan*,Q. Xia,X. Tian,W. Zhao,R. Liu,& K. Zhang*
Phase stability and physical property for off-stoichiometric Ni-Mn-Sb alloys including 4O phase.
Journal of Magnetism and Magnetic Materials,584:171078(2023)
[55]R. Liu,X. Wang,J. Zhu,W. Zhao,X. Tian,C. Tan* & K. Zhang*. Magnetic-Tunable Terahertz Metamaterial Absorber Based on Ni-Mn-Sn Ferromagnetic Shape Memory Alloy Films.
Metals,13(7):1162(2023)
[56]F. Gao,W. Ren*,H. Wu,M. An,X. Zhao,B. Li*,Z. Zhang. Magnetic properties and magnetocaloric effect of a metallic triangular lattice antiferromagnetic DyAl2Ge2 single crystal.
Journal of Solid State Chemistry 328:124347(2023)
[57]X. Zhao,K. Zhang*,Ji Qi,P. Liu,Z. Zhang,L. Qu,Z. Zhang,B. Li*. Low-pressure-driven barocaloric effects at colinear-to-triangular antiferromagnetic transitions in Mn3-xPt1+x.
Microstructures,3(3):2023022(2023)
[58]Y Wang,W. Gong,T Kawasaki,S Harjo,K Zhang,Z Zhang,B Li*. In situ neutron diffraction study on the deformation behavior of the plastic inorganic semiconductor Ag2S
Applied Physics Letters 123(1):011903(2023)
[59]W. Zhao,Y. Zhao,X. Tian,C. Tan*,K. Zhang*.
A deep insight into the mechanical properties of Mg-Sc alloys through DFT. Computational Materials Science,230C:112495(2023)
[60]Zhe Zhang#,K. Li#,S. Lin#,*,R. Song,D. Yu,Y. Wang,J. Wang,S. Kawaguchi,Zhao Zhang,C. Yu,X. Li,J. Chen,L. He,R. Mole,B. Yuan,Q. Ren,K. Qian,Z. Cai,J.Yu,M.o Wang,C. Zhao,X. Tong,Zhidong Zhang*,B. Li*.
Thermal batteries based on inverse barocaloric effects.
Science Advances,9(7):eadd0374(2023)
[61]P. Liu,D. Yuan*,C. Dong,G. Lin,E.G. Víllora,J. Qi,X. Zhao,K. Shimamura,J. Ma,J. Wang*,Z. Zhang,B. Li*. Ultralow-field magnetocaloric materials for compact magnetic refrigeration. NPG Asia Materials,15(1):41,2023
[62]Z. Zhang,W. Gong,X. Zhao,J. Qi,M. Li,S. Torii,H. Chen,W. Yin,K. Ohara,Z. Zhang,Y. Kawakita*,B. Li*.
Local atomic structures and lattice dynamics of inverse colossal barocaloric ammonium thiocyanate.
Physical Review Materials,7(12):125402(2023)
[63]M Barrio,J. M. Bermúdez-García,E. V. Bogdanov,A. M. G. V. Carvalho,c Cazorla,I Delgado-Ferreiro,I. N. Flerov,J García-Ben,M Gorev,A Greco,M. A. Halcrow,Y Kawakita,B. Li,K. Li,S. Lin,P Lloveras,C Masselli,X Moya,N. A. Oliveira,L. S. Paixão,J Salgado-Beceiro,K. G. Sandeman,J Tamarit,D. Yu,M. Zeng,Z. Zhang.
Barocaloric Effects in the Solid State. (2023)
[64]Jumpei G Nakamura#*,Yukinobu Kawakita,Hirotaka Okabe,Bing Li,Koichiro
Shimomura,Takashi Suemasu
Short-range spin order in paramagnetic AgCrSe2
J. Phys. Chem. Solids 175,111199(2023)
DOI:https://doi.org/10.1016/j.jpcs.2022.111199
[65]Zhao Zhang,Xiaoming Jiang,Takanori Hattori,Xiong Xu,Min Li,Chenyang Yu,,Zhe Zhang,Dehong Yu,Richard Mole,Shin-ichiro Yano,Jie Chen,Lunhua He,
Chin-Wei Wang,Hui Wang*,Bing Li*,Zhidong Zhang
A colossal barocaloric effect induced by the creation of a high-pressure phase
Mater. Horiz. (2023)
DOI:https://doi.org/10.1039/D2MH00905F
[66]Youan Xu,Baofu Ding*,Ziyang Huang,Lixin Dai,Peng Liu,Bing Li,Wei Cai*,
Hui-Ming Cheng,Bilu Liu*
Deep ultraviolet hydrogel based on 2D cobalt-doped titanate
Light: Science & Applications12,1 (2023)
DOI:https://10.1038/s41377-022-00991-6
[67]Dan Han#,Ji Qi#,Yingkai Huang,Zhenhua Wang*,Bing Li*,Zhidong Zhang
Anisotropic magnetoelectric transport in AgCrSe2 single crystals
Applied Physics Letters 121,18,182405(2022)
DOI:https://10.1063/5.0120748
[68]Fei Gao#,Jieming Sheng,Weijun Ren*,Qiang Zhang,Xiaohua Luo,Ji Qi,Mengru Cong,Bing Li,Liusuo Wu,Zhidong Zhang
Incommensurate spin density wave and magnetocaloric effect in the metallic triangular lattice
Phys. Rev. B 106,13,134426(2022)
DOI:https://doi.org/10.1103/PhysRevB.106.134426
[69]Chunxiang Shi#,Weijin Hu*,Ji Li,Bing Li,Weijun Ren,Zhidong Zhang
Large magnetocaloric effect in antiferromagnetic ternary carbide Dy2Cr2C3
around liquid hydrogen temperature
Journal of Magnetism and Magnetic Materials 555,169339(2022)
DOI:https://doi.org/10.1016/j.jmmm.2022.169339
[70]Fei Gao#,Jianqi Huang,Weijun Ren*,Mingze Li,Han Wang,Teng Yang,Bing Li,Zhidong Zhang
Magnetic and transport properties of the topological compound DySbTe
Phys. Rev. B 105,21,214434(2022)
DOI:https://10.1103/PhysRevB.105.214434
[71]Ultrasensitive barocaloric material for room-temperature solid-state refrigeration
Qingyong Ren#,Ji Qi#,Dehong Yu,Zhe Zhang,Ruiqi Song,Wenli Song,Bao Yuan,Tianhao Wang,Weijun Ren,Zhidong Zhang,Xin Tong*,Bing Li*
Nat. Commun. 13,2293 (2022)
DOI:https://10.1038/s41467-022-29997-9
[72]Ziyang Huang#,Tianshu Lan,Lixin Dai,Xueting Zhao,Zhongyue Wang,Zehao Zhang,Bing Li,Jialiang Li,Jingao Liu,Baofu Ding*,Andre K. Geim,Hui-Ming Cheng and Bilu Liu*
2D Functional Minerals as Sustainable Materials for Magneto-Optics
Adv. Mater. 34,16,2270124(2022)
DOI:https://doi.org/10.1002/adma.202270124
[73]High-energy x-ray diffraction study on phase transition asymmetry of plastic crystal neopentylglycol
Zhe Zhang#,Yan-Na Chen,Ji Qi,Zhao Zhang,Koji Ohara,Osami Sakata,Zhi-Dong Zhang*,Bing Li*
Chinese Physics B 31,3,036802(2022)
DOI: https://doi.org/10.1088/1674-1056/ac140c
[74]Two Pressure Cells for Quasielastic and Inelastic Neutron Scatterings
Bao Yuan,Richard Mole,Chin-Wei Wang,Amy Shumack,Rachel White,Bing Li,Xin Tong,Dehong Yu
EPJ Web of Conferences 272,02009(2022)
DOI: https://doi.org/10.1051/epjconf/202227202009
[75]Simin Wang,Hongzhao Fan,Zhe Zhang,Liang Sun,Jialu Chen,Nuo Yang,Yanguang Zhou*,Bing Li * and Liang Dai *
Resonant phonon modes induced by molecular rotations in α-pentaerythritol crystals
J. Mater. Chem. C 10,39,14431-14438 (2022)
DOI: https://doi.org/10.1039/D2TC02878F.
[76]宋睿琪,张志东,李昺
压卡制冷材料及技术的现状与展望
制冷学报,2022年,43卷,4期,35页
DOI: https://10.3969/j.issn.0253-4339.2022.04.035.
[77]Kun Zhang,Ruiqi Song,Ji Qi,Zhe Zhang,Zhao Zhang,Chenyang Yu,Kuo Li,Zhidong Zhang,Bing Li*
Colossal Barocaloric Effect in Carboranes as a Performance Tradeoff
Advanced Functional Materials 2112622 (2022)
DOI: https://doi.org/10.1002/adfm.202112622
[78]Jianyan Yang,Weijun Ren,Xinguo Zhao,Tatsuya Kikuchi,Ping Miao*,Kenji Nakajima,Bing Li*,Zhidong Zhang
Mictomagnetism and suppressed thermal conduction of the prototype high-entropy alloy CrMnFeCoNi
Journal of Materials Science & Technology 99,55-60 (2022).
DOI: https://doi.org/10.1016/j.jmst.2021.04.077
[79]Yafei Kuang#,Xiaowen Hao,Zhao Zhang,Bo Yang*,Bing Li*,Zongbin Li,Haile Yan,Yudong Zhang,Claude Esling,Xiang Zhao,Liang Zuo*
Barocaloric and magnetocaloric effects in isostructurally alloyed (MnCoGe)-(CuCoSn) systems
Journal of Magnetism and Magnetic Materials 543,168639(2022)
DOI: https://doi.org/10.1016/j.jmmm.2021.168639
[80]Chenyang Yu,Jianqi Huang,Ji Qi,Peng Liu,Da Li,Teng Yang*,Zhidong Zhang,Bing Li*
Giant barocaloric effects in formamidinium iodide
APL Materials 10,011109 (2022)
DOI: https://doi.org/10.1063/5.0073381
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Giant reversible barocaloric effect with low hysteresis in antiperovskite PdNMn3 compound
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Magnetocaloric effect of an antiferromagnetic ErAl2Ge2 single crystal
Journal of Magnetism and Magnetic Materials 533,168014(2021)
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[83]Intense ferromagnetic fluctuations preceding magnetoelastic first-order transitions in giant magnetocaloric LaFe13?xSix
Zhao Zhang#,Houbo Zhou,Richard Mole,Chenyang Yu,Zhe Zhang,Xinguo Zhao,Weijun Ren,Dehong Yu*,Bing Li*,Fengxia Hu*,Baogen Shen,and Zhidong Zhang
Physical Review Materials 5,L071401 (2021)
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[84]Simin Wang,Liang Sun,Bing Li,Liang Dai*
Atomistic Insights into the Anisotropic and Low Thermal Conductivity in Neopentyl Glycol Crystals: A Molecular Dynamics Study
The Journal of Physical Chemistry C 125,15853-15862(2021)
DOI: https://pubs.acs.org/doi/10.1021/acs.jpcc.1c04035
[85]Yafei Kuang,Ji Qi,Haijian Xu,Bo Yang*,Bing Li,Zongbin Li,Haile Yan,Yudong Zhang,Claude Esling,Xiang Zhao,Liang Zuo*
Low-pressure-induced large reversible barocaloric effect near room temperature in (MnNiGe)-(FeCoGe) alloys
Scripta Materialia 200,113908 (2021)
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[86]Zhe Zhang,Yanna Chen,Ji Qi,Zhao Zhang,Koji Ohara,Osami Sakata,Zhidong Zhang*,Bing Li*
High-energy X-ray diffraction study on phase transition asymmetry of plastic crystal neopentylglycol
Chinese Physics B,online (2021).
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[87]Haochen Ye,Yucheng Liu,Yunxia Zhang,Zhuo Xu,Jiaxue You*,Lili Gao,Bing Li,Zhou Yang,Bobo Zhang,Shengzhong Frank Liu*
Inner Strain Regulation in Perovskite Single Crystals through Fine-Tuned Halide Composition
Crystal Growth & Design 21,1741-1750 (2021)
DOI: https://doi.org/10.1021/acs.cgd.0c01631
[88]Hailong Pan,Jiangshui Luo*,Bing Li,Michael Wübbenhorst
Phase-dependent dielectric properties and proton conduction of neopentyl glycol
RSC Advances 11,23228-23234 (2021)
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[89]李昺,张志东
磁卡与压卡材料的中子散射
《中国科学:物理学、力学、天文学》2021年,第6期,44-52页
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[90]J Qi,B Dong,Zhe Zhang,Zhao Zhang,Y Chen,Q Zhang,S Danilkin,X Chen,Jiaming He,L Fu,X Jiang,G Chai,S Hiroi,K Ohara,Zongteng Zhang,W Ren,T Yang,J Zhou,S Osami,Jiaqing He,D Yu*,Bing Li*,Z D Zhang
Dimer rattling mode induced low thermal conductivity in an excellent acoustic conductor
Nature Communications 11,5197(2020)
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[91]Kai Liu,Hai Zeng,Ji Qi,Xiaohua Luo,Xuanwei Zhao,Xianming Zheng,Yuan Yuan,Changcai Chen,Shengcan Ma*,Ren Xie,Bing Li,Zhenchen Zhong
Microstructure and giant baro-caloric effect induced by low pressure in Heusler Co51Fe1V33Ga15 alloy undergoing martensitic transformation
Journal of Materials Science & Technology 73,76-82(2020)
DOI: https://doi.org/10.1016/j.jmst.2020.09.022
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Understanding colossal barocaloric effects in plastic crystals
Nature Communications 11,4190 (2020)
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[93]Jie Guo,Xinguo Zhao*,Seiko Ohira-Kawamura,Langsheng Ling,Junfeng Wang,Lunhua He,Kenji Nakajima,Bing Li*,Zhidong Zhang
Magnetic-field and composition tuned antiferromagnetic instability in the quantum spin-liquid candidate NaYbO2
Physical Review Materials 4,064410 (2020)
DOI: https://doi.org/10.1103/PhysRevMaterials.4.064410
[94]Chao Zhang,Quanpei Du,Wenru Li,Dong Su,Meng Shen,Xiaoshi Qian,Bing Li,Haibo Zhang,Shenglin Jiang*,Guangzu Zhang*
High electrocaloric effect in barium titanate-sodium niobate ceramics with core-shell grain assembly
Journal of Materiomics 6,3 (2020)
DOI: https://doi.org/10.1016/j.jmat.2020.05.002
[95]Zhiyang Wei,Yi Shen,Zhe Zhang,Jianping Guo,Bing Li*,Enke Liu,Zhidong Zhang,Jian Liu*
Low-pressure-induced giant barocaloric effect in an all-d-metal Heusler Ni35.5Co14.5Mn35Ti15 magnetic shape memory alloy
APL Materials 8,051101 (2020)
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[96]Yong Li,Desheng Pan,Yangtao Zhou,Qifeng Kuang,Chinwei Wang,Bing Li,Bingsen Zhang,Jihoon Park,Da Li*,Chuljin Choi* and Zhidong Zhang
Enhanced magnetic properties and thermal stability of highly ordered ε-Fe3N1+x (?0.12 ≤ x ≤ ?0.01) nanoparticles
Nanoscale 12,10834 (2020)
DOI: https://doi.org/10.1039/D0NR02424D
[97]Jianchao Lin,Peng Tong,Xuekai Zhang,Zichen Wang,Zhao Zhang,Bing Li*,Guohua Zhong*,Jie Chen,Yaoda Wu,Huaile Lu,Lunhua He,Bo Bai,Langsheng Ling,Wenhai Song,Zhidong Zhang,Yuping Sun
Giant room-temperature barocaloric effect at the electronic phase transition in Ni1-xFexS
Materials Horizons 7,2690-2695 (2020)
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Colossal barocaloric effects in plastic crystals
Nature 567,506(2019).
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[99]D. Pan,Y. Li,Z. Han,B. Li,C.W Wang,T.Yang,D. Li,C. Choi,and Z.D. Zhang
Organic-inorganic hybrid (β-Fe3Se4)4[Fe(teta)1.5] (teta=triethylenetetramine) nanoplates: solution synthesis and magnetic properties
Chemistry of Materials 30,8975 (2018)
DOI: https://doi.org/10.1021/acs.chemmater.8b04814
[100]B. Li*#,H. Wang*,Y. Kawakita,Q. Zhang,M. Feygenson,H. L. Yu,D. Wu,K. Ohara,T. Kikuchi,K. Shibata,T. Yamada,X. K. Ning,Y. Chen,J. Q. He*,D. Vaknin,R. Q. Wu,K. Nakajima and M. G. Kanatzidis*
Liquid-like thermal conduction in intercalated layered crystalline solids
Nature Materials 17,226 (2018).
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[101]C. Wang,Y. Liu,S. F. Liu,B. Li* and Y. Chen*
Giant phonon tuning effect via pressure-manipulated polar rotation in perovskite MAPbI3
The Journal of Physical Chemistry Letters 9,3029 (2018).
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[102]B. Li*#,Y. Kawakita,Y. Liu,M. Wang,M. Matsuura,K. Shibata,S. Kawamura,T. Yamada,S. Lin,K. Nakajima and S. Liu*
Polar rotor scattering as atomic-level origin of low mobility and thermal conductivity of perovskite CH3NH3PbI3
Nature Communication 8,16086 (2017).
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[103]B. Li#,D. Louca*,J. Niedziela,Z. Li,L. Zhang,J.-S. Zhou,and J. B. Goodenough
Lattice and magnetic dynamics in perovskite Y1?xLaxTiO3
Physical Review B 94,224301 (2016).
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Colossal negative thermal expansion induced by magnetic phase competition on frustrated lattices in Laves phase compound (Hf,Ta)Fe2
Physical Review B 93,224405 (2016).
DOI: https://doi.org/10.1103/PhysRevB.93.224405
[105]B. Li,D. Louca*,M. Feygenson,C. M. Brown,J. R. D. Copley,and K. Iida
Local Jahn-Teller distortions and orbital ordering in Ba3Cu1+xSb2?xO9 investigated by neutron scattering
Physical Review B 93,014423 (2016).
DOI: https://doi.org/10.1103/PhysRevB.93.014423
[106]B. Li,J. Woods,J. Siewenie,H.-Y. Hah,J. A. Johnson,C. E. Johnson,and D. Louca*
The magnetic and crystal structures of Sr1?δFeO2?xFx,a new oxyfluoride
Chemical Communications 52,2386 (2016).
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Insulating pockets in metallic LaNiO3
Advanced Electronic Materials 2,1500261 (2016).
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Revisiting AgCrSe2 as a promising thermoelectric material
Physical Chemistry Chemical Physics 18,23872 (2016).
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[109]A. Athauda,J. Yang,B. Li,Y. Mizuguchi,S.-H. Lee,D. Louca*
The Crystal Structure of Superconducting LaO1-xFxBiS2
Journal of Superconductivity and Novel Magnetism28,1255 (2015).
DOI: https://doi.org/10.1007/s10948-014-2918-0
[110]B. Li#,D. Louca*,B. Hu,J. S. Zhou,J. L. Niedziela,and J. B. Goodenough
Dynamic distortions in YTiO3 Ferromagnet
Journal of the Physical Society of Japan 83,084601 (2014).
DOI: https://doi.org/10.7566/JPSJ.83.084601
[111]B. Li*#,Y. N. Chen,H. Wang,W. Liang,G. Y. Liu,W. J. Ren,C. F. Li,Z. Q. Liu,G. H. Rao,C. Q. Jin and Z. D. Zhang*
Unveiling the electronic origin of anion order in CrO2-xFx
Chemical Communicationshem 50,799 (2014).
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Tunable magnetic transition and reversible magnetocaloric effects at room temperature in transition-metal-oxyfluorides CrO2-xFx
Journal of Alloys and Compounds 596,69 (2014).
DOI: https://doi.org/10.1016/j.jallcom.2014.01.198
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The hybrid lattice of KxFe2-ySe2: where superconductivity and magnetism coexist
Scientific Reports 3,2047 (2013).
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Coupled caloric effects in multiferroics
Physics Letters A 377,567 (2013).
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[115]Y. Wang,W. J. Ren*,Y. H. Yang,B. Li,J. Li,and Z. D. Zhang
Magnetostrictive properties of the heavy-rare-earth-free Sm1-xNdxFe2 compounds
Journal of Applied Physics 113,143903 (2013).
DOI: https://doi.org/10.1063/1.4801340
[116]H. Meng#*,B. Li,Z. Han,Y. Q. Zhang,X. W. Wang,and Z. D. Zhang
Reversible magnetocaloric effect and refrigeration capacity enhanced by two successive magnetic transitions in DyB2
Science China Technological Sciences 55,501 (2012).
DOI: https://doi.org/10.1007/s11431-011-4684-6
[117]B. Li,W. Liang,W. J Ren*,W. J. Hu,C. Q. Jin and Z. D. Zhang
Normal or inverse magnetocaloric effects at the transition between antiferromagnetism and ferromagnetism
Applied Physics Letters 100,242408 (2012).
DOI: https://doi.org/10.1063/1.4729122
[118]B. Li*#,H. Meng,W. J. Ren and Z. D. Zhang.
Intrinsic magnetocaloric effect at a first-order magnetic transition
Europhysics Letters 97,57002 (2012).
DOI: https://doi.org/10.1209/0295-5075/97/57002
[119]B. Li*#,W. J. Ren,X. W. Wang,H. Meng,X. G. Liu,Z. J. Wang,and Z. D. Zhang
Intrinsic electrocaloric effects in ferroelectric poly(vinylidene fluoride-trifluoroethylene) copolymers: Roles of order of phase transition and stresses
Applied Physics Letters 96,102903 (2010).
DOI: https://doi.org/10.1063/1.3353989
[120]X. G. Liu*#,S. W. Or,B. Li,Z. Q. Ou,L. Zhang,Q. Zhang,D. Y. Geng,F. Yang,D. Li,E. Brück,and Z. D. Zhang
Magnetic properties of Dy nanoparticles and Al2O3-coated Dy nanocapsules
Journal of Nanoparticle Research 13,1163 (2011).
DOI: https://doi.org/10.1007/s11051-010-0108-y
[121]X. G. Liu*#,Z. Q. Ou,D. Y. Geng,Z. Han,H. Wang,B. Li,E. Brück,and Z. D. Zhang
Enhanced absorption bandwidth in carbon-coated supermalloy FeNiMo nanocapsules for a thin absorption thickness
Journal of Alloys and Compounds506,826 (2010).
DOI: https://doi.org/10.1016/j.jallcom.2010.07.085
[122]Z. G. Xie*#,B. Li,J. Li,D. Y. Geng,and Z. D Zhang
Tunable magnetocaloric effect around hydrogen liquefaction temperature in Tb1-xYxCoC2 compounds
Physica B: Condensed Matter 405,2133 (2010).
DOI: https://doi.org/10.1016/j.physb.2010.01.120
[123]J. L. Yang#,W. J. Ren*,D. Li,W. J. Hu,B. Li,Z. D. Zhang
Superconductivity modulated by internal pressure in Ce1-xGdxFeAsO0.84F0.16 compounds
Superconductor Science and Technology23,025003 (2010).
DOI: https://doi.org/10.1088/0953-2048/23/2/025003
[124]W. B. Cui*#,W. Liu,Q. Zhang,B. Li,X. H. Liu,F. Yang,X. G. Zhao,and Z. D. Zhang
Carbon-doping effects on the metamagnetic transition and magnetocaloric effect in MnAsCx
Journal of Magnetism and Magnetic Materials 322,2223 (2010).
DOI: https://doi.org/10.1016/j.jmmm.2010.02.014
[125]X. L. Wang,D. Li*,C. X. Shi,B. Li,T. Y. Cui,and Z. D. Zhang
Effect of the calcination temperature on the magnetic and transport properties of rhombohedral LaMnO3+delta compounds
Physica B: Condensed Matter 405,1362 (2010).
DOI: https://doi.org/10.1016/j.physb.2009.12.001
[126]X. G. Liu*#,https://doi.org/ D. Y. Geng,J. J. Jiang,B. Li,S. Ma,D. Li,W. Liu,and Z. D. Zhang
Magnetic properties and large cryogenic low-field magnetocaloric effect of HoCo2 nanoparticles without core/shell structure
Journal of Nanoparticle Research 12,1167 (2010).
DOI: https://doi.org/10.1007/s11051-009-9717-8
[127]F. Yang,W. Liu*,X. K. Lv,B. Li,S. Q. Li,J. Li,and Z. D. Zhang
Structural,magnetic properties and magnetostriction studies of Sm1-xNdxFe1.55 alloys
Journal of Magnetism and Magnetic Materials 322,2095 (2010).
DOI: https://doi.org/10.1016/j.jmmm.2010.01.039
[128]W. J. Feng*#,Q. Zhang,L. Q. Zhang,B. Li,J. Du,Y. F. Deng,and Z. D. Zhang
Large reversible high-temperature magnetocaloric effect in Ni50-xMn38+xSb12 alloys
Solid State Communications 150,949 (2010).
DOI: https://doi.org/10.1016/j.ssc.2010.02.022
[129]B. Li,W. J. Ren*,Q. Zhang,X. K. Lv,X. G. Liu,H. Meng,J. Li,D. Li,and Z. D. Zhang
Magnetostructural coupling and magnetocaloric effect in Ni-Mn-In
Applied Physics Letters 95,172506 (2009).
DOI: https://doi.org/10.1063/1.3257381
[130]X. G. Liu*#,B. Li,D. Y. Geng,W. B. Cui,F. Yang,Z. G. Xie,D. J. Kang,and Z. D. Zhang
(Fe,Ni)/C nanocapsules for electromagnetic-wave-absorber in the whole Ku-band
Carbon 47,470 (2009).
DOI: https://doi.org/10.1016/j.carbon.2008.10.028
[131]Q. Zhang*#,B. Li,X. G. Zhao,and Z. D. Zhang
Magnetic and reversible magnetocaloric properties of (Gd1-xDyx)4Co3 ferrimagnets
Journal of Applied Physics 105,053902 (2009).
DOI: https://doi.org/10.1063/1.3075627
[132]X. G. Liu*#,B. Li,D. Y. Geng,C. X. Shi,F. Yang,D. J. Kang,and Z. D. Zhang
Formation and large cryogenic magnetocaloric effect of HoAl2/Al2O3 nanocapsules
Journal of Physics D: Applied Physics42,045008 (2009).
DOI: https://doi.org/10.1088/0022-3727/42/4/045008
[133]Q. Zhang*#,J. H. Choi,B. Li,W. J. Hu,and Z. D. Zhang
Magnetocaloric effect in Ho2In over a wide temperature range
Applied Physics Letters 94,182501 (2009).
DOI: https://doi.org/10.1063/1.3130090
[134]W. J. Feng*#,J. Du,B. Li,W. J. Hu,Z. D. Zhang,X. H. Li,and Y. F. Deng
Large low-field inverse magnetocaloric effect in Ni50-xMn38+xSb12 alloys
Journal of Physics D: Applied Physics 42,125003 (2009).
DOI: https://doi.org/10.1088/0022-3727/42/12/125003
[135]W. J. Ren*#,J. L. Yang,B. Li,D. Li,X. G. Zhao,and Z. D. Zhang
Magnetostriction and magnetic anisotropy of (Sm,Ce)Fe2 compounds
Physica B: Condensed. Matter 404,3410 (2009).
DOI: https://doi.org/10.1016/j.physb.2009.05.023
[136]B. Li*#,J. Du,W. J. Ren,W. J. Hu,Q. Zhang,D. Li,and Z. D. Zhang
Large reversible magnetocaloric effect in Tb3Co compound
Applied Physics Letters 92,242504 (2008).
DOI: https://doi.org/10.1063/1.2939220
[137]B. Li*#,W. J. Hu,X. G. Liu,F. Yang,W. J. Ren,X. G. Zhao,and Z. D. Zhang
Large reversible magnetocaloric effect in TbCoC2 in low magnetic field
Applied Physics Letters 92,242508 (2008).
DOI: https://doi.org/10.1063/1.2948900
[138]W. J. Hu*#,J. Du,B. Li,Q. Zhang,and Z. D. Zhang
Giant magnetocaloric effect in the Ising antiferromagnet DySb
Applied Physics Letters 92,192505 (2008).
DOI: https://doi.org/10.1063/1.2928233
[139]X. G. Liu*#,D. Y. Geng,J. Du,S. Ma,B. Li,P. J. Shang,and Z. D. Zhang
The large crygenic magnetocaloric effect of TbAl2 nanocapules
Scripta Materialia 59,340 (2008).
DOI: https://doi.org/10.1016/j.scriptamat.2008.04.005
[140]X. G. Liu*#,D. Y. Geng,P. J. Shang,H. Meng,F. Yang,B. Li,D. J. Kang,and Z. D. Zhang
Fluorescence and microwave-absorption properties of multi-functional ZnO-coated alpha-Fe solid-solution nanocapsules
Journal of Physics D: Applied Physics 41,175006(2008).
DOI: https://doi.org/10.1088/0022-3727/41/17/175006
[141]X. G. Liu*#,D. Y. Geng,H. Meng,B. Li,Q. Zhang,D. J. Kang,and Z. D. Zhang
Electromagnetic-wave-absorption properties of wire-like structures self-assembled by FeCo nanocapsules
Journal of Physics D: Applied Physics 41,175001 (2008).
DOI: https://doi.org/10.1088/0022-3727/41/17/175001
[142]X. K. Lv#,W. Liu*,W. J. Ren,B. Li,X. G. Zhao,D. Li,and Z. D. Zhang
Structure,magnetic properties and magnetostriction of laves compounds Nd1-xPrx(Fe0.35Co0.55B0.1)2
Journal of Magnetism and Magnetic Materials 320,2373 (2008).
DOI: https://doi.org/10.1016/j.jmmm.2008.05.018
