Journal Papers

  [1]    Xie D, Zhang R, Li M, Shan Z. “The role of hydrogenated vacancies on modulus, dislocation behavior and interfacial damage in pure aluminum” Proceedings of 3rd International Conference on Metals&Hydrogen, 2018

[2]    Xie D, Li M, Shan Z. “Review On Hydrogen Microstructure Interaction In Metals”[J]. Materials China, 2018, (3):055-63

[3]    Xie D, Wang Z, Sun J, Li J, Ma E, Shan Z. In situ study of the initiation of hydrogen bubbles at the aluminium metal/oxide interface. Nature Materials, 2015, 14 (9): 899-903

[4]    Xie D, Li S, Li M, Wang Z, Gumbsch P, Sun J, Ma E, Li J, Shan Z. Hydrogenated vacancies lock dislocations in aluminium.Nature Communications, 2016, 7: 13341

[5]    Li M, Xie D, Ma E, Li J, Zhang X, Shan Z. Effect of hydrogen on the integrity of aluminium–oxide interface at elevated temperatures. Nature Communications, 2017, 8: 14564

[6]    Zhang L*, Wang Y*, Xie D*, Tang Y, Wu C, Cui L, Li Y, Ning X, Shan Z. In situ transmission electron microscopy study of the electrochemical sodiation process for a single CuO nanowire electrode. RSC Advances, 2016, 6(14): 11441-11445

[7]    Zhang L, Tang Y, Wang Y, Duan Y, Xie D, Wu C, Cui L, Li Y, Ning X, Shan Z. In Situ TEM Observing Structural Transitions of MoS2 upon Sodium Insertion and Extraction. RSC Advances, 2016, 6(98): 96035-96038

[8]    Yang L, Dai T, Wang Y, Xie D, Narayan RL, Li J, Ning X. Chestnut-like SnO2/C nanocomposites with enhanced lithium ion storage properties. Nano Energy, 2016, 30: 885-891

[9]    Wang Y, Xie D, Ning X, Shan Z. Thermal treatment-induced ductile-to-brittle transition of submicron-sized Si pillars fabricated by focused ion beam. Applied Physics Letters, 2015, 106(8): 081905

[10]              Xie D, Li W. A novel simple approach to preparation of superhydrophobic surfaces of aluminum alloys. Applied Surface Science, 2011, 258(3): 1004-1007

[11]              Zhang D, Chen F, Fang G, Yang Q, Xie D, Qian G, Li W, Si J, Hou X. Wetting characteristics on hierarchical structures patterned by a femtosecond laser. Journal of Micromechanics and Microengineering, 2010, 20(7): 075029

Patents

[1]    Shan Z., Chen L., Li, M., Xie D., Liu B.; Zhang P., Wan J. ‘An efficient method and automatic instrument to fabricate tungsten tips.’ 2012, Invention Patent, Patent Number: CN 201210044381

[2]    Shan Z., Li M., Xie D. ‘A quantitative nanoheater for electron microscopy.’ 2014, Invention Patent, Patent Number: 201410542592.2

[3]    Shan Z., Li M., Xie D. ‘A quantitative heating device for in situ electron microscopy.’ 2014, Invention Patent, Patent Number: 201510437346.2

[4]    Shan Z., Li M., Xie D. ‘A quantitative thermomechanical tensile device for in situ electron microscopy.’ 2015, Invention Patent, Patent Number: 201510710901.4

Conferences and Presentations

[1]    New insights into thermomechanical and chemomechanical problems via in situ quantitative nanomechanical TEM, NTNU, invited by Prof. Afrooz Barnoush, 7 June 2018, Trondheim, Norway

[2]    Hydrogenated vacancies lock dislocations in aluminium, 3rd International Conference on Metals & Hydrogen Ghent, Belgium, 2018 (Invited talk)

[3]    Thermomechanical and Chemomechanical Experiments by in situ TEM: a Case Study on Hydrogen Embrittlement/Damage, Oxford University, invited by Prof. Sergio Lozano-Perez, 25 May, 2018, Oxford, UK

[4]    Hydrogen Effects on Dislocation Motion Revisited by Quantitative Mechanical Tests Inside TEM, 2016 International Hydrogen Conference, Moran, WY, USA, 2016

[5]    In situ TEM Investigation of Blister Formation on Aluminum Surface in Hydrogen Environment, 2016 International Workshop on Materials Behavior at the Micro- and Nano-Scale, Xi’an China, 2016

[6]    In Situ TEM Investigation of the Effects of Hydrogen on the Behavior of Dislocation and Cracking in Aluminum, 2015 TMS Annual Meeting & Exhibition, Orlando, FL, USA, 2015

[7]    Hydrogen embrittlement in aluminum investigated by in situ bending in environmental TEM, 2015 International Workshop on Materials Behavior at the Micro- and Nano-Scale, Xi’an China, 2015

 

[8]    In situ TEM Investigation of Blister Formation on Aluminum Surface in Hydrogen Environment, 2015 MRS Fall meeting, Boston, MA, USA, 2015

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