Patent

沙振东,滕云,刘子顺,王铁军。一种具有手性微结构的金属玻璃超材料,中国发明专利,专利号:ZL201710335249.1,授权日:2018.03.16。

沙振东,张超,张家宬。一种多层非晶合金结构及其用于防护装备的编织方法,中国发明专利,专利号:ZL201811057852.9,授权日:2020.10.27。

秦庆华,李凯凯,张威,王少明,沙振东,雷建平。一种分离式霍普金斯扭杆蓄能与释放装置及操作方法,中国发明专利,专利号:ZL201810442947.6,授权日:2020.04.28。

沙振东,滕云,张家宬,林伟辉。一种具有褶皱结构的金属玻璃超材料,中国发明专利,专利号:ZL202010202195.3,授权日:2020.11.26。

沙振东,林伟辉,滕云。非晶合金榫卯结构,中国发明专利, 专利号:ZL202110893500.2,授权日:2022.08.26。

沙振东,滕云。一种具有波浪结构的金属玻璃复合材料,中国发明专利,专利号:ZL202110893512.5,授权日:2022.12.09。

沙振东,林伟辉。一种采用非晶合金的催化滤芯及净化装置,中国发明专利,申请号:202211537496.7,申请日:2022.12.01。

沙振东,宋甲本。一种非晶合金催化废水的固液分离与废气收集智能装置,中国发明专利,申请号:202310437160.1,申请日:2023.04.21。

Chinese Paper

 沙振东, 滕云, 刘子顺, 王铁军, 金属玻璃的微观结构、增韧与疲劳问题研究进展, 固体力学学报 39 (2018) 333-374.

English Paper

  1. Y. Chen, J. C. Zhang, P. S. Branicio, Z. D. Sha*(Corresponding author), Mechanical properties of heterogeneous metallic glasses: Insights from brick-and-mortar designs. Thin–Walled Structures 193 (2023) 111298.
  2. J. B. Song, Y. H. Zhang, Y. F. Li, J. C. Zhang, X. Liang, Z. D. Sha*(Corresponding author), Removal of nitrate by FeSiBC metallic glasses: high efficiency and superior reusability. Physical Chemistry Chemical Physics 25 (2023) 32151-32157.
  3. S. Li, Y. Yu, P. S. Branicio, Z. D. Sha*(Corresponding author), Effects of rejuvenation modes on the microstructures and mechanical properties of metallic glasses. Materials Today Communications 36 (2023) 106493.
  4. A. N. Zhu, H. Gu, W. Li, J. F. Liao, J. M. Xia, C. Liang, G. X. Sun, Z. D. Sha*(Corresponding author), G. C. Xing, Synergistic passivation with phenylpropylammonium bromide for efficient inverted perovskite solar cells. Small Methods (2023) 2300428.
  5. Y. X. Zhang, S. J. Xie, W. Guo, J. Ding, L. H. Poh, Z. D. Sha*(Corresponding author), Multi-objective optimization for high-performance Fe-based metallic glasses via machine learning approach. Journal of Alloy and Compounds 960 (2023) 170793.
  6. H. Li, J. C. Zhang, P. S. Branicio, Z. D. Sha*(Corresponding author)Composition-dependent fracture energy in metallic glasses. Physical Review Materials 7 (2023) 035602.
  7. K. K. Li, Q. H. Qin, T. N. Cui, Q. G. Han, J. X. Peng, Z. D. Sha, W. Zhang, Soft impact of GLARE fiber metal laminates. International Journal of Impact Engineering 178 (2023) 104607.
  8. S. Li, W. H. Lin, Y. Teng, Z. D. Sha*(Corresponding author)A criterion of rejuvenation of metallic glasses based on chemical composition. Materials Letters 334 (2023) 133755.
  9. Z. D. Sha, Y. Teng, L. H. Poh, T. J. Wang, H. J. Gao, Shear band control for improved strength-ductility synergy in metallic glasses. Applied Mechanics Reviews 74 (2022) 050801.
  10. Y. Teng, Z. D. Sha*(Corresponding author)Uncovering the inherent size dependence of yield strength and failure mechanism in micron-Sized metallic glass. Materials 15 (2022) 6362.
  11. Y. Shi, Z. D. Sha, S. H. Xu, Y. H. Zhang, G. Y. Su, B. Li, Y. Q. Liu, Compact functional elastic waveguides based on confined mode. Extreme Mechanics Letters (2022) 101919.
  12. Y. Chen, J. Ding, Z. D. Sha*(Corresponding author), Grain size and heterophase effects on mechanical properties of Mg-Cu nanoglasses, Frontiers in Materials 9 (2022) 908952.
  13. W. H. Lin, C. M. She, C. Y. Zhang, P. S. Branicio, Z. D. Sha*(Corresponding author), Tuning the mechanical properties of cellular metallic glasses, International Journal of Plasticity 156 (2022) 103373.
  14. H. Li, C. G. Jin, Z. D. Sha*(Corresponding author), The effect of pressure-promoted thermal rejuvenation on the fracture energy of metallic glasses, Journal of Non-Crystalline Solids 590 (2022) 121674.
  15. Y. Song, M. Y. Chai, J. N. Lv, Z. L. Han, P. Liu, H. Q. Yan, Z. D. Sha*(Corresponding author), Creep rupture behavior of 2.25Cr1Mo0.25V steel and weld for hydrogenation reactors under different stress levels, Reviews on Advanced Materials Science 61 (2022) 334–349.
  16. Y. H. Zhang, Z. D. Sha, G. Y. Su, H. Zhou, P. Jiang, Y. Q. Liu, B. Li, T. J. Wang, Ultra-compact metafence to block and channel mechanical waves, Extreme Mechanics Letters 52 (2022) 101659.
  17. Y. Teng, Y. Song, S. J. Xie, Z. D. Sha*(Corresponding author), On the deformation and failure mechanisms of hydrogen alloyed metallic glasses, Journal of Applied Physics 131 (2022) 085104.
  18. H. Li, Q. X. Pei, Z. D. Sha*(Corresponding author), P. S. Branicio, Intrinsic and extrinsic effects on the fracture toughness of ductile metallic glasses, Mechanics of Materials 162 (2021) 104066.
  19. Y. Song, Y. Teng, Z. D. Sha*(Corresponding author), Hydrogen induced cracking in metallic glasses, Journal of Applied Physics 130 (2021) 235101.
  20. Y. X. Zhang, G. C. Xing, Z. D. Sha*(Corresponding author), L. H. Poh,  A two-step fused machine learning approach for the prediction of glass-forming ability of metallic glasses, Journal of Alloys and Compounds 875 (2021) 160040.
  21. K. F. Guo, J. C. Zhang, Z. D. Sha*(Corresponding author), Q. X. Pei, Composition-dependent effects of oxygen on atomic structure and mechanical properties of metallic glasses, Physical Chemistry Chemical Physics 23 (2021) 1335-1342.
  22. S. Li, J. C. Zhang, Z. D. Sha*(Corresponding author), Mechanical behavior of metallic glasses with pressure-promoted thermal rejuvenation, Journal of Alloys and Compounds 848 (2020) 156597.
  23. Z. D. Sha, W. H. Lin, L. H. Poh, G. C. Xing, Z. S. Liu, T. J. Wang, H. J. Gao, Fatigue of metallic glasses, Applied Mechanics Reviews 72 (2020) 050801.
  24. W. H. Lin, Y. Teng, Z. D. Sha*(Corresponding author), S. Y. Yuan, P. S. Branicio, Mechanical properties of nanoporous metallic glasses: Insights from large-scale atomic simulations, International Journal of Plasticity 127 (2020) 102657.
  25. Y. Y. Zhang, Q. X. Pei, Z. D. Sha, Y. W. Zhang, A molecular dynamics study of the mechaical properties of h-BCN monolayer using a modified Tersoff interatomic potential, Physics Letters A 383 (2019) 2821-2827.
  26. Z. D. Sha, Y. Teng, L. H. Poh, Q. X. Pei, G. C. Xing, H. J. Gao, Notch strengthening in nanoscale metallic glasses, Acta Materialia 169 (2019) 147-154.
  27. C. Liang, D. D. Zhao, P. W. Li, B. Wu, H. Gu, J. C. Zhang, T. W. Goh, S. Chen, Y. H. Chen, Z. D. Sha*(Corresponding author), G. S. Shao, T. C. Sum, G. C. Xing, Simultaneously boost diffusion length and stability of perovskite for high  performance solar cells, Nano Energy 59 (2019) 721-729.
  28. Q. L. Xiong, Z. D. Sha, Q. X. Pei, T. kitamura, Z. H. Li, Thermal damage and ablation behavior of graphene induced by ultrafast laser irradiation, Journal of Thermal Stresses 41 (2018) 1153-1168.
  29. Z. D. Sha, Q. X. Pei, K. Zhou, Z. L. Dong, Y. W. Zhang, Temperature and strain-rate dependent mechanical properties of single-layer borophene, Extreme Mechanics Letters 19 (2018) 39-45.
  30. Z. D. Sha, C. M. She, G. K. Xu, Q. X. Pei, Z. S. Liu, T. J. Wang, H. Gao, Metallic glass based chiral nanolattice: light-weight, auxeticity, and superior mechanical properties, Materials Today 20 (2017) 569-576.
  31. T. Huang, C. Jin, Y. Yang, L. Zhuge, X. Wu, Z. Sha, One-step synthesis of silicon oxynitride films using a steady-state and high-flux helicon-wave excited nitrogen plasma, Plasma chemistry and plasma processing 37 (2017)1237-1247.
  32. Z. D. Sha, W. H. Wong, Q. X. Pei, P. Branicio, Z. S. Liu, T. J. Wang, T. F. Guo, H. Gao, Atomistic origin of size effects in fatigue behavior of metallic glasses, Journal of the Mechanics and Physics of Solids 104 (2017) 84-95.
  33. Y. Y. Zhang, Q. X. Pei, Z. D. Sha, Y. W. Zhang, H. J. Gao, Remarkable enhancement in failure stress and strain of penta-graphene via chemical functionalization, Nano Research 10 (2017) 3865-3874.
  34. Z. D. Sha, Q. X. Pei, Q. Wan, Z. S. Liu, Failure mechanism of phosphorene by nanoindentation, The Journal of Physical Chemistry C 121 (2017) 4708-4713.
  35. Z. D. Sha, P. Branicio, H. P. Lee, T. E. Tay, Strong and ductile nanolaminate composites combining metallic glasses and nanogalsses, International Journal of Plasticity 90 (2017) 231-241.
  36. J. C. Zhang, C. Chen, Q. X. Pei, Q. Wan, W. X. Zhang, Z. D. Sha*(Corresponding author), Deformation and failure mechanisms of nanoscale celluar structures of metallic glasses, RSC Advances 6 (2016) 100899-100907.
  37. Z. D. Sha, Q. X. Pei, Y. Y. Zhang, Y. W. Zhang, Atomic vacancies significantly degrade the mechanical properties of phosphorene, Nanotechnology 27 (2016) 315704.
  38. Z. D. Sha, S. X. Qu, Z. S. Liu, T. J. Wang, H. Gao, Cyclic deformation in metallic glasses, Nano Letters 15 (2015) 7010-7015. 
  39. Z. D. Sha, P. S. Branicio, Q. X. Pei, Z. S. Liu, H. P. Lee, T. E. Tay,T. J. Wang, Strong and superplastic nanoglass, Nanoscale 7 (2015) 17404. 
  40. S. Xu, Q. Wan, Z. D. Sha*(Corresponding author), Z. S. Liu, Molecular dynamics simulations of nano-indentation and wear of the Ti-Al alloy, Computational Materials Science 110 (2015) 247-253.
  41. Z. D. ShaQ. X. Pei, Z. W. Ding, J. W. Jiang, Y. W. Zhang, Mechanical properties and fracture behavior of single-layer phosphorene at finite temperatures, Journal of Physics D: Applied Physics 48 (2015) 395303.
  42. T. Guo, Z. D. Sha, X. Liu, G. Zhang, T. Guo, Q. X. Pei, Y. W. Zhang, Tuning the thermal conductivity of multi-layer graphene with interlayer bonding and tensile strain, Applied Physics A 120 (2015) 1275-1281. 
  43. Z. D. Sha, Q. X. Pei, Z. S. Liu, Y. W. Zhang, T. J. Wang, Necking and notch strengthening in metallic glass with symmetric sharp-and-deep notches, Scientific Reports 5 (2015) 10797.
  44. L. C. Bai, Z. D. Sha, N. Srikanth, Q. X. Pei, X. Wang, D. Srolovitz, K. Zhou, Friction between silicon and diamond at the nanoscale, Journal of Physics D: Applied Physics 48 (2015) 255303.
  45. J.C. Zhang, C. Chen, Q.X. Pei, Q. Wan, W.X. Zhang, Z. D. Sha*(Corresponding author), Ab initio molecular dynamics study of the local atomic structures in monatomic metallic liquid and glass, Materials and Design 77 (2015) 1-5.
  46. M. X. Shi, Q. H. Kan, Z. D. Sha, G. Z. Kang, The edge-related mechanical properties of fluorographene nanoribbons, Journal of Applied Mechanics 82 (2015) 041007
  47. M. Q. Chen, S. S. Quek, Z. D. Sha, C. H. Chiu, Q. X. Pei, Y. W. Zhang, Effects of grain size, temperature and strain rate on the mechanical properties of polycrystalline graphene – A molecular dynamics study, Carbon 85 (2015) 135-146.
  48. Z. D. Sha, Q. X. Pei, Ab initio study on the electronic origin of glass-forming ability in the binary Cu-Zr and the ternary Cu-Zr-Al(Ag) metallic glasses, Journal of Alloys and Compounds 619 (2015) 16–19.
  49. P. H. Wu, S. S. Quek, Z. D. Sha, Z. L. Dong, X. J. Liu, G. Zhang, Y. W. Zhang, Thermal transport behavior of polycrystalline graphene: A molecular dynamics study, Journal of Applied Physics 116 (2014) 204303.
  50. Z. D. Sha, Q. Wan, Q. X. Pei, S. S. Quek, Z. S. Liu, Y. W. Zhang, V. Shenoy, On the failure load and mechanism of polycrystalline graphene by nanoindentation, Scientific Reports 4 (2014) 7437.
  51. Z. D. Sha, L. C. He, S. Xu, Q. X. Pei, Z. S. Liu, Y. W. Zhang, T. J. Wang, Effect of aspect ratio on the mechanical properties of metallic glasses, Scripta Materialia 93 (2014) 36-39.
  52. Z. D. Sha, S. S. Quek, Q. X. Pei, Z. S. Liu, T. J. Wang, V. B. Shenoy, Y. W. Zhang, Inverse Pseudo Hall-Petch Relation in Polycrystalline Graphene. Scientific Reports 4 (2014) 5991.
  53. N. N. Li, Z. D. Sha, Q.X.Pei, Y.W.Zhang, Hydrogenated Grain Boundaries Control the Strength and Ductility of Polycrystalline Graphene, The Journal of Physical Chemistry C 118 (2014) 13769−13774.
  54. Z. D. Sha, L. C. He, Q. X. Pei, Z. S. Liu, Y. W. Zhang, T. J. Wang, The mechanical properties for the sandwiched structure nanoglass/metallic glass/nanoglass, Scripta Materialia 83 (2014) 37–40.
  55. Z. D. Sha, L. C. He, Q. X. Pei, H. Pan, Z. S. Liu, Y. W. Zhang, T. J. Wang, On the notch sensitivity of CuZr nanoglass, Journal of Applied Physics 115 (2014) 163507.
  56. L. C. He, S. S. Guo, J. C. Lei, Z. D. Sha, Z. S. Liu, The effect of Stone-Thrower-Wales defects on mechanical properties of graphene sheets-a molecular dynamics study, Carbon, 75 (2014), 124-132.
  57. L. Dai, V. Sorkin, Z. D. Sha, Q. X. Pei, P. S. Branicio, Y. W. Zhang, Molecular Dynamics Simulations on the Frictional Behavior of a Perfluoropolyether Film Sandwiched between Diamond-like-carbon Coatings, Langmuir 30(2014) 1573-1579.
  58. Z. D. Sha, Q. X. Pei, Z. S. Liu, V. B. Shenoy, Y. W. Zhang, Is the failure of large-area polycrystalline graphene notch sensitive or insensitive? Carbon 72 (2014) 200–206.
  59. A. S. H. Lee, K. Li, Y. W. Zhang, Z. D. Sha, H. Pan, Ab initio study on the effects of dopant-defect cluster on the electronic properties of TiO2-based photocatalysts, International Journal of Hydrogen Energy 39 (2014) 2049-2055.
  60. Q. X. Pei, Z. D. Sha, Y. Y. Zhang, Y. W. Zhang, Effects of temperature and strain rate on the mechanical properties of silicone, Journal of Applied Physics 115 (2014) 023519.
  61. A. Sara, Z. D. Sha*(Corresponding author), P. S. Branicio, Z. S. Liu, Y. W. Zhang, A transition from localized shear banding to homogeneous superplastic flow in nanoglass, Applied Physics Letters 103 (2013) 211905.
  62. J. Y. Zhang, Z. D. Sha, P. S. Branicio, Y. W. Zhang, V. Sorkin, Q. X. Pei, D. J. Srolovitz, Superplastic nanocrystalline ceramics at room temperature and high strain rates, Scripta Materialia  69 (2013) 525-528.
  63. V. Sorkin, Z. D. Sha, P. S. Branicio, Q. X. Pei, and Y. W. Zhang, Atomistic Molecular Dynamics Study of Structural and Thermomechanical Properties of Zdol Lubricants on Hydrogenated Diamond-Like Carbon, IEEE Transactions on Magnetics 49 (2013) 5227-5235.
  64. Z. D. Sha, Q. X. Pei, V. Sorkin, P. S. Branicio, Y. W. Zhang, H. Gao, On the notch sensitivity of CuZr metallic glasses, Applied Physics Letters 103 (2013) 081903.
  65. Z. D. Sha, V. Sorkin, P. S. Branicio, Q. X. Pei, Y. W. Zhang, D. J. Srolovitz, Large-scale molecular dynamics simulations of wear in diamond-like carbon at the nanoscale, Applied Physics Letters 103 (2013) 073118.
  66. Q. X. Pei, Y. W. Zhang, Z. D. Sha, V. B. Shenoy, Tuning the thermal conductivity of silicene with tensile strain and isotopic doping: A molecular dynamics study, Journal of Applied Physics 114 (2013) 033526.
  67. S. K. D. Nath, C. H. Wong. V. Sorkin, Z. D. Sha, Y. W. Zhang, S. G. Kim, Study of the Spreading of Perfluoropolyether Lubricants on a Diamond-Like Carbon Film, Tribology Transactions 56 (2013) 255-267.
  68. Z. D. Sha, P. S. Branicio, Q. X. Pei, V. Sorkin, Y. W. Zhang, A modified Tersoff potential for pure and hydrogenated diamond-like carbon, Computational Materials Science 67 (2013) 146–150.
  69. Z. D. Sha, H. Pan, Q. X. Pei, Y. W. Zhang, The nature of the atomic-level structure in the Cu-Zr binary metallic glasses, Intermetallics 26 (2012) 8-10.
  70. Q. X. Pei, Y. W. Zhang, Z. D. Sha, V. B. Shenoy, Carbon isotope doping induced interfacial thermal resistance and thermal rectification in graphene, Applied Physics Letters 100 (2012) 101901.
  71. Z. D. Sha, P. S. Branicio, V. Sorkin, Q. X. Pei, Y. W. Zhang, Effects of grain size and temperature on mechanical and failure properties of ultrananocrystalline diamond, Diamond and Related Materials 20 (2011) 1303-1309.
  72. Q. X. Pei, Z. D. Sha, Y. W. Zhang, A theoretical analysis of the thermal conductivity of hydrogenated graphene, Carbon 49 (2011) 4752-4759.
  73. Z. D. Sha, Y. W. Zhang, Y. P. Feng, Y. Li, Molecular dynamics studies of short to medium range order in Cu64Zr36 metallic glass, Journal of Alloys and Compounds 509 (2011) 8319-8322.
  74. Z. D. Sha, Y. P. Feng, Y. Li, The fundamental structural factor in determining the glass-forming ability and mechanical behavior in the Cu-Zr metallic glasses, Materials Chemistry and Physics 127 (2011) 292-295.
  75. B. Xu, Y. H. Lu, Z. D. Sha, Y. P. Feng, J. Y. Lin, Coupling of magnetic edge states in Li-intercalated bilayer and multilayer zigzag graphene nanoribbons, EPL 94 (2011) 27007.
  76. Z. D. Sha, B. Xu, L. Shen, A. H. Zhang, Y. P. Feng, Y. Li, The basic polyhedral clusters, the optimum glass formers, and the composition-structure-property (glass-forming ability) correlation in Cu-Zr metallic glasses, Journal of Applied Physics 107 (2010) 063508.
  77. Z. D. Sha, Y. P. Feng, Y.  Li, Statistical composition-structure-property correlation and glass-forming ability based on the full icosahedra in Cu-Zr metallic glasses, Applied Physics Letters 96 (2010) 061903.
  78. M. G. Zeng, L. Shen, Y. Q. Cai, Z. D. Sha, Y. P. Feng, Perfect spin-filter and spin-valve in carbon atomic chains, Applied Physics Letters 96 (2010) 042104.
  79. Y. H. Lu, R. Q. Wu, L. Shen, M. Yang, Z. D. Sha, Y. Q. Cai, P. M. He, Y. P. Feng, Effects of edge passivation by hydrogen on electronic structure of armchair graphene nanoribbon and band gap engineering, Applied Physics Letters 94 (2009) 122111.
  80. Z. D. Sha, R. Q. Wu, Y. H. Lu, L. Shen, M. Yang, Y. Q. Cai, Y. P. Feng, Y.  Li, Glass forming abilities of binary Cu100-xZrx (34, 35.5, and 38.2 at. %) metallic glasses: A LAMMPS study, Journal of Applied Physics 105 (2009) 043521.
  81. M. Yang, R. Q. Wu, W. S. Deng, L. Shen, Z. D. Sha, Y. Q. Cai, Y. P. Feng, S. J. Wang, Electronic structures of beta-Si3N4(0001)/Si(111) interfaces: Perfect bonding and dangling bond effects, Journal of Applied Physics 105 (2009) 024108.
  82. L. Shen, R. Q. Wu, H. Pan, G. W. Peng, M. Yang, Z. D. Sha, Y. P. Feng, Mechanism of ferromagnetism in nitrogen-doped ZnO: First-principle calculations, Physical Review B 78 (2008) 073306.
  83. C. G. Jin, X. M. Wu, L. J. Zhuge, Z. D. Sha, B. Hong, Electric and magnetic properties of Cr-doped SiC films grown by dual ion beam sputtering deposition, Journal of Physics D-Applied Physics 41 (2008) 035005.
  84. R. Q. Wu, L. Shen, M. Yang, Z. D. Sha, Y. Q. Cai, Y. P. Feng, Z. G. Huang, Q. Y. Wu, Enhancing hole concentration in AlN by Mg : O codoping: Ab initio study, Physical Review B 77 (2008) 073203.
  85. R. Q. Wu, L. Shen, M. Yang, Z. D. Sha, Y. Q. Cai, Y. P. Feng, Z. G. Huang, Q. Y. Wu, Possible efficient p-type doping of AlN using Be: An ab initio study, Applied Physics Letters 91 (2007) 152110.
  86. A. J. Chen, X. M. Wu, Z. D. Sha, L. J. Zhuge, Y. D. Meng, Structure and photoluminescence properties of Fe-doped ZnO thin films, Journal of Physics D-Applied Physics 39 (2006) 4762-4765.
  87. Z. D. Sha, Y. Yan, W. X. Qin, X. M. Wu, L. J. Zhuge, Structure and optical properties of the SiC/ZnO five-layer multi-layer on Si(111) substrate with a SiC buffer layer, Journal of Physics D-Applied Physics 39 (2006) 3240-3243.
  88. Z. D. Sha, X. M. Wu, L. J. Zhuge, Y. D. Meng, Initial study on the structure and photoluminescence properties of SiC films doped with Co, Physica E 35 (2006) 38-41.
  89. Z. D. Sha, X. M. Wu, L. J. Zhuge, The structure and optical properties of SiC film on Si(111) substrate with a ZnO buffer layer by RF-magnetron sputtering technique, Physics Letters A 355 (2006) 228-232.
  90. Z. D. Sha, J. Wang, Z. C. Chen, A. J. Chen, Z. Y. Zhou, X. M. Wu, L. J. Zhuge, Initial study on the structure and optical properties of ZnO film on Si(111) substrate with a SiC buffer layer, Physica E 33 (2006) 263-267.
  91. Z. D. Sha, X. M. Wu, L. J. Zhuge, Initial study on the structure and photoluminescence properties of SiC films doped with Al, Applied Surface Science 252 (2006) 4340-4344.
  92. Z. D. Sha, X. M. Wu, L. J. Zhuge, The structure and photoluminescence properties of SiC films doped with Al, Physics Letters A 346 (2005) 186-192.
  93. Z. D. Sha, X. M. Wu, L. J. Zhuge, Structure and photoluminescence properties of SiC films synthesized by the RF-magnetron sputtering technique, Vacuum 79 (2005) 250-254.