Junqiang Wang
日期:2022-11-30, 查看:2504

Junqiang Wang, Principal Investigator, Professor, Doctoral Supervisor

Research Interests:

       Researches on Controling the Metastable Characteristics of Amorphous Alloys and Its Influence on the Functional Properties, Including Relaxation Kinetics, Ultrastable Amorphous Alloys, the Heredity of Melt, Soft Magnetic Properites, Magnetocaloric Effects, Catalytic Activity, etc.

Phone: 0574-86694701

E-mail: jqwang@nimte.ac.cn

Work & Education:

09/2014 – now,         Professor,
                                 Ningbo Institute of Materials Technology & Engineering, CAS, Ningbo, China;

04/2013 – 08/2014,  Research Associate,
                                 Department of Materials Science and Engineering, University of Wisconsin-Madison, USA;

11/2010 - 03/2013,  Research Associate,
                                 WPI-AIMR , Tohoku University, Sendai, Japan; 

11/2012 - 02/2013,  Honorary Fellow,
                                 Department of Materials Science and Engineering, University of Wisconsin-Madison, USA;

09/2005 - 10/2010,  Ph.D. of condensed matter physics,
                                 Institute of Physics, Chinese Academy of Science, Beijing, China; 

09/2001 - 07/2005,  Bachelor of Physics,
                                 Northeast Normal University, Changchun, Jilin Province, China; 

Awards & Honors:

  • National Natural Science Fund of China for the Excellent Young Scientists Fund, 2019
  • Natural Science Foundation of Zhejiang Province for Distinguished Young Scholars, 2017
  • Young Scientist Award in 19th International Symposium on Metastable, Amorphous, and Nanostructured Materials (ISMANAM), Moscow, Russia, 2012
Research Funds:
  1. National Natural Science Foundation of China for the Excellent Young Scientists Fund, Functional properties of Metallic Glasses, 2020-2022
  2. National Key R&D Program of China, New Materials and Application Basis of High Temperature, High Strength and High Thermal Stability Bulk Metallic Glasses, PI/mentor of sub-project 4, 2019-2024
  3. Ningbo 2025 Science and Technology Innovation Project, Metallic Glasses Research, 2019-2022
  4. NSFC of International (Regional) Cooperation and Exchange Program, The Preparation and Properties of Metallic Glass/Polymer Duplex Composites, 2018-2019
  5. Natural Science Foundation of Zhejiang Province for Distinguished Young Scholars, Preparation and Soft Magnetic Properties of Iron based Ultra-stable Metallic Glasses, 2018-2021
  6. National Natural Science Foundation of China (General Program), Study on the Influence of Energy State of Ultra-stable Iron based Metallic Glasses on Soft Magnetic Properties and Its Physical Mechanism, 2018-2021
  7. National Natural Science Foundation of China (Young Scientists Fund), Study on Similarity and Dissimilarity of Glass Transition Dynamics between Spin Glass and Metallic Glass, 2016-2018

Publications:

  1. Xuanzhi Liu, Peng Zou, Lijian Song, Bowen Zang, Bingnan Yao, Wei Xu, Fushan Li, Jan Schroers, Juntao Huo*, and Jun-Qiang Wang*. Combinatorial High-Throughput Methods for Designing Hydrogen Evolution Reaction Catalysts[J]. ACS Catalysis, 2022, 12, 3789−3796.
  2. Xiaodong Yang, Meng Gao, Yanhui Liu, Jinlong Li, Yan Huang, Gang Wang*, Jun-Qiang Wang*, Juntao Huo*. Superior corrosion resistance of high-temperature Ir–Ni–Ta–(B) amorphous alloy in sulfuric acid solution[J]. Corrosion Science, 200 (2022) 110227.
  3. Juntao Huo, Kangyuan Li, Bowen Zang, Meng Gao, Li-Min Wang, Baoan Sun, Maozhi Li, Lijian Song*, Jun-Qiang Wang*, and Wei-Hua Wang. High Mixing Entropy Enhanced Energy States in Metallic Glasses[J]. Chinese Physics Letters, 39, 046401 (2022).
  4. Liang Cai, Juntao Huo,* Peng Zou, Guowei Li, Jian Liu, Wei Xu, Meng Gao, Shuzhi Zhang, and Jun-Qiang Wang*. Key Role of Lorentz Excitation in the Electromagnetic Enhanced Hydrogen Evolution Reaction[J]. ACS applied materials & interfaces, 2022
  5. Kun Han, Ming Li, Meng Gao, Xinming Wang, Juntao Huo*, Jun-Qiang Wang. Improved magnetocaloric effects in AlFe2B2 intermetallics through the enhancement of magnetoelastic coupling[J]. Journal of Alloys and Compounds, 908 (2022) 164663.
  6. Ao Li, Wei Xu*, Xiao Chen, Bing-Nan Yao, Jun-Tao Huo, Jun-Qiang Wang*, and Run-Wei Li. High-precision nuclear magnetic resonance probe suitable for in situ studies of high-temperature metallic melts[J]. Chinese Physics B, 2022, 31 (4): 040706. 
  7. Fei Han, Yanan Chen, YanHui Liu, Xiaodong Yang, Shenglei Che, Yan Zhang, Juntao Huo*, Meng Gao*, Jun-Qiang Wang*. High temperature oxidation behaviors of Ir-Ni-Ta-(B) metallic glass[J]. Corrosion Science, 205 (2022) 110420.
  8. Ao Li#, Xiao Chen#, Lijian Song#, Guoxin Chen#, Wei Xu*, Juntao Huo*, Meng Gao, Ming Li, Lei Zhang, Bingnan Yao, Min Ji, Y an Zhang, Shaofan Zhao, Wei Yao, Yanhui Liu, Junqiang Wang*, Haiyang Bai*, Zhigang Zou, Mengfei Yang, Weihua Wang. Taking advantage of glass: Capturing and retaining of the helium gas on the moon [J]. Materials Futures, 1 (2022) 035601.
  9. Ao Li, Xiao Chen, Wei Xu*, Lijian Song, Juntao Huo, Jun-Qiang Wang*. Dynamic crossover in metallic glass melt detected by NMR[J]. Journal of Non-Crystalline Solid, 591 (2022) 121717.
  10. Yuan Zhang, Kun Han, Ming Li, Meng Gao, Xinming Wang, Gang Wang*, Jun-Qiang Wang*, Juntao Huo*.Design of Co-based amorphous alloys with magnetocaloric effect near room temperature[J].  Journal of Non-Crystalline Solids, 592 (2022) 121763.
  11. Yan Huang, Bowen Zang, Chang Zhang, Mingliang Xiang, Peng Xiao, Juntao Huo,  Meng Gao, Rie Umetsud, Min Ji, Bingnan Yao, Yan Zhang⁎, Yaocen Wang⁎, Junqiang Wang*. Polydopamine/polyethyleneimine enhanced Fe-based amorphous powder cores with improved magnetic properties[J]. Journal of Alloys and Compounds, 920 (2022) 165889.
  12. Junhua Cao, Meng Gao*, Yuanfei Cai, Jinlong Li, Ye Wang*, Jun-Qiang Wang*, Juntao Huo*. Rapid screening the mechanical properties of ZrNi-based metallic glasses by high-throughput combinatorial approach[J]. Intermetallics, 148 (2022) 107640.
  13. Fan Chen, Kun Han, Meng Gao, Yan Zhang, Wei Xu, Juntao Huo* , Changjiang Zhang* ,Lijian Song,* and Jun-Qiang Wang*. Magnetocaloric Properties of Melt-Extracted Gd-Co-Al Amorphous/Crystalline Composite Fiber[J]. Metals, 2022, 12, 1367.
  14. Xiao Jin, Yanhui Zhang, Jun-Qiang Wang, Juntao Huo, and Li-Min Wang*. Quantifying Concentration Fluctuations in Binary Glass-Forming Systems by Small- and Wide-Angle X‑ray Scattering[J]. JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 2022, 13, 2205−2210.
  15. Yaru Cao, Fangru Wang, Lijian Song*, Maozhi Li, Ao Li, Juntao Huo, He Li, Fushan Li, Peng Yu, Wei Xu*, Jun-Qiang Wang*. The nanocopper interface induces the formation of a new ultrastable glass phase[J]. Journal of Non-Crystalline Solids, 593 (2022) 121764.
  16. S.Y. Zhang, W.H. Zhou, L.J. Song, J.T. Huo, J.H. Yao, J.Q. Wang, Y. Li*. Decoupling between enthalpy and mechanical properties in rejuvenated metallic glass[J]. Scripta Materialia, 223 (2023) 115056
  17. Y.R. Gao,#, Y. Tong#, L.J. Song*, X.X. Shui, M. Gao, J.T. Huo, J.-Q. Wang*. Continuous transition from gamma to beta dynamics during stress relaxation[J]. Scripta Materialia, 224 (2023) 115114.
  18. F. Xu*, Y.Z. Liu, X. Sun, J.F. Peng, Y.H. Ding, J.T. Huo*, J.Q.Wang*, M. Gao*. Percolation-like transition from nanoscale structural heterogeneities to shear bands in metallic glass detected by static force microscopy[J]. Applied Surface Science, 611 (2023) 155730.
  19. Jingqing Feng, YanHui Liu, Jiehe Sui, Aina He, Weixing Xia, Wei-Hua Wang, Jun-Qiang Wang*, Juntao Huo*. Giant Refrigerant Capacity in Gd-based Amorphous/Nanocrsytalline Composite Fibers[J]. Materials Today Physics, 2021, 100528.
  20. Xuanzhi Liu, Song Ju, Peng Zou, Lijian Song, Wei Xu, Juntao Huo, Jun Yi, Gang Wang,  Jun-Qiang Wang*. Advanced catalyst for hydrogen evolution reaction by dealloying Al-based nanocrystalline alloys[J]. Journal of Alloys and Compounds, 880 (2021) 160548.
  21. Lin Cao, Li-Jian Song*, Y a-Ru Cao, Wei Xu, Jun-Tao Huo, Y un-Zhuo Lv*, and Jun-Qiang Wang*. Small activation entropy bestows high-stability of nanoconfined D-mannitol[J]. Chinese Physics B, 2021, 30 (7): 076103.
  22. Lijian SONG, Wei XU, Juntao HUO, Junqiang WANG*. Large activation entropy is a key factor to trigger the memory effect of amorphous alloys [J]. Chinese Journal of Nature, 2021, 43(1): 53-60.
  23. Chenfei Wang, Guanjun Yao, Juncheng Liu, Yuanen Mao, Wenhao Leng, Yimin Chen*, Xiang Shen, Jun-Qiang Wang, and Rongping Wang*. Effects of Ca doping on the crystallization kinetics of GeTe[J]. Applied Physics Letters, 118, 211904 (2021).
  24. Keyuan Ding, Bin Chen, Yimin Chen, Junqiang Wang, Xiang Shen and Feng Rao*. Recipe for ultrafast and persistent phase-change memory materials[J]. NPG Asia Materials, 2021,12(1):63.
  25. John H Perepezko*, Meng Gao and Jun-Qiang Wang. Nanoglass and Nanocrystallization Reactions in Metallic Glasses[J]. FRONTIERS IN MATERIALS, 2021,8:663862.
  26. Lijian Song, Wei Xu, Juntao Huo, Fushan Li, Li-Min Wang, M. D. Ediger , and Jun-Qiang Wang*. Activation Entropy as a Key Factor Controlling the Memory Effect in Glasses[J]. Phys. Rev. Lett. 125, 135501 (2020).
  27. Song Ju, Jingqing Feng, Peng Zou, Wei Xu, Shunjie Wang, Weibo Gao, Huajun Qiu, Juntao Huo*, Jun-Qiang Wang*. Robust self-stabilized electrode based on Al-based metallic glasses for high-efficient hydrogen evolution reaction[J]. Journal of Materials Chemistry A, 8 (2020)3246-3251. 
  28. L.J. Song, M. Gao, W. Xu, J.T. Huo*, J.Q. Wang*, R.W. Li, W.H. Wang, J.H.Perepezko. Inheritance from glass to liquid: β relaxation depresses the nucleation of crystals[J]. Acta Materialia, 185(2020)38-44.
  29. Jingqing Feng, Fengmei Li, Gang Wang, Jun-Qiang Wang*, Juntao Huo*. Magnetocaloric effect in ercu-based metallic glass composite[J]. Journal of Non-Crystalline Solids, 536(2020)120004. 
  30. YaRu Cao, LiJian Song, Ao Li, JunTao Huo, FuShan Li, Wei Xu*, and Jun-Qiang Wang*. Abnormal relaxation kinetics in D-mannitol glass confined by nanoporous alumina[J]. Science China-Physics Mechanics & Astronomy, 2020, 63(7)276113: 1-5.
  31. Yimin Chen, Bin Chen, Lei Sun, Wenhao Leng, Yingjie Meng, Chenjie Gua, Yuanlin Chen, Tao Song, Jiaen Huang, Junqiang Wang, Guoxiang Wang, Xiang Shen*, Feng Rao*. Nano-composite phase-change antimony thin film for fast and persistent memory operations[J]. Materials Today Physics, 22 (2022) 100584: 1-8.
  32. Suo Zhang, Yanzhou Fan, Yuluo Li, Wenqiang Li, Huaijie Yi, Hailong Li, Tan Wang, Jun-Qiang Wang*, Fushan Li*. Revealing the effects of melt temperature on structure and magnetic properties in Fe–Si–B–C alloy[J]. Intermetallics, 141 (2022) 107395: 1-9
  33. Yimin Chen, Jierong Gu, Qian Zhang, Yuanen Mao, Guoxiang Wang, Rongping Wang* , Xiang Shen*, Jun-Qiang Wang*, and Tiefeng Xu. Fragile-to-strong crossover in optimized In-Sb-Te phase-change supercooled liquids[J]. PHYSICAL REVIEW MATERIALS, 4, 033403 (2020).
  34. Adit Sharma, Alexey Kopylov, Mikhail Zadorozhnyy, Andrei Stepashkin, V era Kudelkina, Jun-Qiang Wang, Sergey Ketov, Margarita Churyukanova, Dmitri Louzguine-Luzgin, Baran Sarac, Jürgen Eckert, Sergey Kaloshkin1, Vladislav Zadorozhnyy, and Hidemi Kato. Mg-Based Metallic Glass-Polymer Composites: Investigation of Structure, Thermal Properties, and Biocompatibility[J]. Metals, 2020,10,867:1-14.
  35. Di Xu, Shidong Feng, Jun-Qiang Wang, Li-Min Wang, and R. Richert. Entropic Nature of the Debye Relaxation in Glass-Forming Monoalcohols[J]. Journal of Physical Chemistry Letters, 2020, 11, 5792−5797.
  36. Zhuwei Lv, Yuqiang Yan, Chenchen Yuan, Bo Huang, Can Yang, Jiang Ma, Junqiang Wang, Lishan Huo, Zhiqiang Cui, Xunli Wang, Weihua Wang, Baolong Shen. Making Fe-Si-B amorphous powders as an effective catalyst for dye degradation by high-energy ultrasonic vibration[J]. Materials and Design, 194 (2020) 108876.
  37. J. Shen, Z. Lu, J. Q. Wang, S. Lan, F. Zhang, A. Hirata, M. W. Chen, X. L. Wang, P. Wen, Y. H. Sun, H. Y. Bai, and W. H. Wang. Metallic Glacial Glass Formation by a First-Order Liquid-Liquid transition[J]. Journal of Physical Chemistry Letters, 2020, 11, 6718-6723.
  38. Yimin Chen*, Rongping Wang*, Xiang Shen, Junqiang Wang, Tiefeng Xu. Understanding the complicated crystallization behaviors in GermaniumTellurides[J]. Journal of Non-Crystalline Solids, 531(2020)119862. 
  39. Fengmei Li, Jingqing Feng, Jun Yi, Gang Wang, Jun-Qiang Wang*, Juntao Huo*. Magnetocaloric properties of LaFe11.4Si1.6 based amorphous alloys[J]. Journal of Alloys and Compounds, 845 (2020) 156191.
  40. Nana He,Lijian Song, Wei Xu, Juntao Huo*, Jun-Qiang Wang*,Run-Wei Li. The evolution of relaxation modes during isothermal annealing and its influence on properties of Fe-based metallic glass[J]. Journal of Non-Crystalline Solids, 509(2019)95-98. 
  41. Haojie Zhang,Lijian Song,Wei Xu,Juntao Huo,Jun-Qiang Wang*. Correlations between the thermal properties and the electronegativity of soft magnetic Fe-based amorphous alloys[J]. Intermetallics, 108(2019)61-65. 
  42. Ayan Yao, Hao Yang, Jun-Qiang Wang*, Wei Xu, Juntao Huo, Run-Wei Li, Huajun Qiu, Mingwei Chen. Flexible supercapacitor electrodes fabricated by dealloying nanocrystallized Al-Ni-Co-Y-Cu metallic glasses[J]. Journal of Alloys and Compounds, 772(2019)164-172. 
  43. Juntao Huo*, Jun-Qiang Wang*, Wei-Hua Wang. Denary high entropy metallic glass with large magnetocaloric effect[J]. Journal of Alloys and Compounds, 776(2019)202-206.
  44. Fan Zhang, Yimin Chen*, Rongping Wang, Xiang Shen, Junqiang Wang*, and Tiefeng Xu. Study of glass transition kinetics of As2S3and As2Se3 by ultrafast differential scanning calorimetry[J]. Chinese Physics B, 28, 4 (2019))047802:1-4. 
  45. Yimin Chen, Rongping Wang*, Xiang Shen*, Junqiang Wang*, and Tiefeng Xu. New Methods Versus Old Questions: Crystallization Kinetics of S, Se, and Te[J]. Crystal Growth & Design, 19(2019)1103−1110. 
  46. Jierong Gu, Yimin Chen*, Qian Zhang, Guoxiang Wang, Rongping Wang*, Xiang Shen*, Junqiang Wang*, and Tiefeng Xu. Crystallization kinetics with fragile-to-strong crossover in Zn-Sb-Te supercooled phase-change liquids[J]. Applied Physics Letters, 115, 091903 (2019). 
  47. Bin Chen, Yimin Chen, Keyuan Ding, Kunlong Li, Fangying Jiao, Lei Wang, Xierong Zeng, Junqiang Wang, Xiang Shen, Wei Zhang, Feng Rao*, and Evan Ma. Kinetics features conducive to cache-type non-volatile phase-change memory[J]. Chemistry of Materials, 31, 21(2019)8794-8800. 
  48. Peng Du, Yuren Wen, Fu-Kuo Chiang, Ayan Yao, Junqiang Wang, Jianli Kang, Luyang Chen, Guoqiang Xie, Xingjun Liu*, and Hua-Jun Qiu*. Corrosion Engineering to Synthesize Ultra-Small and Monodisperse Alloy Nanoparticles Stabilized in Ultrathin Cobalt (Oxy)hydroxide for Enhanced Electrocatalysis[J]. ACS Applied Materials & Interfaces, 11, 16(2019)14745-14752.
  49. Yimin Chen, Hongbo Pan, Sen Mu, Guoxiang Wang, Rongping Wang*, Xiang Shen*, Junqiang Wang, Shixun Dai, Tiefeng Xu. Intermediate crystallization kinetics in Germanium-Tellurides[J]. Acta Materialia, 164(2019)473-480. 
  50. Mingliang Wu, Baosen Hou, Shengcheng Shu, Ao Li, Qi Geng, He Li, Yumeng Shi, Minghui Yang, Shiyu Du, Jun-Qiang Wang, Shuzhi Liao*, Nan Jiang,  Dan Dai* and Cheng-T e Lin*. High Oxidation Resistance of CVD Graphene-Reinforced Copper Matrix Composites[J]. Nanomaterials, 9(2019)498-506. 
  51. H.-J. Qiu*, J. J. Gao, F.-K. Chiang, Y. R. Wen*, A. Y. Yao, P. Du, G. Fang, J. Q. Wang* and X. J. Liu*. A general and scalable approach to produce nanoporous alloy nanowires with rugged ligaments for enhanced electrocatalysis[J]. Journal of Materials Chemistry A, 6(2018)12541-12550. 
  52. Wei Sheng, Jun-Qiang Wang, Gang Wang, Juntao Huo*, Xinmin Wang, Run-Wei Li. Amorphous microwires of high entropy alloys with large magnetocaloric effect[J]. Intermetallics, 96(2018)79-83.
  53. Lijian Song, Wei Xu, Juntao Huo, Jun-Qiang Wang*, Xinmin Wang, Runwei Li. Two-step relaxations in metallic glasses during isothermal annealing[J]. Intermetallics, 93(2018)101-105. 
  54. S. Ouyang, L. J. Song, Y. H. Liu, J. T. Huo*, J. Q. Wang*, W. Xu, J. L. Li, C. T. Wang, X. M. Wang, R. -W. Li, Correlation between the viscoelastic heterogeneity and the domain wall motion of Fe-based metallic glass[J], P. R. Mater., 2, 063601 (2018).
  55. L.J. Zhu, Z.H. Zhang, X.X. Ke*, J.Q. Wang, J. Perepezko, M.L. Sui, WO2 triggered nucleation and growth of ultra-longW18O49 structures, from nanobundles to single-crystalline microrod[J], Acta Mater., 148 (2018) 55-62.
  56. M.C. Ri, D.W. Ding*, B.A. Sun, J.Q. Wang, X.S. Zhu, B.B. Wang, T.L. Wang, Q.Q. Qiu, L.S. Huo, W.H. Wang, Stress effects on magnetic property of Fe-based metallic glasses[J], J Non-cryst Solids, 495 (2018) 54-58.
  57. H.-J. Qiu*, J. J. Gao, Y. R. Wen*, B. Shang, J. Q. Wang*, X. Lin*, Y. Wang*, Platinum Cluster/Nanoparticle on CoO Nanosheets with Coupled Atomic Structure and High Electrocatalytic Durability[J], ACS Appl. Energy Mater., 1(2018)1840-1845.
  58. L.J. Song, J.Z. Bi, R. Li, W. Xu**, J.T. Huo, J.Q. Wang*, X.M. Wang. Influence of Cu addition on the glass transition behavior of LaCe-based metallic glasses[J]. Intermetallics, 94 (2018) 38-41.
  59. Jun-Tao Huo *, Wei Sheng, Jun-Qiang Wang. Magnetocaloric effects and magnetic regenerator performances in metallic glasses [J]. Acta Physica Sinica, 66, 17(2017)176409:1-18.
  60. Yimin Chen, Sen Mu, Guoxiang Wan, Xiang Shen*, Junqiang Wang*,Shixun Dai, Tiefeng Xu, Qiuhua Nie, and Rongping Wang. Resolving glass transition in Te-based phase-change materials by modulated differential scanning calorimetry[J]. Applied Physics Express, 10, 105601 (2017):1-4
  61. Jijun Zhang, Jiawei Li*, Guoguo Tan, Renchao Hu, Junqiang Wang, Chuntao Chang,  and Xinmin Wang. Thin and Flexible Fe–Si–B/Ni–Cu–P Metallic Glass Multilayer Composites for Efficient Electromagnetic Interference Shielding[J]. ACS Applied Materials & Interfaces, 2017, 9, 48, 42192-42199.
  62. J.T. Huo, Q. Luo, J.-Q. Wang*, W. Xu, X.M. Wang, R.-W. Li, H.-B. Yu*, Nonlinear fragile-to-strong transition in a magnetic glass system driven by magnetic field[J], AIP Adv., 7 (2017)125014.
  63. Y.M. Chen, G.X. Wang, L.J. Song, X. Shen*, J.-Q. Wang*, J.T. Huo, R.P. Wang, T.F. Xu, S.X. Dai, Q.H. Nie. Unraveling the Crystallization Kinetics of Supercooled Liquid GeTe by Ultrafast Calorimetry[J]. Cryst. Growth Des. 17(2017)3687−3693.
  64. P.P. Wang, J.-Q. Wang*, J.T. Huo, W. Xu , X.M. Wang, G. Wang, Fast degradation of azo dye by nanocrystallized Fe-based alloys[J]. Sci. China Phys. Mech. 60(2017)076112.
  65. J.-Q .Wang*, S. Ouyang. Extended elastic model for flow of metallic glasses[J]. Acta Physica Sinica.17(2017)176102.
  66. S. Ouyang, L.S. Huo, Y. Yang*, W. Xu, J.T. Huo, J.-Q. Wang*, X.M. Wang, R.-W. Li. Chemical independent relaxation in metallic glasses from the nanoindentation experiments[J].Journal of Applied Physics, 2017, 121, 245104 
  67. H. Yang, H.J. Qiu, J-Q. Wang*, J.T. Huo, X.M. Wang, R-W.Li, J.G. Wang*. Nanoporous metal/metal-oxide composite prepared by one-step de-alloying AlNiCoYCu metallic glasses[J]. J. Alloys Compd., 2017, 703(5):461-465.  
  68. P.P.Wang, J-Q. Wang*, He Li, H. Yang, J.T. Huo, J.G. Wang, C.T.Chang, X.M.Wang, R-W. Li, G.Wang*. Fast decolorization of azo dyes in both alkaline and acidic solutions by Al-based metallic glasses[J]. J. Alloys Compd., 2017, 701(15):759-767.  
  69. Y . T . Sun, J. Q. Wang, Y . Z. Li, H.Y . Bai, M. Z. Li and W. H. Wang. Effects of atomic interaction stiffness on low-temperature relaxation of amorphous solids [J]. Physical Chemistry Chemical Physics, 18,38(2016) 26643-26650.
  70. Jiawei Li, Lijing Yang, Haoran Ma, Kemin Jiang, Chuntao Chang, Junqiang Wang*, Zhenlun Song, Xinmin Wang, RunWei Li, Improved corrosion resistance of novel Fe-based amorphous alloys, Materials & Design, 95 (2016) 225-230.
  71. Junqiang Wang, Y Shen, J.H. Perepezko, M.D. Ediger. Increasing the kinetic stability of bulk metallic glasses [J]. Acta Materialia,104, 25-32 (2016). 
  72. Junqiang Wang, J. H. Perepezko. Focus: Nucleation kinetics of shear bands in metallic glass[J]. The Journal of Chemical Physics, 145, 211803 (2016).
  73. Xiao Li, Huajun Qiu*, Junqiang Wang, Yi Wang. Corrosion of ternary Mn–Cu–Au to nanoporous Au–Cu with widely tuned Au/Cu ratio for electrocatalyst. Corrosion Science,106, 55-60 (2016)
  74. Jiaojiao Gao, Guiping Zhou, Huajun Qiu*, Yi Wang*, Junqiang Wang*. Dealloying monolithic Pt-Cu alloy to wire-like nanoporous structure for electrocatalysis and electrochemical sensing[J]. Corrosion Science, 108(2016)194-199.
  75. Huo L S, Wang J Q, Huo J T, et al. Interactions of Shear Bands in a Ductile Metallic Glass[J]. Journal of Iron & Steel Research International, 2016, 23(1):48-52. 
  76. M. Zhu, J.Q. Wang, J.H. Perepezko, L. Yu*, Possible existence of two amorphous phases of D-mannitol related by a first-order transition, J. Chem. Phys. 142, 244504 (2015). 
  77. J.W. Li, J.Y. Law, J.T. Huo, A.N. He, Q.K. Man, C.T. Chang, H. Men*, J.Q. Wang, X.M. Wang, R.W. Li, Magnetocaloric effect of Fe–RE–B–Nb (RE = Tb, Ho or Tm) bulk metallic glasses with high glass-forming ability. J. Alloys Comp. 644, 346-349 (2015). 
  78. H.J. Qiu, X. Shen, J.Q. Wang, A. Hirata, T. Fujita, Y. Wang*, M.W. Chen*, Aligned Nanoporous Pt?Cu Bimetallic Microwires with High Catalytic Activity toward Methanol Electrooxidation, ACS Catalysis 5, 3779 (2015). 
  79. H.J. Qiu, J.Q. Wang*, P. Liu, Y. Wang*, M.W. Chen*, Hierarchical nanoporous metal/metal-oxide composite by dealloying metallic glass for high-performance energy storage, Corrosion Science 96, 196 (2015).
  80. H.J. Qiu, H.T. Xu, X. Li, J.Q. Wang*, Y. Wang*, Core–shell-structured nanoporous PtCu with high Cu content and enhanced catalytic performance, J. Mater. Chem. A 3, 7939 (2015). 
  81. J.T. Huo, L.S. Huo, J.W. Li, H. Men, X.M. Wang, A. Inoue, C.T. Chang*, J.Q. Wang*, R.W. Li, High-entropy bulk metallic glasses as promising magnetic refrigerants, J. Appl. Phys. 117, 073902 (2015). 
  82. J.H. Perepezko*, T.W. Glendenning and J.Q. Wang, Nanocalorimetry measurements of metastable states, Thermochimica Acta,603, 24 (2015). 
  83. J.T. Huo, L.S. Huo, H. Men, X.M. Wang, A. Inoue, J.Q. Wang, C.T. Chang, R.W. Li, The magnetocaloric effect of Gd-Tb-Dy-Al-M (M= Fe, Co, Ni) high-entropy bulk metallic glasses, Intermetallics 58, 31-35 (2015). 
  84. H.X. Chang, J.L. Kang, L.Y. Chen, J.Q. Wang, K. Ohmura, N. Chen, T. Fujita, H. Wu, M.W. Chen, Low-temperature solution-processable Ni(OH)2 ultrathin nanosheet/ N-graphene nanohybrids for high-performance supercapacitor electrodes, Nanoscale6, 5960 (2014).
  85. J.Q. Wang, N. Chen, P. Liu, Z. Wang, D.V. Louzguine-Luzgin, M.W. Chen and J.H. Perepezko, The ultrastable kinetic behavior of an Au-based nanoglass, Acta Mater. 79, 30-36 (2014). 
  86. J. H. Perepezko, S.D. Imhoff, M.W. Chen, J.Q. Wang and S. Gonzalez, Nucleation of shear bands in amorphous alloys, PNAS 111, 3938 (2014). 
  87. J.H. Perepezko, C. Santhaweesuk, J.Q. Wang and S.D. Imhoff, Kinetic competition during glass formation, J. Alloy Comp. 615, S192 (2014). 
  88. H.J. Yu#, J.Q. Wang#,*, X.T. Shi, D.V. Louzguine-Luzgin, H.K. Wu, and J.H. Perepezko, Ductile biodegradable Mg-based metallic glasses with excellent biocompatibility, Adv. Funct. Mater. 23, 4793 (2013). 
  89. E. Fazakas*, J.Q. Wang, V. Zadorozhnyy, D.V. Louzguine-Luzgin and L.K. Varga, Microstructural evolution and corrosion behavior of Al25Ti25Ga25Be25 equi-molar composition alloy, Mater. Corro. 65(7), 691 (2014). 
  90. A. Takeuchi*, J.Q. Wang, N. Chen, W. Zhang, Y. Yokoyama, K. Yubuta and S.L. Zhu, Al0.5TiZrPdCuNi High-Entropy (H-E) Alloy Developed through TiZrPdCuNi H-E Glassy Alloy Comprising Inter-Transition Metals, Mater. Trans. JIM 54(5), 776-782 (2013). 
  91. J.Q. Wang*, Y.H. Liu, M.W. Chen, D.V. Louzguine, A. Inoue & J.H. Perepezko, Excellent capability in degrading azo dyes by MgZn-based metallic glass powders, Sci. Rep. 2, 418 (2012).  [Highlighted by Nature Asia: http://www.natureasia.com/ja-jp/srep/abstracts/37412] [Highlighted by WPI-AIMR: http://research.wpi-aimr.tohoku.ac.jp/eng/research/702]
  92. J.Q. Wang*, Y.H. Liu*, M.W. Chen, G.Q. Xie, D.V. Louzguine, A. Inoue and J.H. Perepezko, Rapid degradation of azo dye by Fe-based metallic glass powders, Adv. Funct. Mater. 22, 2567 (2012). 
  93. J.Q. Wang, Y.H. Liu, S. Imhoff, N. Chen, D.V. Louzguine, A. Takeuchi, M.W. Chen, H. Kato, J.H. Perepezko* and A. Inoue, Enhance the thermal stability and glass forming ability of Al-based metallic glass by Ca minor-alloying, Intermetallics 29, 35 (2012).
  94. J. Kang*, K. Qing, H. Zhang, A. Hirata, J.Q. Wang, M. Chen, N. Zhao, R. Sun, T. Fujita, C. Shi, Z. Qiao*, Direct synthesis of fullerene-intercalated porous carbon nanofibers by chemical vapor deposition, Carbon 50, 5162 (2012). 
  95. D. Wang, K. Nakajima*, S. Fujinami, Y. Shibasaki, J.Q. Wang and T. Nishi, Characterization of morphology and mechanical properties of block copolymers using atomic force microscopy: Effects of processing conditions, Polymer 53, 1960 (2012). 
  96. D.V. Louzguine-Luzgin*, G.Q. Xie, S. Gonzales, J.Q. Wang, K. Nakayama, J.H. Perepezko and A. Inoue, Nano-crystallization behavior of ZrCuAl bulk glass-forming alloy, J. Non-Cryst. Solids 358, 145 (2012).
  97. M.B. Tang*, J. Yi, J.Q. Wang, W.H. Wang and J.T. Zhao, Low expansion in [(Fe0.9Co0.1)0.72B0.24Nb0.04]95.5Y4.5 bulk metallic glass, J. Non-Cryst. Solids 358, 470 (2012). 
  98. J.Q. Wang, W.H. Wang*, Y.H. Liu and H.Y. Bai*, Characterization of activation energy for flow in metallic glasses, Phys. Rev. B 83, 012201 (2011). 
  99. J.Q. Wang, J.Y. Qin, X.N. Gu, Y.F. Zheng and H.Y. Bai*, Bulk metallic glasses based on ytterbium and calcium, J. Non-cryst. Solids 357, 1232 (2011). 
  100. J.Q. Wang, W.H. Wang and  H.Y. Bai*, Extended elastic model for flow in metallic glasses, J. Non-cryst. Solids 357, 223 (2011). 
  101. J.Q. Wang, W. H. Wang and  H. Y. Bai*, Distinguish bonding characteristic in metallic glasses by correlations, J. Non-cryst. Solids 357, 220 (2011). 
  102. N. Chen, F. Frank, N. Asao, D.V. Louzguine-Luzgin*, P. Sharma, J.Q. Wang, et al., Formation and properties of Au-based nanograined metallic glasses, Acta Mater. 59, 6433 (2011). 
  103. X.K. Xi*, M.T. Sandor, H.J. Wang, J.Q. Wang, W.H. Wang and Y. Wu, Bonding characters of Al-containing bulk metallic glasses studied by Al-27 NMR, J. Phys.: Condens. Matter 23, 115501 (2011). 
  104. M.T. Sandor, X.K. Xi, J.Q. Wang, H.Y. Bai, W.H. Wang and Y. Wu*, Probing local magnetic cluster development in (CuZr)93-xAl7Gdx bulk metallic glasses by 27Al NMR, J. Magn. Magn. Mater. 324, 173 (2012). 
  105. X.N. Gu, Y.F. Zheng*, S.P. Zhong, T.F. Xi, J.Q. Wang and W. H. Wang, Corrosion of, and cellular response to Mg-Zn-Ca bulk metallic glasses, Biomaterials 31, 1093 (2010). 
  106. M.B. Tang*, J.Q. Wang, W.H. Wang, L. Xia, K.C. Chan and J.T. Zhao, Valence fluctuation and electron-phonon coupling in La-Ce-Al-Cu-Co metallic glasses, J. Appl. Phys. 108, 033525 (2010). 
  107. J.F. Li, J.Q. Wang, X.F. Liu, K. Zhao, B. Zhang, H.Y. Bai, M.X. Pan and W.H. Wang*, Glassy metallic plastics, SCIENCE CHINA Physics, Mechanics and Astronomy 53, 409 (2010). 
  108. J.Q. Wang, W.H. Wang, H.B. Yu and H.Y. Bai*, Correlations between elastic moduli and molar volume in metallic glasses, Appl. Phys. Lett. 94, 121904 (2009). 
  109. J.Q. Wang, W.H. Wang and H.Y. Bai*, Soft ytterbium-based bulk metallic glasses with strong liquid characteristic by design, Appl. Phys. Lett. 94, 041910 (2009). 
  110. J.Q. Wang and H.Y. Bai*, High-pressure behaviors of Yb-based bulk metallic glasses, Scripta Mater. 61, 453 (2009). 
  111. J.Q. Wang, W.H. Wang and H.Y. Bai*, Kondo effect in metallic glasses with non-Fermi liquid behavior, http://arxiv.org/abs/1006.3826.
  112. J.Q. Wang, P. Yu and H.Y. Bai*, Minor addition induced enhancement of strength of Mg-based bulk metallic glass, J. Non-cryst. Solids 354, 5440 (2008).

Patents:

  1. Yan Zhang; Yanan Chen; Mingliang Xiang; Junqaing Wang, Composite soft magnetic material as well as preparation method and application thereof, China patent no. CN202210508942.5
  2. Kun Han; Juntao Huo; Junqiang Wang, The invention relates to an aluminum-iron-boron magnetic refrigerating material and a preparation method thereof, China patent no. CN202210294545.2
  3. Meng Gao; Juntao Huo; Junqiang Wang, The invention discloses high-thermal-stability aluminum-based metal glass and a preparation method thereof, China patent no. CN202210203584.7
  4. Junhua Cao; Yuanfei Cai; Junqiang Wang; Juntao Huo; Yan Zhang, The invention relates to a high-plasticity Hf-based double-phase amorphous alloy and a preparation method thereof, China patent no. CN202210176905.9
  5. Bingnan Yao; Junqiang Wang; Wei Xu; Xiao Chen; Ao Li, The invention relates to a device and a method for screening the permeability of a soft magnetic material with high flux, China patent no. CN202210099108.5
  6. Bingnan Yao; Junqiang Wang; Wei Xu; Bo Lin; Xiao Chen; Ao Li; Juntao Huo, The utility model relates to a wireless charging type automobile toy, China patent no. CN202111618628.4
  7. Yan Zhang; Junqiang Wang; Yan Huang, Soft magnetic powder composite, magnetic powder core material and insulation coating method based on organic matter growth, China patent no. CN202111394149.9
  8. Fei Han; Xiaodong Yang; Juntao Huo; Junqiang Wang, The invention relates to a refractory high-entropy amorphous alloy material and a preparation method and application thereof, China patent no. CN202111307143.3, CN114058981B
  9. Junqiang Wang; Wenwu Zhang; Yan Zhang; Xiaowen Cao; Mingliang Xiang; Wei Xu; Juntao Huo, The invention discloses an integrated flexible micro-nano inductor and a preparation method thereof, China patent no. CN202111113391.4
  10. Yan Zhang; Junqiang Wang; Yan Huang, The invention relates to an ultrasonic reinforced magnetic powder core pressing forming method and a powder pressing magnetic core, China patent no. CN202111042385.4
  11. Junqiang Wang; Bowen Zang; Wei Xu; Lijian Song; Bingnan Yao, High-saturation magnetic induction amorphous nanocrystalline material and heat treatment device and method thereof, China patent no. CN202110835613.7
  12. Xuanzhi Liu; Peng Zou; Junqiang Wang; Juntao Huo; Wei Xu, Method for high-throughput parallel screening of multi-principal element electrolyzed water catalyst, China patent no. CN202110477593.0
  13. Wei Xu; Ao Li; Junqiang Wang, The invention relates to a high-temperature nuclear magnetic resonance probe and a high-temperature nuclear magnetic resonance device, China patent no. CN202110048411.8
  14. Wei Xu; Junqiang Wang, A composition for the preparation of hypochlorous acid water and its use, China patent no. CN202010893838.3
  15. Yaru Cao; Junqiang Wang; Wei Xu; Juntao Huo, Nano limited system and template and preparation method thereof, China patent no. CN202010027892.X, CN111218578B
  16. WEI XU; JUNQIANG WANG; AO LI; JUNTAO HUO; LIJIAN SONG, The utility model relates to a laser heating high-temperature nuclear magnetic resonance probe and a laser heating high-temperature nuclear magnetic resonance device, China patent no. CN201911320459.9, CN113009389B
  17. JunTao Huo; JingQing Feng; JunQiang Wang, Non-Fe-free alloy Co and Ni amorphous composite material as well as preparation method and application thereof, China patent no. CN201911301937.1, CN110983207B
  18. Juntao Huo; Junqiang Wang; Runwei Li, High-entropy amorphous alloy as well as preparation method and application thereof, China patent no. CN201811227003.3, CN109295400B
  19. Juntao Huo; Wei Sheng; Junqiang Wang, Room temperature magnetic refrigeration silk screen material as well as preparation method and application thereof, China patent no. CN201811101568.7, CN109182873B
  20. Nana He; Junjiang Wang; Juntao Huo; Wei Xu; Runwei Li, Heat treatment method of amorphous alloy, China patent no. CN201810310296.5, CN108277325B
  21. Ayan Yao; Junjiang Wang; Juntao Huo; Wei Xu; Runwei Li, Flexible nano porous metal/oxide supercapacitor electrode material and preparation method thereof, China patent no. CN201810249448.5, CN108493000B
  22. Juntao Huo; Jiang Zhou; Chuntao Chang; Yuan Zhou; Junjiang Wang; Junjie Wang, A high-frequency pulse tube refrigerator for low temperature cold storage material and its preparation method, China patent no. CN201510106273.9, CN104789845B
  23. J.Q. Wang, Y.H. Liu, M.W. Chen, G.Q. Xie, D.V. Louzguine, A. Inoue, J.H. Perepezko, Method for treating azo dye contaminated water by metal glass fine particle, Japan patent no. 2014018793.A;
  24. J.Q. Wang, H.Y. Bai, W.H. Wang, D.Q. Zhao & M.X. Pan, The ytterbium-based bulk amorphous alloy and their preparation method, China patent no. ZL200810227095.5;
  25. J.Yi, J.Q. Wang, D.Q. Zhao, M.X. Pan, H.Y. Bai & W.H. Wang, The equipment and method of fabricating the nano-& micro-fibers of metallic glasses, China patent no. ZL201010241012.5