发表SCI论文40余篇
(包含Nature Materials、ACS Nano、Small、Advanced Science等高影响力期刊)
,授权PCT专利1项、国家发明专利10项。
Selected Publications
[1]
L. Shangguan, L.B. He, Y.T. Ran, H. Hong, J.H. Zhu, Y.T. Gao, L.T. Sun, Hydrothermal Synthesis of Te Nanosheets: Growth Mechanism and Electrical Property, Acs Applied Materials & Interfaces, (2023).
[2] L.B. He, S. Yang, L. Shangguan, J.H. Zhu, L. Shi, L. Zhang, L.P. Tang, J. Sun, H.T. Zhang, L.T. Sun, Surface-governed deformation mechanisms in sub-20-nm metallic crystals stimulated by electrical loading, Materials Today Nano, 22 (2023).
[3] L.B. He, L. Shangguan, Y.T. Ran, C. Zhu, Z.Y. Lu, J.H. Zhu, D.J. Yu, C.X. Kan, L.T. Sun, Revealing the alloying and dealloying behaviours in AuAg nanorods by thermal stimulus, Nanoscale Advances, 5 (2023) 685-692.
[4] L.B. He, L. Shangguan, Y.T. Gao, S. Yang, Y.T. Ran, Z.Y. Lu, J.H. Zhu, B.J. Wang, L.T. Sun, Nanometer-Sized Te Pistons in Carbon Cylinders as Nano-Motor Prototypes: Implications for Nano-Electromechanical Device Fabrication, Acs Applied Nano Materials, (2023).
[5] H.T. Zhang, W. Wang, J. Sun, L. Zhong, L.B. He, L.T. Sun, Surface-Condition-Dependent Deformation Mechanisms in Lead Nanocrystals, Research, 2022 (2022).
[6] L. Tang, Y. Zhang, C. Liao, L. He, X. Wu, T. Xu, K. Yin, Y. Liu, L. Sun, In Situ Domain-Confined Epitaxial Regrowth of Individual Nanoparticle: Implications for Nanofabrication, Acs Applied Nano Materials, (2022).
[7] L. Tang, Y. Liu, X. Wang, R. Wang, J. Sun, L. He, K. Yin, T. Xu, L. Sun, Sculpting nanocavities via thermal stimulated Kirkendall effect oxidation, Journal Of Alloys And Compounds, 914 (2022).
[8] L. Shi, L. Shangguan, S. Yang, Y. Zhou, B. Wang, J. Xie, Y. Yang, L. He, X. Liao, L. Sun, Surface Chemistry-Dominated Shape and Phase Transitions in PbBi Binary Nanoparticles: Implications for the Stability of Nanomaterials in Application, Acs Applied Nano Materials, (2022).
[9] L. Shi, L. He, L. Shangguan, Y. Zhou, B. Wang, L. Zhang, Y. Yang, C. Teng, L. Sun, Revealing the Phase Segregation and Evolution Dynamics in Binary Nanoalloys via Electron Beam-Assisted Ultrafast Heating and Cooling, ACS nano, (2022).
[10] S. Lei, Y. Ran, Z. Lu, Y. Gao, L. Shi, L. He, L. Sun, Thermal stability of Te nanowires and their crystallography-determined surface evolution at elevated temperatures, Nano Research, (2022).
[11] L. Zhang, L. He, Y. Yang, H. Hong, L. Tang, L. Sun, Probing the beam-induced heating effect inside a transmission electron microscope by nanoparticle labels, Micro & Nano Letters, 16 (2021) 344-349.
[12] L. Tang, W. Wu, L. He, T. Xu, H. Dong, L. Zhang, L. Shi, L. Sun, In situ observation of the solid solution-induced sublimation of CuAg Janus nanoparticles, Journal Of Alloys And Compounds, 877 (2021).
[13] J.M. Sun, M.M. Han, M. Peng, L. Zhang, D. Liu, C.C. Miao, J.F. Ye, Z.Y. Pang, L.B. He, H.L. Wang, Q. Li, P. Wang, L. Wang, X.S. Chen, C.X. Shan, L.T. Sun, W.D. Hu, Z.X. Yang, Stoichiometric effect on electrical and near-infrared photodetection properties of full-composition-range GaAs1-xSbx nanowires, Nano Research, 14 (2021) 3961-3968.
[14] L. Zhang, L.-B. He, L. Shi, Y.-F. Yang, G.-L. Shang, H. Hong, L.-T. Sun, A novel method for in situ visualization of the growth kinetics, structures and behaviours of gas-phase fabricated metallic alloy nanoparticles, RSC Advances, 10 (2020) 13037-13042.
[15] L. Tang, W. Wu, L. He, K. Yu, T. Xu, Q. Zhang, L. Zhang, L. Sun, Novel Interface in CuAg Nanostructure Induced by Size Effect, The Journal of Physical Chemistry Letters, 10 (2019) 1973-1980.
[16] Y. Ni, C. Kan, L. He, X. Zhu, M. Jiang, D. Shi, Alloyed Au-Ag nanorods with desired plasmonic properties and stability in harsh environments, Photonics Research, 7 (2019) 558-565.
[17] L. Tang, L. He, L. Zhang, K. Yu, T. Xu, Q. Zhang, H. Dong, C. Zhu, L. Sun, A Novel Domain-Confined Growth Strategy for In Situ Controllable Fabrication of Individual Hollow Nanostructures, Advanced Science, (2018) n/a-n/a.
[18] L.B. He, L. Zhang, L.P. Tang, J. Sun, Q.B. Zhang, L.T. Sun, Novel behaviors/properties of nanometals induced by surface effects, Materials Today Nano, 1 (2018) 8-21.
[19] L.-B. He, L. Zhang, X.-D. Tan, L.-P. Tang, T. Xu, Y.-L. Zhou, Z.-Y. Ren, Y. Wang, C.-Y. Teng, L.-T. Sun, J.-F. Nie, Surface Energy and Surface Stability of Ag Nanocrystals at Elevated Temperatures and Their Dominance in Sublimation-Induced Shape Evolution, Small, 13 (2017) 1700743.
[20] L. He, Y. Wang, X. Xie, M. Han, F. Song, B. Wang, W. Cheng, H. Xu, L. Sun, Systematic investigation of the SERS efficiency and SERS hotspots in gas-phase deposited Ag nanoparticle assemblies, Physical Chemistry Chemical Physics, 19 (2017) 5091 - 5101.
[21] R. Lian, H. Yu, L. He, L. Zhang, Y. Zhou, X. Bu, T. Xu, L. Sun, Sublimation of Ag nanocrystals and their wetting behaviors with graphene and carbon nanotubes, Carbon, 101 (2016) 368-376.
[22] J. Sun, L. He, Y.-C. Lo, T. Xu, H. Bi, L. Sun, Z. Zhang, S.X. Mao, J. Li, Liquid-like pseudoelasticity of sub-10-nm crystalline silver particles, Nature materials, 13 (2014) 1007-1012.
[23] L.B. He, T. Xu, J. Sun, K.B. Yin, X. Xie, L. Ding, H.L. Xiu, L.T. Sun, Investment casting of carbon tubular structures, Carbon, 50 (2012) 2845-2852.
