1.         LL Xiao, ZQ Zheng, SW Guo, P Huang, F Wang, Ultra-strong nanostructured CrMnFeCoNi High entropy alloys, Materials & Design, 2020, 194: 108895, (SCI, IF=6.289)

2.         S Zhang, P Huang, F Wang, Graphene-boundary strengthening mechanism in Cu/graphene nanocomposites: A molecular dynamics simulation, Materials & Design, 2020, 190: 108555, (SCI, IF=6.289)

3.         S. Li, F. Wang, J.L. Li, P. Huang, Length scale dependent plasticity of amorphous/amorphous NiNb/ZrCuNiAlSi nanolaminates, Journal of Non-Crystalline Solids, 2020, 535: 119996.  (SCI, IF=2.929).

4.         S Li, F Wang, LF Zhang, P Huang, Indentation depth dependence of nanoscale Al/W multilayers on strain rate sensitivity, Materials Science and Engineering A, 2019, 767: 138438. (SCI, IF=4.652).

5.         CF Ma, S Li, P Huang, F Wang, Size dependent hidden serration behaviors of shear banding in metallic glass thin films, Journal of Non-Crytalline Solids, 2020, 534: 119953. (SCI, IF=2.929).

6.         L Huang, ZQ Chen, WB Liu, P Huang, XK MEng, KW Xu, F Wang, TJ Lu, Enhanced irradiation resistance of amorphous alloys by introducing amorphous/amorphous interfaces, Intermetallics, 2019, 107: 39-46. (SCI, IF=3.398)

7.         V.P. Sampath, P. Huang*, F. Wang, D.J. He, Z.Q. Zheng, L.L. Xiao, C.F. Ma, C.C. Li, L.Y. Huang, Crystalline organization of nacre and crossed lamellar architecture of seashells and their influence in mechanical properties, Materialia, 2019, 8: 100476.

8.         S Li, P Huang, F Wang, Rejuvenation saturation upon cyclic elastic loading in metallic glass, Computational Materials Science, 2019, 166: 318-325. (SCI, 影响因子2.644)

9.         L. Huang, Z.Q. Chen, W.B. Liu, P. Huang*, X.K. Meng, K.W. Xu, F. Wang*, T.J. Lu, Enhanced irradiation resistance of amorphous alloys by introducing amorphous/amorphous interfaces, Intermetallics, 2019, 107: 39-46.(SCI, 影响因子3.140)

10.     T. Guo, P. Huang, F. Wang*, Unusual high strain rate sensitivity of amorphous/crystalline NiW composites, Materials Letters, 2019, 248: 189-192. (SCI, 影响因子3.204)

11.     Q. Zhou, Y. Ren, Y. Du, W.C. Han, D.P. Hua, H.M. Zhai, P. Huang, F. Wang, H.F. Wang, Identifying the significance of Sn addition on the tribological performance of Ti-based bulk metallic glass composites, Journal of Alloys and Compounds, 2019, 780: 671-679.  (SCI, IF=4.650).

12.     Q. Zhou, Y. Du, Y. Ren, W.W. Kuang, W.C. Han, H. F. Wang, P. Huang, F. Wang, J. Wang, Investigation into nanoscratching mechanical performance of metallic glass multilayers with improved nano-tribological properties, Journal of Alloys and Compounds, 2019, 776: 447-459.  (SCI, IF=4.650).

13.     J Zhu, C Gu, KW Xu, P Huang, F Wang, TJ Lu, Effects of size and amorphous layer structure on the strength and plasticity of Cu/CuZr nanolaminates, Materials Science and Engineering A, 2018, 738: 219-228. (SCI, IF=4.652).

14.     XZ Wei, Q Zhou, P Huang, KW Xu, F Wang, TJ Lu, Enhanced hardness via interface alloying in nanoscale Cu/Al multilayers, Materials Science and Engineering A, 2018, 726: 274-281. (SCI, IF=4.652).

15.     Q. Zhou, S. Zhang, X.Z. Wei, F. Wang, P. Huang, K.W. Xu, Improving the crack resistance and fracture toughness of Cu/Ru multilayer thin films via tailoring the individual layer thickness, Journal of Alloys and Compounds, 2018, 742: 45-53.  (SCI, IF=4.650)

16.     Y Li, Q Zhou, S Zhang, P Huang, KW Xu, F Wang, TJ Lu, On the role of weak interface in crack blunting process in nanoscale layered composites, Applied Surface Science, 2018, 433: 957-962. (SCI, IF=6.182)

17.     J Zhao, P Huang, KW Xu, F Wang, TJ Lu, Indentation size and loading strain rate dependent creep deformation of nanocrystalline Mo, Thin Solid Films, 2018, 653: 365-370. (SCI, IF=2.030).

18.     Y Cui, Y Shibutani, P Huang, F Wang, KW Xu, TJ Lu, Interface-related shear banding deformation of amorphous/crystalline CuZr/Cu Nanolaminates by molecular dynamics simulations, Materials Transactions, 2018, 59: 230-236. (SCI, IF=0.731).

19.     J Zhao, P Huang, KW Xu, F Wang, TJ Lu, Unusual annealing effects on hardness and strain rate sensitivity of nanocrystalline Nb, Thin Solid Films, 2018, 645: 146-153. (SCI, IF=2.030).

20.     CF Ma, P Huang, KW Xu, F Wang, TJ Lu, Free volume gradient effect on shear banding behavior in CuZr/CuZr multilayers, Thin Solid Films, 2018, 666: 48-53. (SCI, IF=2.030).

21.     Q. Zhou, J. Wang, A. Misra, P. Huang, F. Wang, KW Xu, Dislocation interaction induced structural instability in intermetallic Al2Cu, NPJ Computational Materials, 2017, 2: 1-7. (SCI, 影响因子9.341).

22.     F. Xue, P. Huang, M.B. Liu, K. W. Xu, F. Wang, T. J. Lu, Unusual strain rate sensitivity of nanoscale amorphous CuZr/crystalline Cu multilayers, Materials Science and Engineering A, 2017, 684:84-89. (SCI, 影响因子4.652).

23.     Q. Zhou, P. Huang, M.B. Liu, F. Wang, K.W. Xu, T.J. Lu, Grain and interface boundaries governed strengthening mechanisms in metallic multilayers, Journal of Alloys and Compounds, 2017, 698: 906-912. (SCI, 影响因子4.650).

24.     C. Gu, P. Huang, F. Wang, K. W. Xu, T. J. Lu, Size-dependent hardness and tensile plasticity of Ta-Zr₆₁Cu_17.5Ni₁₀Al_l7.5Si₄ nanolaminates, Journal of Alloys and Compounds, 2017, 707:321-326. (SCI, 影响因子4.650).

25.     Y. Cui, Y. Shibutani, S Li, P. Huang, F. Wang, Plastic Deformation behaviors of amorphous-Cu50Zr50/crystalline-Cu nanolaminated structures by molecular dynamics simulations, Journal of Alloys and Compounds, 2017, 693: 285-290. (SCI, 影响因子4.650).

26.     C. Gu, P. Huang, M.B. Liu, K. W. Xu, F. Wang, T. J. Lu, Intrinsic size effect of CuTa/Cu nanolaminates with unequal modulation ratios, Scripta Materialia, 2017, 130: 100-104, (SCI, 影响因子5.079).

27.     Q. Zhou, J. Wang, A. Misra, P. Huang, F. Wang, K.W. Xu, Atomistic study of fundamental character and motion of dislocations in intermetallic Al2Cu, International Journal of Plasticity, 2016, 87: 100-113. (SCI, 影响因子5.702).

28.     Z. Q. Chen, P. Huang, K. W. Xu, F. Wang, T. J. Lu, β relaxation related bright bands in thin film metallic glasses: localized percolation of flow units captured via transmission electron microscope, Applied Physics Letters, 2016, 109: 261903, (SCI, 影响因子3.597).

29.     Z. Q Chen, L. Huang, P. Huang, K.W. Xu, F. Wang, T.J. Lu, Clarification on shear transformation zone size and its correlation with plasticity for Zr-based bulk metallic glass in different structural states, Materials Science and Engineering A, 2016, 677: 349-355. (SCI, 影响因子4.652).

30.     Z. Q Chen, L. Huang, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Suppression of annealing-induced embrittlement in bulk metallic glass by surface crystalline coating, Materials & Design, 2016, 109: 179-185. (SCI, 影响因子6.289).

31.     T. Guo, P. Huang, K. W. Xu, F. Wang, T. J. Lu, Solid solution effects on hardness and strain rate sensitivity of nanocrystalline NiFe alloy, Materials Science and Engineering A, 2016, 676: 501-505. (SCI, 影响因子4.652).

32.     Q. Zhou, S. Li, P. Huang, K. W. Xu, F. Wang, T. J. Lu, Strengthening mechanism of super-hard nanoscale Cu/Al multilayers with negative enthalpy of mixing, APL Materials, 2016, 4: 096102. (SCI, 影响因子3.819).

33.     Q. Zhou, Y. Li, F. Wang, P. Huang, T. J. Lu, K. W. Xu, Length-scale-dependent deformation behavior of fcc/hcp Cu/Ru multilayer thin films, Materials Science and Engineering A, 2016, 667: 206-214. (SCI, 影响因子4.652).

34.     Y. Cui, O. Torrents Abad, F. Wang, P. Huang, T.J. Lu, K.W. Xu, J. Wang, Plastic Deformation Modes of CuZr/Cu Multilayers, Scientific Reports, 2016, 6: 23306. (SCI, 影响因子3.998).

35.     C. Gu, F. Wang, P. Huang, K.W. Xu, T.J. Lu, Structure-dependent size effects in CuTa/Cu nanolaminates, Materials Science and Engineering A, 2016, 658: 381-388. (SCI, 影响因子4.652).

36.     F Xue, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Structural inhomogeneity and strain rate dependent indentation size effect in Zr-based metallic glass, Materials Science and Engineering A, 2016, 655: 373-378. (SCI, 影响因子4.652).

37.     Q. Zhou, J.J. Li, F. Wang, P. Huang, K.W. Xu, T.J. Lu, Strain rate sensitivity of Cu/Ta multilayered films: Comparison between grain boundary and heterophase interface, Scripta Materialia, 2016, 111: 123-126, (SCI, 影响因子5.079).

38.     C. Gu, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Effects of Cu layers on the deformation behavior of CuTa/Cu multilayer thin films, Materials Science and Engineering A, 2016, 649: 9-17, (SCI, 影响因子4.652).

39.     C.F. Ma, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Hillock growth in CuZr metallic glass, Thin Solid Films, 2015, 589: 681-685, (SCI, 影响因子2.030).

40.     C. Gu, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Altering strength and plastic deformation behavior via alloying and laminated structure in nanocrystalline metals, Materials Science and Engineering A, 2015, 640: 24-32, (SCI, 影响因子4.652).

41.     Y. Cui, P. Huang, F. Wang, T.J. Lu, K.W. Xu, The hardness and related deformation mechanisms in nanoscale crystalline-amorphous multilayers, Thin Solid Films, 2015, 584: 270-276, (SCI, 影响因子2.030).

42.     Q. Zhou, J. Zhao, J.Y. Xie, F. Wang, P. Huang, T.J. Lu, K.W Xu, Grain size dependent strain rate sensitivity in nanocrystalline body-centered cubic metal thin films, Materials Science and Engineering A, 2014, 608: 184-189, (SCI, 影响因子4.652).

43.     Q. Zhou, F. Wang, P. Huang, K.W. Xu, Strain rate sensitivity and related plastic deformation mechanism transition in nanoscale Ag/W multilayers, Thin Solid Films, 2014, 571: 253-259, (SCI, 影响因子2.030).

44.     Z.Q. Chen, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Low-Temperature Annealing Induced Amorphization in Nanocrystalline NiW Alloy Films, Journal of Nanomaterials, 2013, Article ID: 252965, (SCI, 影响因子1.980).

45.     J. Zhao, F. Wang, P. Huang, T.J. Lu, K.W. Xu, Depth dependent strain rate sensitivity and inverse indentation size effect of hardness in body-centered cubic nanocrystalline metals, Materials Science and Engineering A, 2014, 615: 87-91, (SCI, 影响因子4.652).

46.     J.Y. Xie, P. Huang, F. Wang, Y. Li, K.W. Xu, Shear banding behavior in nanoscale Al/W multilayers, Surface and Coatings Technology, 2013, 228: S593-S596, (SCI, 影响因子3.784).

47.     F. Wang, B. Li, T. T. Gao, P. Huang, K.W. Xu, T.J. Lu, Activation volume and strain rate sensitivity in plastic deformation of nanocrystalline Ti, Surface and Coatings Technology, 2013, 228: S254-S256, (SCI, 影响因子3.784).

48.     F. Wang, J.M. Li, P. Huang, W. Wang, T.J. Lu, K.W. Xu, Nanoscale creep deformation in Zr-based metallic glass, Intermetallics, 2013, 38: 156-160, (SCI, 影响因子3.398).

49.     F. Wang, L.F. Zhang, P. Huang, J.Y. Xie, T.J. Lu, K.W. Xu, Microstructure and Flow Stress of Nanoscale Cu/Nb Multilayers, Journal of Nanomaterials, 2013, Article ID: 912548, (SCI, 影响因子1.980).

50.     F. Wang, J. Zhao, P. Huang, A.S. Schneider, T.J. Lu, K.W. Xu, Effects of Free Surface and Heterogeneous Residual Internal Stress on Stress-Driven Grain Growth in Nanocrystalline Metals, Journal of Nanomaterials, 2013, Article ID: 934986, (SCI, 影响因子1.980).

51.     J.Y. Xie, F. Wang, P. Huang, T.J. Lu, L.F. Zhang, K.W. Xu, Structure Transformation and Coherent Interface in Large Lattice-Mismatched Nanoscale Multilayers, Journal of Nanomaterials, 2013, Article ID: 959738, (SCI, 影响因子1.980).

52.     P. Huang, F. Wang, M. Xu, T. J. Lu, K. W. Xu, Strain rate sensitivity of unequal grained nano-multilayers, Materials Science & Engineering A, 2011, 528: 5908-5013, (SCI, 影响因子4.652).

53.     F. Wang, P. Huang, M Xu, T.J. Lu, K.W. Xu, Shear banding deformation in Cu/Ta nano-multilayers, Materials Science & Engineering A, 2011, 528: 7290-7294, (SCI, 影响因子4.652).

54.     P. Huang, F. Wang, M. Xu, K. W. Xu, T. J. Lu, Dependence of strain rate sensitivity upon deformed microstructures in nanocrystalline Cu, Acta Materialia, 2010, 58: 5196-5205, (SCI, 影响因子7.656).

55.     P. Huang, G. Q. Dai, F. Wang, K. W. Xu, Y. H. Li, Fivefold annealing twin in nanocrystalline Cu, Applied physics letters, 2009, 95: 203101, (SCI, 影响因子3.597) .

1.  J. Zhu, P. Huang, F. Wang, Strength and plasticity of nanoscale crystalline/amorphous Cu/CuZr multilayers, the 9th International Conference on Advanced Materials Research, (ICAMR 2019), 2019/01/24-2019/01/27, 新加坡。

2.  X.Z. Wei, P. Huang, F. Wang, Strengthening nanoscale Cu/Al multilayers via annealing induced interface alloying, the 7th International Conference on Nano and Materials Science (ICNMS 2019), 2019/01/04-2019/01/07，美国旧金山。

3.  S. Zhang, P. Huang, F. Wang, Interface Structure Dependent Incipient Plasticity of Graphene/Cu Nanomultilayers,the 13th World Congress on Computational Mechanics, 2018/07/22-2018/07/27, 美国纽约。

4.  S. Li, P. Huang, F. Wang, The atomistic mechanism of β relaxation processes in  metallic glasses, the 13th World Congress on Computational Mechanics, 2018/07/22-2018/07/27, 美国纽约。

5.  魏雪姿，黄平，王飞，Cu/Al纳米多层膜界面合金化的强化机制，中国材料大会2018，2018/07/12-2018/07/16, 中国厦门。

6.  T. Guo, F. Wang, P. Huang, Effects of Strain gradient across the amorphous-crystalline interface on the hardness and strain rate sensitivity of dual-phase nanostructuring, The 6th International Conference on Nanostructures, Nanomaterials and Nanoengineering, 2017/10/26-2017/10/29, 日本东京。

7.  C.F. Ma, F. Wang, P. Huang, Enhanced Shear Banding Behavior in Metallic Glass Film with Structure Relaxation, The 6th International Conference on Nanostructures, Nanomaterials and Nanoengineering, 2017/10/26-2017/10/29, 日本东京。

8.  Z.Q. Chen, P. Huang, K.W. Xu, F. Wang, T.J. Lu, β relaxation related bright bands in thin film metallic glasses: localized percolation of flow units captured via transmission electron microscope, EMN Meeting on Metallic Glasses, 特邀报告，2017/08/07-2017/08/11, 德国柏林。

9.  J. Zhao, F. Wang, P. Huang, Indentation size effect and loading strain rate dependence on creep deformation in nanocrystalline Mo, 2017 7th International Conference on Key Engineering Materials, 2017/3/11-2017/3/13, 马来西亚槟城。

10.  S. Li, F. Wang, P. Huang, The effects of amorphous/ amorphous interface on the deformation mode transition, 2017 7th International Conference on Key Engineering Materials, 2017/3/11-2017/3/13, 马来西亚槟城。

11.  Z.Q. Chen, Wang F, Huang P, Plasticity enhancement and the elevated resistance of annealing-induced embrittlement in bulk metallic glass by surface coating with crystalline W films, The 23rd International Symposium on Metastable, Amorphous and
Nanostructured Materials, 2016/7/3-2016/7/8, 日本奈良。

12.  L.L. Miao, F. Wang, P. Huang, Microstructure evolution of amorphous ZrCuNiAlSi/Ag composite, The 2014World Congress on Advances in Civil, Environmental & Materials Research, 2014/8/24-2014/8/28, 韩国釜山。

13.  Y. Cui, F. Wang, P. Huang, Length-scale dependent weakening and strengthening effects in nanoscale, The 7th International Conference on Technological Advances of Thin Films crystalline-amorphous multilayer & Surface Coatings, 2014/7/15-2014/7/18, 中国成都。

14.  Z.Q. Chen, F. Wang, P. Huang , Low temperature annealing induced amorphization and its effects on mechanical properties in nanocrystalline NiW films ，The 7th International Conference on Technological Advances of Thin Films & Surface Coatings, 2014/7/15-2014/7/18, 中国成都。

15.  赵婧,王飞,黄平, Creep deformation mechanism of nanocrystalline body-centered cubic metals ，2013国际先进材料大会, 2013/9/22-2013/9/28, 2013/9/22, 中国青岛。

16.  石晓燕, 王飞, 黄平, Effect of stacking fault energy on mechanical properties in nanocrystalline Cu and CU-Al alloy, 2013国际先进材料大会, 2013/9/22-2013/9/28, 中国青岛。

17.  苗蕾蕾,王飞,黄平, Hardness and strain rate sensitivity of nanoscale metallic-glass/crystalline multilayers, 2013国际先进材料大会, 2013/9/22-2013/9/28, 中国青岛。

18.  F. Xue, F. Wang, P. Huang, Length-scale- and strain-rate-dependent shear banding deformation in nanoscale amorphous/crystalline multilayers ，Nanoscale Multilayers, 2013, 2013/10/1-2013/10/4, 西班牙马德里。

19.  Y. Li, F. Wang, P. Huang, Length scale and strain rate dependent shear banding deformation in nanoscale Cu/W multilayers，The 2013 World Congress on Advances in Structural Engineering and Mechanics, 2013/9/8-2013/9/12, 韩国济州岛。

20.  Xie, J.Y. Huang, P. Wang, F. and Xu, K. W. (2010): Stabilization of microstructural morphology in Al/Ta nano-multilayers. The 9th International Symposium of nanotechnology at Xi’an, Nov 15-19, 2010 (in China).

21.  Wang, F., Huang, P., Xu, M. and Lu, T. J. (2010): Deformation kinetics of nanoscale Cu/Ta Multilayers, Proceedings of the ASME 2010 International Mechanical Engineering Congress & Exposition at Vancouver, November 12-18, 2010 (in Canada).

22.  Wang, F. and Huang, P. (2010): Interpretation of size effect of nanoindentation creep by evaluating strain rate sensitivity and activation volume. The 2ndInternational Conference on Nanomechanics and Nanocomposites at Beijing, Oct 10-13, 2010 (In China).

23.  Huang, P. and Wang, F. (2010): Strain rate dependent hardness decreasing in nanocrystalline copper. The 2nd International Conference on Nanomechanics and Nanocomposites at Beijing, Oct 10-13, 2010 (In China).

24.  Xie, J. Y., Huang, P., Wang, F. And Xu, K.W. (2010): An investigation of interface structure of nanoscale Al/W multilayers by transmission electron microscopy. The 2nd International Conference on Nanomechanics and Nanocomposites at Beijing, Oct 10-13, 2010 (In China).

25.  Li, B., Wang, F. and Lu, T.J. (2009): Deformation kinetics in nanocrystalline titanium. International Conference on Nanoscience and Technology (ChinaNANO 2009) at Beijing, September 1-3, 2009 (in China).

26.  Yan, L.L., Wang, F. and Lu, T.J. (2009): Ligament-size dependent yield strength of nanoporous gold. International Conference on Nanoscience and Technology (ChinaNANO 2009) at Beijing, September 1-3, 2009 (in China).

27.  Dai, G.Q., Huang, P., Wang, F. and Xu, K.W. (2009): Characterization of Deforming Microstructures of Nanocrystalline Cu by in-situ High Resolution TEM, International Conference on Nanoscience and Technology (ChinaNANO 2009) at Beijing, September 1-3, 2009 (in China).

28.   Xu, M., Huang, P., Wang, F. and Xu, K.W. (2009): Nanoindentation behavior of Nanoscale Cu/Ta Multilayers, International Conference on Nanoscience and Technology (ChinaNANO 2009) at Beijing, September 1-3, 2009 (in China).

29.  Yan, L.L., Wang, F. and Lu, T.J. (2009): Indentation size effects in nano-porous Au. China Conference of Theoretical and Applied Mechanics 2009 (CCTAM2009) at Zhengzhou, Aug 24-26, 2009 (in China).

30.  Xu, W., Yang, J.S., Wang, F. and Lu, T.J. (2009): The ductility of polymer membrane-based metal films with Roughed interface. China Conference of Theoretical and Applied Mechanics 2009 (CCTAM2009) at Zhengzhou, Aug 24-26, 2009 (in China).

31.  Wang, F., Huang, P. and Lu, T. J. (2009): Microstructure evolution dependent strain rate sensitivity in nanocrystalline Cu. China Conference of Theoretical and Applied Mechanics 2009 (CCTAM2009) at Zhengzhou, Aug 24-26, 2009 (in China).

32.  Dai, G.Q., Huang, P., Wang, F. and Xu, K.W. (2009): Grain size and film thickness dependent strength mechanism in metal films. China Conference of Theoretical and Applied Mechanics 2009 (CCTAM2009) at Zhengzhou, Aug 24-26, 2009 (in China).

33.  Xu, K.W., Li, Y.H. and Wang. F. (2001): Aspects of residual stress and its through-depth distribution after shot peening in a surface layer. International Symposium of Young Scholars on Mechanics and Material Engineering for Science and Experiments at Changsha, Aug 11-16, 2001 (in China)

1. 黄平，王飞，徐可为，一种测试金属薄膜室温蠕变性能的方法，专利号ZL200510124587.8，授权日期：2009年7月8日

2. 黄平，许明，王飞，徐可为 ，具有晶粒尺寸差异的Cu/Ta 纳米多层膜的制备方法，专利号： ZL 2009 1 0219558.8，授权日期：2011年11月16日

3. 黄平，戴广乾，王飞、徐可为，一种同质多层纳米金属薄膜材料的制备方法，专利号： ZL 2009 1 0219553.5，授权日期：2012年7月4日

4. 王飞，黄平，卢天健，徐可为，力/热/电/磁多场耦合下测试金属薄膜失效行为的装置，专利号： ZL 2010 1 0572438.9，授权日期：2013年2月6日

5. 黄平，谢继阳，王飞，乐薇，徐可为，一种共格/半共格结构的Al/W多层薄膜制备方法，专利号： ZL 2011 1 0340169.8，授权日期：2013年7月10日

6. 黄平，王飞，李家梅，徐可为，一种采用共溅射法制备非晶-纳米晶复合薄膜的方法，专利号： ZL 2013 1 0126019.6，授权日期：2015年8月26日

7. 王飞，黄平，王文龙，一种制备非晶/纳米晶多层结构薄膜的方法，专利号： ZL 2012 1 0419017.1，授权日期：2015年1月7日

8. 黄平，王飞，陈自强，徐可为，一种采用低温退火制备非晶NiW合金薄膜的方法，专利号： ZL 2013 1 0563319.0，授权日期：2016年2月24日

9. 王飞，周青，黄平，徐可为，一种控制金属纳米Cu/Ru多层膜相结构的方法，专利号： ZL 2015 1 0043957.9，授权日期：2017年2月1日

10. 黄平，周青，王飞，徐可为，一种评价Cu系金属纳米多层膜材料附着性能的方法，专利号： ZL 2015 1 0044188.4，授权日期：2017年6月6日

11. 黄平，周青，王飞，徐可为，一种塑性金属纳米Cu/Ru多层膜的制备方法，专利号： ZL 2015 1 0044189.9，授权日期：2017年4月26日

12. 王飞，顾超，黄平，一种层界面结构可控的CuNb/Cu纳米合金薄膜制备方法，专利号：ZL 2015 1 0044598.9，授权日期：2018年1月19日