2014/03-至今，南京理工大学，材料科学与工程学院，教授

2007/12-2014/03，悉尼大学，航空、机械和机电工程学院，高级研究员

2004/03-2007/11，牛津大学，材料系，副研究员

2001/09-2004/03，牛津大学，材料系，博士后

1997/10 – 2002/06，牛津大学，材料系，博士，导师：Brian Cantor

1985/09 – 1988/01，东北大学，金属压力加工系，硕士，导师：白光润

1981/09 – 1985/07，东北大学，金属压力加工系，学士，导师：于淑娴

学会：

The International Field Emission Society, International Steering Committee Member （国际场发射学会国际指导委员会委员）

The Minerals, Metals & Materials Society (TMS), member.

期刊评审：

Science

Nature

Nature Materials

Nature Communications

Materials Research Letters

Acta Materialia

Scripta Materialia 

Materials Science and Engineering A

Materials Science and Engineering B

Journal of Alloys and Compounds 

Journal of Applied Physics

Ultramicroscopy

Materials and Design

Metallurgical and Materials Transactions A

Journal of Materials Science

Journal of Materials Research

 Journal of Nuclear Materials

已发表SCI论文160余篇，谷歌学术上已获引用9700余次，H因子为50。

2013-2019年发表的代表性论文包括：Science.(1)、Nature materials.(1)、Nature Commun.(3)、Adv. Mater.(1)、Acta Mater. (24)、Scripta Mater.(7)。

1. 1. Liu X, Sha G, Wu QL, Liang YJ, Huang JT, Jin K, Xue YF*,Wang BP, Wang LJ, Wang L, Wang FC, Fan QB, Xia ZH, “Phase stability of an high-entropy Al-Cr-Fe-Ni-V alloy with exceptional mechanical properties: First-principles and APT investigations”, Computational Materials Science, 2019, 170:109161.
   2. Zhao Y. S., Zhang J., Luo Y. S., Zhang B., Sha G, Li LF, Tang DZ, Feng Q., “Improvement of grain boundary tolerance by minor additions of Hf and B in a second generation single crystal superalloy”, Acta Mater, 2019, 176:109-122.
   3. Liu H, Wu X, Hu R, Sha G, Li Q, Xu B, Liu W, Shu G, “The microstructural characterization of NiSi-Rich sub-precipitates within cementite in isothermally aged reactor pressure vessel steel”, Metallurgical and Materials Transactions A 2019, 50 (9):3992-3999
   4. Guo XH, Zhang YD, Jin SB*, Hu R, Liu ZW, Zhang RQ, Sha G*, “Segregation and precipitation at grain boundaries of weathering steels without/with Sb addition”, Materials Chemistry and Physics, 2019, 236:121783
   5. Li JH*, An ZH, Hage FS, Wang H, Xie P, Jin S, Ramasse QM, Sha G*, “Solute clustering and precipitation in an Al–Cu–Mg–Ag–Si model alloy” , Materials Science and Engineering: A, 2019, 760:366-376
   6. Wang D. W., Zhou Y. H., Shen J., Liu Y., Li DF, Zhou Q, Sha G, Xu P, Ebel T, Yan M. , “Selective laser melting under the reactive atmosphere: A convenient and efficient approach to fabricate ultrahigh strength commercially pure titanium without sacrificing ductility”, Materials Science and Engineering: A, 2019,762: 138078
   7. Xue J, Jin S*, An X, Liao X, Li J, Sha G*, “Understanding formation of Mg-depletion zones in Al-Mg alloys under high pressure torsion” , Journal of Materials Science & Technology 2019,35 (5):858-864
   8. Zhang Y, Jin S*, Trimby P, Liao X, Murashkin MY, Valiev RZ, Sha G*, “Strengthening mechanisms in an ultrafine-grained AlZnMgCu alloy processed by high pressure torsion at different temperatures”, Materials Science and Engineering: A 2019, 752: 223-232
   9. Tang S, Xin T, Xu W, Miskovic D, Sha G, Quadir Z, Ringer S, Nomoto K, Birbilis N, Ferry M, “Precipitation strengthening in an ultralight magnesium alloy”, Nature communications 2019,10 (1):1003
   10. Guo M. X., Li G. J., Zhang Y. D., Sha G., Zhang J. S., Zhuang L. Z., Lavernia E. J., “Influence of Zn on the distribution and composition of heterogeneous solute-rich features in peak aged Al-Mg-Si-Cu alloys”,  Scripta Materialia, 2019, 159: 5-8
   11. Zhang Y, Jin S, Trimby P W, Liao X. Z, Murashkin M. Y, Valiev R. Z, Liu J, Cairney J. M., Ringer S. P, Sha G*, ‘Dynamic precipitation, segregation and strengthening of an Al-Zn-Mg-Cu alloy (AA7075) processed by high-pressure torsion’ Acta Mater 2019, 162:19-32.
   12. Guo M.X*., Zhang Y.D., Li G.J., Jin S.B, Sha G.^*, Zhang J.S. , Zhuang L.Z., Lavernia E.J.^*, ‘Solute clustering in Al-Mg-Si-Cu-(Zn) alloys during aging’, Journal of Alloys and Compounds, 2019,774:347-363.
   13. Guo MX, Zhang YD, Yuan B, Sha G, Zhang JS, Zhuang LZ, Lavernia EJ, “Influence of aging pathways on the evolution of heterogeneous solute-rich features in peak-aged Al-Mg-Si-Cu alloy with a high Mg/Si ratio”, Philosophical Magazine Letters 2019, 99 (2): 49-56
   14. Lv Y, Ding Z, Sun X, Li L, Sha G, Liu R, Wang L, “Gradient Microstructures and Mechanical Properties of Ti-6Al-4V/Zn Composite Prepared by Friction Stir Processing”, Materials 2019, 12 (17): 2795
   15. Yang PJ, Li QJ, Tsuru T, Ogata S, Zhang JW, Sheng HW, Shan ZW, Sha G, Han WZ, Li J, Ma E, “Mechanism of hardening and damage initiation in oxygen embrittlement of body-centred-cubic niobium”, Acta Mater, 2019, 168:331-342.
   16. Du C., Jin S., Fang Y., Li J., Hu S., Yang T, Zhang Y., Huang J., Sha G.*, Wang Y., Shang Z., Zhang X., Sun B., Xin S., and Shen T*.,“Ultrastrong nanocrystalline steel with exceptional thermal stability and radiation tolerance”Nature Communications, 2018， 9:5389. //doi.org/10.1038/s41467-018-07712-x.  
   17. Yang Z., Gu H., Sha G., Wang K.,  Lu W-J, Yu W., Zhang W. Fu Y.F., Wang L.,“TC4/Ag Metal Matrix Nanocomposites Modified by Friction Stirring Processing: Surface Characterization, Antibacterial Property and Cytotoxicity in Vitro” , ACS Applied Materials & Interfaces, 2018-11-17. DOI: 10.1021/acsami.8b16343.
   18. Zhou D, Quadir Z., Kong C., Pan H., Liu Z., Sha G^*, Munroe P, Zhang D.*, ‘ Understanding Structural Evolution of Nanostructured Cu-Al2O3 Composite Powders during Thermomechanical Processing’ Materialia, 2018,4:268-275.
   19. Liang Y-J, Wang L, Wen Y, Cheng B, Wu Q, Cao T, Xiao Q, Xue Y, Sha G., Wang Y, Ren Y, Li X, Wang L, Wang F, and Cai H., ‘High-content ductile coherent nanoprecipitates achieve ultrastrong high-entropy alloys’, Nature Communications, 2018,9:4063.  DOI: 10.1038/s41467-018-06600-8.
   20. Qian F, Jin S, Sha G, Li Y, ‘Enhanced dispersoid precipitation and dispersion strengthening in an Al alloy by microalloying with Cd’, Acta Materialia, 2018,157:114-125.
   21. Zhang N, Jin S.B., Sha G, Yu JK, Cai XC, Du CC, Shen TD, ‘Segregation induced hardening in annealed nanocrystalline Ni-Fe alloy’ Mater. Sci. & Eng. A, 2018,735:354-360.
   22. Lv Y, Ding Z, Xue J, Sha G, Lu E, Wang L, Lu W, Su C, Zhang LC, ‘Deformation mechanisms in surface nano-crystallization of low elstic modulus Ti6Al4V/Zn composite during severe plastic deformation’, Scripta Mater. 2018,157:142-147.
   23. Li T, Kent D, Sha G., Liu H., Fries G S., Ceguerra V A, Dargusch M. S, Cairney J M, ‘Nucleation driving force for ω-assisted formation of α and associated ω morphology in β-Ti alloys’, Scripta Materialia 2018, 155: 149-154.
   24. Liu S, Li K, Lu J, Sha G, Wang J, Yang M, Ji G, Song M, Wang J, Du Y, ‘On the atomic model of Guinier-Preston zones in Al-Mg-Si-Cu alloys’, Journal of Alloys and Compounds 2018,745:644-650.
   25. Zhou D., Geng H., Zeng W., Zheng D., Pan H., Kong C., Munroe P., Sha G, Suryanarayana C, Zhang D., ‘High temperature stabilization of a nanostructured Cu-Y2O3 composite through microalloying with Ti’ Materials Science and Engineering A, 2018, 712:80-87.
   26. Zhou D., Geng H., Zeng W., Sha G., Kong C., Quadir Z., Munroe P., Torrens R., Trimby P., Zhang D., ‘Effect of extrusion temperature on microstructure and properties of an ultrafine-grained Cu matrix nanocomposite fabricated by powder compact extrusion’, Journal of Materials Science, 2018,53:5389-5401.
   27. Yang T, Xia S, Guo W, Hu R, Poplawsky J D, Sha G, Fang Y, Yan Z, Wang C, Li C, Zhang Y, Zinkle S J, Wang Y, ‘Effect of temperature on the irradiation responses of Al_0.1CoCrFeNi high entropy alloy ’, Scripta Mater. 2018, 144:31-35.
   28. Luo H, Yu Q., Dong C., Sha G., Liu Z., Liang J., Wang L., Han G., Li X. ‘Influence of the aging time on the microstructure and electrochemical behaviour of a 15-5PH ultra-high strength stainless steel’, Corrosion Science, 2018,139:185-196.
   29. Sun M, Rauf Abdur, Zhang Y, Sha G*, Peng G, Yu Z, Guo C, Fang Y, Lan S, Feng T*, Hanh H, Gleiter H, ‘Enhanced interface-diffusion of immiscible elements F/Cu at the interface of FeZr/CuZr amorphous multilayers’ Mater. Res. Lett., 2018, 6:55-60.
   30. Liu R., Chen H, Zhao K., Qin Y., Jiang B., Zhang T., Sha G, Shi X, Uher C, Zhang W, Chen L, ‘Entropy as a Gene-Like Performance Indicator Promoting Thermoelectric Materials’, Advanced Materials, 2017, 29(38):1702712.
   31. Shao D, Zhang P, Zhang JY, Liu G, Wang RH, Liu WQ, Sha G, Sun J, ‘Effect of Pre-strain on the Solute Clustering Mechanical Properties and Work-hardening of a Naturally Aged Al-Cu-Mg Alloy’, Metallurgical & Materials Transactions A, 2017 48(9):4121-4134.
   32. Hu X, Jin S, Zhou H, Yin Z, Yang J, Gong Y, Zhu YT, Sha G, Zhu XK, ‘Bauschinger effect and back stress in gradient Cu-Ge alloy’, Metallurgical & Materials Transactions A, 2017, 48(9):3943-3950.
   33. Hu R, Zheng X, Du W., Sha G, ‘Sensitivity analysis of laser effect on Mg-Gd-Er alloy’, Microscopy & Microanalysis 2017, 23:714-715
   34. Gao X, Lu Y, Zhang B, Liang N, Wu G, Sha G, Liu J, Zhao Y, ‘Microstructural origins of high strength and high ductility in an AlCoCrFeNi2.1 eutectic high-entropy alloy’, Acta Mater, 2017,141:59-66.
   35. Zhang B, Xue F, Li SL, Wang XT, Liang N, Zhao YH, Sha G*, ‘Non-uniform phase separation in ferrite of a duplex stainless steel’, Acta Mater., 2017, 140:388-97.
   36. Hu J, Shi Y N, Sauvage X, Sha G, Lu K, ‘Grain Boundary Stability Governs Hardening and Softening in Extremely Fine Nanograined Metals’, Science, 2017, 355(6331):1292-1296.
   37. Saller B. D., Sha G, Yang L. M., Liu F, Ringer S. P., Schoenung J M., ‘Iron in Solution with Aluminum Matrix after Non-Equilibrium Processing: An Atom Probe Tomography Study’, Phil. Mag Letters, 2017,97:118-124
   38. Langelier B., Sha G., Korinek A., Donnadieu P., Ringer S.P., Esmaeili S., ‘The effects of microalloying on the precipitate microstructure at grain boundary regions in an Mg-Zn-based alloy’ , Materials and Design, 2017,119:290-296.
   39. Li C, Sha G*, Xia J. , Liu Y., Ringer S P., ‘Si-induced precipitation modification and related age-hardening response of an Al-4Mg-1Cu-0.5Si alloy’, Materials Chemistry and Physics, 2017, 193:421-426.
   40. Li D, Li C, Fang T, Zhang Y, Sha G, Lewandowski J.J, Liaw P, Zhang Y, ‘High-entropy Al0.3CoCrFeNi alloy fibers with high tensile strength and ductility at ambient and cryogenic temperatures’ Acta Mater. 2017,123:285-294.
   41. Zhang B, Xue F, Li SL, Wang XT, Liang NN, Zhao YH, Sha G*, ‘Effect of thermal aging on microstructural evolution in ferrite of duplex stainless steel in nuclear power plant applications’, Materials Science Forum 2017, 898:818-825.
   42. Li K, Idrissi H, Sha G, Song M, Lu J, Shi H, Wang W, Ringer S.P., Du Y, Schryvers D, ' Quantitative measurement for the microstructural parameters of nano-precipitates in Al-Mg-Si-Cu alloys', Materials Characterization 2016,118:352-362.
   43. Yuan H, Tsai M-H, Sha G, Liu F, Horita Z, Zhu YT, Wang J. T. ' Atomic-scale homogenization in an fcc-based high-entropy alloy via severe plastic deformation', Journal of Alloys and Compounds 2016,686:15-23.
   44. Li T, Kent D., Sha G, Cairney J. M., Dargusch M. S., 'Conditions for ω assist α formation in near β -Ti alloys', Scripta Mater. 2016, 117:92-95.
   45. Chen Y., Gao N., Sha G., Ringer S. P., Starink M. J., ' Microstructural evolution, strengthening and thermal stability of an ultrafine-grained Al-Cu-Mg alloy ', Acta Mater. 2016,109:202-212.
   46. An X.H., Lin Q.Y., Sha G., Huang M.X., Ringer S.P., Zhu Y.T., Liao X.Z. ,' Microstructural evolution and phase transformation in twinning-induced plasticity steel induced by high-pressure torsion', Acta Mater, 2016,109:300-313.
   47. Li J.H., Barrirero J., Sha G, Aboulfadl H., Mücklich F., Schumacher P. ' Precipitation hardening of an Mg-5Zn-2Gd-0.4Zr (wt. %) alloy 'Acta Mater, 2016, 108:207-218
   48. Li T, Kent D, Sha G, Stephenson L. T., Ceguerra A. V., Ringer S. P., Dargusch M. S., Cairney J. M. ' New insights into the transformation mechanisms of isothermal ω and ω-assisted α formation in near β-Ti alloys ', Acta Mater, 2016, 106:353-366.
   49. Xu W., Birbilis N., Sha G., Wang Y., Daniels J.E. , Xiao Y., Ferry M. ' A high-speci?c-strength and corrosion-resistant magnesium alloy ', Nature Materials, 2015,14: 1229–1235.
   50. Li T, Ahmed M, Sha G, Shi R.P., Casillas G, Yen H.W., Wang YZ, Pereloma E.V., Cairney J.M. ' The influence of partitioning on the growth of intragranular α in near-β Ti alloys ', Journal of Alloys and Compounds, 2015, 643:212-222.
   51. Guo M.X., Sha G*., Cao L.Y., Liu W.Q., Zhang J.S., Zhuang L.Z. 'Enhanced bake-hardening response of an Al–Mg–Si–Cu alloy with Zn addition' , Materials Chemistry and Physics, 2015, 162:15-19.
   52. Gupta R.K, Li C., Xia J., Zhou X., Sha G., Gun B., Riner S.P., Birbilis N, 'Corrosion Behaviour of Al-4Mg-1Cu (wt%) Microalloyed with Si and Ag' Adv. Eng. Mater. 2015,17: 1670-1674.
   53. Li T, Kent D., Sha G, Dargusch M.S., Cairney J.M., ' The mechanism of <omega>-assisted <alpha> phase formation in near <beta>-Ti alloys ' Scripta Mater. 2015, 104: 75-78.
   54. Wang X., Sha G*, Shen Qin, Liu W. ' Age-hardening effect and formation of nanoscale composite precipitates in a NiAlMnCu-containing steel', Mater. Sci. Eng. A, 2015,627:340-347.
   55. Chen Y, Gao N, Sha G, Ringer S.P., Starink M.J, ' Strengthening of an Al-Cu-Mg alloy processed by high-pressure torsion due to clusters, defects and defect-cluster complexes', Mater. Sci. Eng. A 2015, 627:10-20.
   56. Zhu S.Q, Yan H.G, Liao X.Z, Moody S.J, Sha G, Wu Y.Z., Ringer S.P. 'Mechanisms for enhanced plasticity in magnesium alloys' Acta Mater, 2015,82:344-55.
   57. Guine M. J-F, Brodusch N., Sha G, Shandiz M. A., Demers H., Trudeau M., Ringer S. P. Gauvin R. ‘Microscopy and Microanalysis of Complex Nanosized Strengthening Precipitates in New Generation Commercial Al-Cu-Li Alloys’, J of Microscopy, 2014,255:128-37.
   58. Li T, Kent D, Sha G, Dargusch M.S., Cairney J.M., ‘Precipitation of the alpha-phase in an ultrafine grained beta-titanium alloy processed by severe plastic deformation’ Mater. Sci. Eng. A, 2014, 605:144-50.
   59. Li C., Sha G.*, Xia J.H., Gun B., Li L., Cui J.Z., Liu X.F., Ringer S. P., ‘Effect of solution treatment on precipitation and age-hardening response of an Al-4Mg-1Cu-0.5Si-0.4Ag (wt%) alloy’, Mater. Sci. Eng. A, 2014, 599:64-8.
   60.  Li K, Be?che?b A, Song M, Sha G*, Lu X, Zhang K, Du Y, Ringer S P, Schryvers D ‘Atomistic structure of Cu-containing β" precipitates in an Al-Mg-Si-Cu alloy’ Scripta Mater, 2014,75:86-89.
   61. Sha G*, Tugu K, X.Z. Liao, Trimby P, Murashkin M.Y., Valiev R.Z., and Ringer S.P., “Strength, Grain Refinement and Solute Nanostructures of an Al-Mg-Si Alloy (AA6060) Processed by High-Pressure Torsion”, Acta Mater, 2014, 63:169-179.
   62. Wang F.L., Jiang Y.J., Wen X. M., Xia J.H., Sha G., Amala R, “Ensembles of Au-Pd Confined in Mesoporous TiO2 Spheres for Photocatalytic Oxidation of Acetaldehyde”, ChemCatChem, 2013, 5: 3557-61.
   63. Chen Z.G., Zhang J., Su J., Sha G., Xia JH, Wang S., Ringer S.P., “Effects of Si addition on the microstructure evolution of Al-Cu-Mg alloys in the a+S+T phase-field”, Phil. Mag. Letters, 2013, 93:648-54.
   64. Marceau R.K.W., de Vaucorbeil A., Sha G., Ringer S.P., Poole W., “Analysis of strengthening in AA6111 during the early stages of aging: Atom Probe Tomography and Yield Stress Modelling”, Acta Mater, 2013, 61:7285-03
   65. Gasnier V., Gault B., Nako H., Aruga Y., Sha G., Ringer S.P., “Influence of experimental parameters on the composition of precipitates in metallic alloys” Ultramicroscopy, 2013,132:199-204.
   66. Gusieva K., Sato T., Sha G., Ringer S.P. and Birbilis N. “Influence of low level Ag additions on Mg-alloy AZ91”, Adv. Eng. Mater., 2013, 15:485-90.
   67. Zheng Z.Q., Liu W.Q, Liao Z.Q., Ringer S.P., Sha G.*, “Solute clustering and solute nanostructures in an Al-3.5Cu-0.4Mg-0.2Ge alloy”, Acta Mater, 2013, 61:3724-34.
   68. Li C., Sha G.*, Gun B., Xia J.H., Liu X.F., Wu Y.Y., Birbilis N., Ringer S. P., “Enhanced age-hardening response of Al–4Mg–1Cu (wt. %) microalloyed with Ag and Si”, Script Mater, 2013, 68:857-60.
   69. Xia J.H., Sha G.*, Chen Z.G., Liao X.Z., Liu H.W., Ringer S.P. , “Precipitation of quasicrystal approximant phases in an Al-Mg-Cu-Ge alloy”, Phil. Mag. Letters, 2013, 93:77-84.
   70. Sha G^*, Zhu H.M., Liu J.W., Luo, C.P., Liu, Z.W., Ringer S.P., “Hydrogen-induced decomposition of Zr-rich cores in an Mg-6Zn-0.6Zr-0.5Cu alloy”, Acta Mater., 2012, 60:5615-25.
   71. Tugcu K., Sha G*., Liao X.Z., Trimby P, Xia J.H., Murashkin M.Y., Xie Y., Valiev R.Z., and Ringer S.P., “Enhanced grain refinement of an Al-Mg-Si alloy by high-pressure torsion processing at 100°C”, Mater. Sci. Eng. A, 2012, 552:415-18.
   72. Zhu H.M., Sha G., Liu J.W., Liu H.W., Wu C.L., Luo C.P., Liu Z.W., Zheng R.K, Ringer S.P., “Heterogeneous nucleation of β-type precipitates on nanoscale Zr-rich particles in a Mg-6Zn-0.5Cu-0.6Zr alloy”, Nanoscale Research Letters, 2012, 7:300.
   73. Moy C.K.S., Weiss M., Xia J.H, Sha G., Ringer S. P., Ranzi G., “Influence of heat treatment on the microstructure, texture and formability of 2024 aluminium alloy”, Mater. Sci. Eng. A, 2012, 522:48-60.
   74. Sun Y.Y., Song M., Liao X.Z., Sha G., He Y.H., “Effects of isothermal annealing on the microstructures and mechanical properties of a FeCuSiBAl amorphous alloy”, Mater. Sci. Eng. A, 2012, 543:145-51.
   75. Li J.H. Sha G.*, Jie W.Q., Ringer S.P., “Precipitation microstructure and their strengthening effects of an Mg-2.8Nd-0.6Zn-0.4Zr alloy with a 0.2 wt. % Y addition”, Mater. Sci. Eng. A, 2012, 538:272-80.
   76. Felfer P. J., Gault B., Sha G., Stephenson L., Ringer S. P., Cairney J. M., “A new approach to the determination of concentration profiles in atom probe tomography”, Microscopy and Microanalysis, 2012, 18:359-364.
   77. Li J. H., Sha G.*, Wang T. Y., Jie W. Q, Ringer S. P., “Precipitation microstructure and age-hardening response of an Mg-Gd-Nd-Zn-Zr alloy”, Mater. Sci. Eng. A, 2012, 534:1-6.
   78. Sha G.*, Möller H., Stumpf, W.E. Xia J.H., Govender G., Ringer S.P., “Solute-nanostructures and their strengthening effects in Al-7Si-0.6Mg alloy F357”, Acta Mater., 2012, 60:692-701.
   79. Stanford N., Sha G., Xia J. H., Ringer S. P., Barnett M. R., “Solute segregation and texture modification in an extruded magnesium alloy containing gadolinium”, Scripta Mater., 2011,65:919-22.
   80. Sha G.*, Marceau R.K.W., Gao X., Muddle B. C., Ringer S. P., ‘Nanostructure of aluminium alloy 2024: Segregation, clustering and precipitation process’ Acta Mater. 2011,59:1659-70.
   81. Zhu H.M., Sha G., Liu J.W., Wu C.L., Luo C.P., Liu Z. W., Zheng R.K., Ringer S.P., ‘Microstructure and mechanical properties of Mg–6Zn–xCu–0.6Zr (wt.%) alloys’ Journal of Alloy and Compound, 2011,509:3526-31.
   82. Sha G.*, Yao L., Liao X. Z., Ringer S. P., Duan Z. C., Langdon T. G., ‘Segregation of solute elements at grain boundaries in an ultrafine grained Al–Zn–Mg–Cu alloy’ Ultramicroscopy, 2011,111:500-5.
   83. Hyde J.M., Sha G., Marquis E A, Morley A, Wilford K B, Williams T J, ‘A comparison of the structure of solute clusters formed during thermal ageing and irradiation’ Ultramicroscopy 2011, 111:664-71.
   84. Li H., Jiang F., Ni S., Li L, Sha G., Liao X.Z., Ringer S.P., Choo H., Liaw P.K., Misra A., ‘Mechanical behaviors of as-deposited and annealed nanostructured Ni-Fe alloys’ Scripta Mater. 2011, 65:1-4.
   85. Ni S., Sha G.*, Wang Y.B., Liao X.Z, Alhajeri S. N., Li H.Q., Zhu Y.T., Langdon T.G., Ringer S.P., ‘Elemental redistribution in a nanocrystalline Ni–Fe alloy induced by high-pressure torsion’ Mater. Sci. & Eng. A. 2011, 528:7500-5.
   86. Marceau R.K.W., Sha G., Ferragut R., Dupasquier A., Ringer S.P. ‘Solute clustering in Al-Cu-Mg alloys during the early stages of elevated temperature ageing’ Acta Mater. 2010, 58:4923-39.
   87. Sha G.*, Li J.H., Xu W., Xia K., Jie W.Q., Ringer S. P., ‘Hardening and microstructural reactions in high-temperature equal-channel angular pressed Mg–Nd–Gd–Zn–Zr alloy’ Mater. Sci. & Eng. A. 2010, A527:5092-99.
   88. Sha G*, Wang Y.B., Liao X.Z., Duan Z.C., Ringer S.P., Langdon T.G., ‘The microstructural evolution of Fe-rich particles in an Al-Zn-Mg-Cu alloy during equal-channel angular pressing’ Mater Sci & Eng A. 2010, A527:4742-49.
   89. Marceau RKW, Sha G, Lumley RN, Ringer SP. “Evolution of solute clustering in Al-Cu-Mg alloys during secondary ageing”, Acta Mater, 2010, 58:1795.
   90. Stanford N., Sabirov I, Sha G., La Fontaine A., Barnett M.R., Ringer S.P., “Effect of Al and Gd solutes on the strain rate sensitivity of magnesium alloys”, Metallurgical and Materials Transactions A, 2010, 41:734.
   91. Sha G.*, Ringer S.P., Duan ZC, Langdon T.G., “An atom probe characterisation of grain boundaries in an aluminium alloy processed by equal-channel angular pressing”, Int. J. Mat. Res., 2009, 100:1674.
   92. Stanford N., Sha G., La Fontaine A., Barnett M.R., Ringer S.P., “Atom probe tomography of solute distributions in mg-based alloys” Metallurgical and Materials Transactions A, 2009, 40: 2480.  
   93. Sha G*, Wang Y.B., Liao X.Z., Duan Z.C., Ringer S.P., Langdon T.G., “Influence of equal-channel angular pressing on precipitation in an Al-Zn-Mg-Cu alloy’ Acta Mater. 2009, 57:3123.
   94. Sha G.*, Ringer S.P., ‘Effect of Laser pulsing on the composition measurement of an Al-Mg-Si-Cu alloy using three dimensional atom probe’, Ultramicroscopy 2009, 109: 580.
   95. Morley A., Sha G., Hirosawa S., Cerezo A., Smith G.D.W., ‘Determining the composition of small features in atom probe: bcc Cu-rich precipitates in an Fe-rich matrix’ Ultramicroscopy 2009, 109:535.
   96. Sha G*, Cerezo A and Smith G D W, ‘Field evaporation behaviour during irradiation with picosecond laser pulses’ Applied Physics Letter, 2008, 92(4): 043503.
   97. Cerezo A, Clifton P H, Lozano-Perez S, Panayi P, Sha G and Smith G D W, ‘Overview: recent progress in 3-dimensional atom probe instruments and applications’ Microscopy and Microanalysis, 2007, 13: 408.
   98. Cerezo A, Clifton P.H., Galtrey M.J, Humphreys C.J, Kelly T F, Larson D.J, Lozano-Perez S, Marquis E. A, Oliver R.A, Sha G., Thompson K, Zandbergen M. and Alvis R. L., ‘Atom Probe Tomography Today’ Materials Today, 2007, 10: 36.
   99. Sha G*, Morley A, Cerezo A and Smith G D W, ‘Partitioning and segregation of trace element Sn in a low alloy steel’ Phil. Mag. Letter, 2007, vol. 87: 327.
   100. Sha G*, O’Reilly K A Q and Cantor B, ‘Characterization of Fe-rich intermetallic phase in a 6xxx series Al alloy’ Materials Science Forum, 2006, 519-521: 1721.
   101. Lozano-Perez S, Sha G, Titchmarsh J M, Jenkins M L, Hirosawa S, Cerezo A and Smith G D W. ‘Comparison of the number densities of nanosizes Cu-rich precipitates in ferritic alloys measured using EELS and EDX mapping, HREM and 3DAP’ J of Mater. Sci. 2006, 41:2559.
   102. Sha G* and Cerezo A: ‘Kinetic Monte Carlo simulation of clustering in an Al-Zn-Mg-Cu alloy (7050)’ Acta Mater. 2005, 53: 907.
   103. Sha G* and Cerezo A: ‘Field ion microscopy and 3-D atom probe analysis of Al₃Zr particles in 7050 Al alloys’ Ultramicroscopy, 2005, 102:151.
   104. Sha G* and Cerezo A. ‘Early-stage precipitation in Al-Zn-Mg-Cu alloy (7050)’, Acta Mater., 2004, 52: 4503.
   105. Sha G* and Cerezo A.: ‘Characterization of precipitates in 7050 Al alloy’, Surface and Interface Analysis, 2004, 36: 564.
   106. Sha G*, O’Reilly K.A.Q, Cantor B, Titchmarsh J.M. and Hamerton R.G. ‘Quasi-peritectic solidification reactions in a 6xxx series wrought Al alloy’, Acta Mater., 2003, 51: 1883.
   107. Sha G*, O’Reilly K. A.Q, Cantor B, Worth J and Hamerton R. ‘Growth related metastable phase selection in a 6xxx series wrought Al alloy’, Mater. Sci. & Eng. A, 2001, 304-306: 612.
   108. Sha G*, O’Reilly K.A.Q, Cantor B, Hamerton R and Worth J. ‘Effect of grain refiner on intermetallic phase formation in directional solidification of model 6xxx series wrought Al alloys’, Materials Science Forum, 2000, vols. 331-337: 253.
   109. Sha G* and Cui J. ‘The effect of layer number on superplasticity of laminate 7475/2091 Al alloy’, J. of Mater. Sci., 2000, 35: 2711.
   110. Sha G*, Bai G and Liu X. ‘Investigation of rail stock transversal deformation in 4-roll universal rolling’, Iron and Steel, 1997, vol.32/supp.2: 75.
   111. Sha G*, Liu X and Bai G. ‘The FEM analysis of rail stock temperature field in rolling process’, Journal of Northeastern University, 1996, vol. 17: 408.
   112. Sha G*, Liu X and Bai G. ‘Numerical solution of wide spread deformation of rail stock in 4-roll universal rolling pass’, Journal of Northeastern University, 1996, vol.17: 282.
   113. Liu X, Bai G and Sha G, ‘Computer aid roll design for rolling window frame’, Rolling Steel, 1990, No2, 7.

1. Sha G., Marceau R.K.W., Ringer S.P., ‘Precipitation and solute clustering in aluminium / advanced characterisation techniques’, the Chapter 12, in Fundamentals of Al Metallurgy, Woodhead Publishing Limited, 2011, Cambridge CB21 6AH, UK Woodhead Publishing ISBN 978-1-4398, 345-366.

[1] 刘吉梓，沙刚，一种用于观察三维原子探针试样的透射电镜样品台，中国，201610299098.4；201620409217.2，2016/05/07

[2] 周琪，沙刚，李丽，张意栋，三维原子探针制样第一阶段抛光设备，中国，CN201420757595，2014/12/04

材料科学研究方法和测试分析技术

指导毕业论文

2014年南京理工大学与CAMECA公司合作在南京建立中国先进原子探针中心，原子探针领域国际知名专家沙刚教授受邀担任中国先进原子探针技术分析中心技术主管，开展了利用三维原子探针、透射电镜、聚焦离子束等精密分析仪器探索研究纳米金属、高温合金、核电材料、半导体材料、生物材料等先进材料的精细微观组织结构，推动了国内三维原子探针技术在材料科学研究中的应用。实验室人才队伍是一支开拓进取、积极创新、奋发向上的高水平科研团队，包括教授1名（沙刚），青年教授2名（胡蓉、靳慎豹），博士生4名，研究生10余名，与国内外主要大学科研院所和企业进行了密切的科研合作。