General

Shen jun, female, senior researcher, doctorial tutor in Technical Institute of Physics and Chemistry, Chinese Academy of Sciences



Research Areas

Magnetocaloric effect and Magnetic refrigerator prototype.

Cooling technology in researching high power semiconductor diode lasers. 

Multi-component cryogenic mixtures refrigeration and cryogenic technology.

Education

2004.09-2009.01 Ph.D., in materials physics and chemistry, Hebei university of technology

2001.09-2004.06 M.S., in materials physics and chemistry, Hebei university of technology

1997.09-2001.07 B.S., in metallic materials engineering, Wuhan university of science and technology


Experience

2014.01-2014.03  professor of  the United States at the university of Illinois at urbana-champaign  

2009.04-now  research assistant, associate research fellow, senior researcher of  Technical Institute of Physics and Chemistry, Chinese Academy of Sciences  


Publications

Over 112 SCI papers with citations over 899and H index of 18, including Adv. Mater., Appl. Phys. Lett., etc.

 23 national invention patents and 2 international invention patents.



Papers
(1) Design and improvements of a room-temperature magnetic refrigerator combined with Stirling cycle refrigeration effect, Int. J. Refrigeration, (2016), 2016, 
(2) A giant reversible magnetocaloric effect in Ho2PdSi3 compound, J. Alloys Compd, 618 (2015), 512-515, 2015, 
(3) Magnetic property and magnetocaloric effect in TmCoAl compound, Intermetallics 56 (2015), 75-78, 2015, 
(4) Magnetic properties and magnetocaloric effect in the R2PdSi3 (R = Gd, Dy and Er) compounds, J. Alloys Compd,626 (2015), 145-149, 2015, 
(5) Magnetic properties and magnetocaloric effects in the HoPd intermetallic, Chin. Phys. B,24 (2015), 037503, 2015, 
(6) Observation of giant magnetocaloric effect in EuTiO3, Mater Lett., 158 (2015), 282-284, 2015, 
(7) Magnetic properties and magnetocaloric effects in Er1-xGdxCoAl intermetallic compounds, Chin. Phys. B,24 (2015), 097502, 2015, 
(8) Numerical simulation of a hybrid magnetic refrigeration combined with high pressure Stirling regenerative refrigeration effect, Acta Phys. Sin., 64 (2015), 210201, 2015, 
(9) Comprehensive evaluation method in the cooling mode of large-scale hydro-generators, Acta Phys. Sin. 64 (2015), 178802, 2015, 第 
(10) Observation of giant magnetocaloric effect in EuTi1-xCrxO3, J. Alloys Compd, 649 (2015), 674-678, 2015, 
(11) Magnetic properties and magnetocaloric effect in the HoNi1-xCuxIn (x=0, 0.1, 0.3, 0.4) intermetallic compounds, J. Magn. Magn. Mater. 354 (2014) 49-53, 2014, 
(12) Evolution of magnetic properties and magnetocaloric effect in TmNi1-xCuxAl (x=0, 0.1, 0.3, 0.5, 0.7, 0.9, 1) compounds, J. Appl. Phys. 115 (2014) 17A909, 2014, 
(13) Magnetic properties and magnetocaloric effect in the RCu2Si2 and RCu2Ge2 (R=Ho, Er) compounds, J. Appl. Phys. 115, (2014) 073905, 2014, 
(14) A mild one-step solvothermal route to truncated octahedral magnetite crystals, Particuology, 15, (2014), 51-55, 2014, 
(15) The effects of interstitial atoms H and B on magnetic properties and magnetocaloric effect in LaFe11.5Al1.5 compound, J. Appl. Phys. 115 (2014) 183908, 2014, 
(16) Magnetic properties and magnetocaloric effects in Er3-xGdxCo intermetallic compounds, J. Appl. Phys. 113 (2013) 033908, 2013, 
(17) Low-field induced large reversible magnetocaloric effect in Tm3Co compound, J. Alloys Compd. 572, ( 2013) 1-4, 2013, 
(18) Low-field induced giant magnetocaloric effect in TmCuAl compound, Appl. Phys. Lett. 102 (2013) 192407, 2013, 
(19) Low field induced giant magnetocaloric effect in TmGa compound, Appl. Phys. Lett. 103 (2013) 052409, 2013, 
(20) Large reversible magnetocaloric effects in ErFeSi compound under low magnetic field change around liquid hydrogen temperature, Appl. Phys. Lett. 102 (2013) 092401, 2013, 
(21) Refrigerant capacity and utilization ratio in NaZn13-type La–Fe–Si compounds, J. Magn. Magn. Mater. 331 (2013) 183-186, 2013, 
(22) Magnetocaloric effect in La0.5Pr0.5Fe11.5Si1.5 compounds with a combined addition of Co and C, J. Appl. Phys. 111, 07A908 (2012), 2012, 
(23) Hydrogenating process and magnetocaloric effect in La0.7Pr0.3Fe11.5Si1.5C0.2Hx hydrides, J. Alloys Compd. 520 (2012) 277-280, 2012, 
(24) Simultaneous enhancements of Curie temperature and magnetocaloric effects in the La1-xCexFe11.5Si1.5Cy compounds, J. Magn. Magn. Mater. 324 (2012), 484, 2012, 
(25) Large refrigerant capacity of RGa ( R=Tb and Dy) compounds, J. Appl. Phys. 111, (2012) 07A917, 2012, 
(26) Properties of NaZn13-type LaFe13-xSix(x = 1.4, 1.5) compound with the first-order phase transition, J. Appl. Phys. 111, (2012) 07E107, 2012, 
(27) Large magnetic entropy change and refrigerant capacity in rare-earth intermetallic RCuAl (R=Ho and Er) compounds, J. Magn. Magn. Mater. 324 (2012) 2676–2678, 2012, 
(28) Giant magnetic refrigerant capacity in Ho3Al2 compound, Solid State Commun., 152 (2012) 1127-1130, 2012, 
(29) Magnetic properties and magnetocaloric effects in Gd1-xHoxNiIn intermetallic compounds, Solid State Commun.,152 (2012) 1734–1738, 2012, 
(30) Metamagnetic transition and magnetocaloric effect in antiferromagnetic TbPdAl compound, J. Magn. Magn. Mater. 323 (2011) 2949, 2011, 
(31) Magnetocaloric effect and magnetic phase transition in Ho3Co, J. Appl. Phys. 109 (2011) 07A931, 2011, 
(32) Magnetic entropy change and large refrigerant capacity of Ce6Ni2Si3-type GdCoSiGe compound, Chin. Phys. B 19 (2011) 027501, 2011, 
(33) Magnetocaloric effect in antiferromagnetic Dy3Co compound, Appl. Phys. A 99 (2010) 853, 2010, 
(34) Magnetic properties and magnetocaloric effects in antiferromagnetic ErTiSi, J. Appl. Phys. 107 (2010) 09A931, 2010, 
(35) Reduction in hysteresis losses and large magnetic entropy change in the B-doped La(Fe, Si)13 compounds, J. Appl. Phys. 107 (2010) 09A909, 2010, 
(36) Cooling performance of a room-temperature magnetic refrigerator prototype, J. Appl. Phys. 107 (2010) 09A937, 2010, 
(37) Order of magnetic transition and large magnetocaloric effect in Er3Co, Chin. Phys. B 19 (2010) 047502, 2010, 
(38) Room-temperature large refrigerant capacity of Gd6Co2Si3, J. Appl. Phys. 106 (2009) 083902, 2009, 
(39) Magnetocaloric properties of the La0.7Pr0.3Fe13-xSix compounds, J. Magn. Magn. Mater. 321 (2009) 2336, 2009,
(40) Magnetic properties and magnetocaloric effects in R6Co2Si3 compounds with R = Nd and Tb, J. Alloys Compd. 476 (2009) 693, 2009, 
(41) Effect of substitution of Co for Fe on the magnetic hysteresis loss and the refrigerant capacity in the La0.5Pr0.5Fe11.5Si1.5 compounds, J. Appl. Phys. 105 (2009) 07A901, 2009, 
(42) Effect of substitution of Co for Fe on the magnetic hysteresis loss and the refrigerant capacity in the La0.5Pr0.5Fe11.5Si1.5 compounds, J. Appl. Phys. 105 (2009) 07A901, 2009, 
(43) Magnetocaloric effect in La1-xPrxFe10.7Co0.8Si1.5 compounds near room temperature, J. Phys. D: Appl. Phys. 41 (2008) 245005, 2008,
(44) Magnetocaloric effect in Pr6Co1.67Si3 compound, J. Alloys Compd. 458 (2008) L6, 2008,
(45) Effect of Pr and Co substitution on magnetic properties and magnetic entropy changes in LaFe13?xSix compounds, J. Alloys Compd. 458 (2008) 115, 2008, 
(46) Magnetocaloric effect in Gd6Co1.67Si3 compound with a second-order phase transition, Chin. Phys. 17 (2008) 2268, 2008, 
(47) Magnetic properties and magnetic entropy change in spinels (Cd, M)Cr2S4 with M = Cu or Fe, J. Appl. Phys. 103 (2008) 07B315, 2008, 
(48) Large magnetic entropy change and low hysteresis loss in the Nd- and Co-doped La(Fe, Si)13 compounds, J. Appl. Phys. 103 (2008) 07B317, 2008, 
(49) Reduction of hysteresis loss and large magnetic entropy change in the NaZn13-type LaPrFeSiC interstitial compounds, Appl. Phys. Lett. 91 (2007) 142504, 2007,
(50) Magnetic properties and magnetic entropy changes of La1-xPrxFe11.5Si1.5 compounds with 0 ≤ x ≤ 0.5 , Chin. Phys. 16 (2007) 3848, 2007, 
(51) Magnetic properties and magnetocaloric effects in Tb6Co1.67Si3 compound, Chin. Phys. 16 (2007) 3853, 2007, 
(52) Magnetic properties and magnetic entropy changes of LaFe11.0Co0.8(Si1-xAlx)1.2 compounds, J. Magn. Magn. Mater. 310 (2007) 2823, 2007, 


Students

已指导学生

庄晓如  博士研究生  080705-制冷及低温工程  

李振兴  硕士研究生  085206-动力工程  

现指导学生

邓增  硕士研究生  080705-制冷及低温工程  

汤奇雄  博士研究生  080705-制冷及低温工程  

徐清宇  博士研究生  080705-制冷及低温工程  

薛涵文  硕士研究生  080705-制冷及低温工程  

张晟   硕士研究生  080705-制冷及低温工程  

王昌  博士研究生  080705-制冷及低温工程  

李振兴  博士研究生  080705-制冷及低温工程  

郭小惠  博士研究生  080705-制冷及低温工程  

Honors & Distinctions

She has been granted Chinese youth women scientists prize, the national "ten thousand project" young talent, the national natural science fund - outstanding youth fund, Beijing hundred talents of science and technology award, Lu Jiaxi young talent award, the Chinese Academy of Sciences phosphorus, etc. As the member of Chinese Institute of Electronics in the applied magnetics committee and Chinese Refrigeration Association in cryogenic professional committee, she has applied for 23 national invention patents and two international patents, and published 112 SCI papers, which was quoted for 899 times. H-index is 18. The professor presides over by the National Natural Science Foundation of China, the branch program of National High-tech R&D Program and the Outstanding Young Scientists of Chinese Academy of Sciences, etc. Besides, the researches were honored with ten awards of Sciences and technology.