Journal of the American Chemical Society 5(2015)137.

1.Giant magnetocaloric effect in isostructural MnNiGe-CoNiGe system by establishing a Curie-temperature window  

Liu, EK (Liu, E K ); Zhang, HG (Zhang, H G ); Xu, GZ (Xu, G Z ); Zhang, XM (Zhang, X M ); Ma, RS (Ma, R S ); Wang, WH (Wang, W H ); Chen, JL (Chen, J L ); Zhang, HW (Zhang, H W ); Wu, GH (Wu, G H ); Feng, L (Feng, L ); Zhang, XX (Zhang, X X )

Applied Physics Letters, 102 (2013)122405

Journal of the American Chemical Society 5(2015)137.

2.Role of covalent hybridization in the martensitic structure and magnetic properties of shape-memory alloys: The case of Ni50Mn5+xGa35-xCu10

Li, GJ (Li, G J ); Liu, EK (Liu, E K ); Zhang, HG (Zhang, H G ); Zhang, YJ (Zhang, Y J ); Xu, GZ (Xu, G Z ); Luo, HZ (Luo, H Z ); Zhang, HW (Zhang, H W ); Wang, WH (Wang, W H ); Wu, GH (Wu, G H )

Applied Physics Letters,102(2013)062407

Journal of the American Chemical Society 5(2015)137.

3. Transverse thermoelectric effects in platinum strips on permalloy films

Wang SH, Zou LK, Cai JW, Shen BG, and Sun JR

Physical Review B, 88(2013)214304

Journal of the American Chemical Society 5(2015)137.

4. Influence of the dynamic lattice strain on the transport behavior of oxideheterojunctions

 

Wang J, Hu FX, Chen L, Zhao YY, Lu HX, Sun JR, and Shen BG

Applied Physics Letters,102(2013)022423

Journal of the American Chemical Society 5(2015)137.

5.Large reversible magnetocaloric effects in ErFeSi compound under low magnetic field change around liquid hydrogen temperature
 

Zhang H, Shen BG, Xu ZY, Shen J, Hu FX, Sun JR, Long Y

Applied Physics Letters,102(2013)092401

Journal of the American Chemical Society 5(2015)137.

6. Nucleation of reversed domain and pinning effect on domain wall motion in nanocomposite magnets

Li ZB, Shen BG, Niu E, and Sun JR

Applied Physics Letters,103(2013)062405

Journal of the American Chemical Society 5(2015)137.

7. Non-uniform magnetization reversal in nanocomposite magnets

Li ZB, Zhang M, Shen BG, and Sun JR

Applied Physics Letters,102(2013)102405

Journal of the American Chemical Society 5(2015)137.

8. Giant magnetocaloric effect in Ho12Co7 compound

 

Zheng XQ, Shao XP, Chen J, Xu ZY, Sun JR, Hu FX, and Shen BG

Applied Physics Letters,102(2013)022421

Journal of the American Chemical Society 5(2015)137.

9.Large magnetocaloric effects of RFeSi (R=Tb and Dy) compounds for magnetic refrigeration in nitrogen and natural gas liquefaction

 
 

Zhang H, Sun YJ, Niu E, Yang LH, Shen J, Hu FX, Sun JR and Shen BG

Applied Physics Letters,103(2013)202412

Journal of the American Chemical Society 5(2015)137.

10. Low-field induced giant magnetocaloric effect in TmGa compound
 

Mo ZJ, Shen J, Yan LQ, Tang CC, Lin J, Wu JF, Sun JR, Wang LC, Zheng XQ, and Shen BG

Applied Physics Letters,103(2013)052409

Journal of the American Chemical Society 5(2015)137.

11. Low-field induced giant magnetocaloric effect in TmCuAl compound
 

Mo ZJ, Shen J, Yan LQ, Wu JF, Wang LC, Lin J, Tang CC, and Shen BG

Applied Physics Letters,102(2013)192407

Journal of the American Chemical Society 5(2015)137.

12.

 Stable magnetostructural coupling with tunable magnetoresponsive effects in hexagonal ferromagnets

Liu, EK ; Wang, WH; Feng, L ; Zhu, W ; Li, GJ; Chen, JL; Zhang, HW; Wu, GH ;Jiang, CB; Xu, HB ; de Boer, F

NATURE COMMUNICATIONS , 3(2012),873