主要学术成果(论文、专利、专著、译著等) |
[1] R. Pan, M. Cai, W.Liu, M. Zhong*, Extremely high Cassie–Baxter state stability of superhydrophobic surfaces via precisely tunable dual-scale and triple-scale micro–nano structures. J. Mater. Chem. A. 7 (2019) 18050-18062. [2] R. Pan, H. Zhang, M Zhong*. Triple-Scale Superhydrophobic Surface with Excellent Anti-Icing and Icephobic Performance via Ultrafast Laser Hybrid Fabrication. ACS Appl. Mater. Interfaces. 13(1) (2021), 1743–1753. [3] S. Kovacevic*, R. Pan*, D.P. Sekulic, S. Mesarovic. Interfacial energy as the driving force for diffusion bonding of ceramics. Acta Materialia. 186 (2020), 405-414. [4] R. Pan, H. Wei, T. Lin*, P. He*, D.P. Sekulic*, Homogenization of the zirconium carbide–titanium interface domain, Scripta Mater. 112 (2016) 42-45. [5] R. Pan, P. He*, T. Lin*, Z. Huang, D.P. Sekulic* et al. Design of the multiple transition metals interlayer process to diffusion bond ZrCx ceramics. Materials & Design. 137 (2018) 47-55. [6] R. Pan, S. Kovacevic, T. Lin, P. He*, D. P. Sekulic*, et. al. Control of residual stresses in 2Si-B-3C-N and Nb joints by the Ag-Cu-Ti + Mo composite interlayer. Materials & Design. 99 (2016) 193–200. [7] R. Pan, P. He*, T. Lin*, D.P. Sekulic*, Z. Huang, H. Wei, Z. Yang, Cross-diffusion phenomena within a ZrCx – Zr – ZrCx joint, J. Eur. Ceram. Soc. 37(8) (2017) 2779-2786. [8] R. Pan, Q. Wang*, D. Sun, P. He. Effects of electric field on interfacial microstructure and shear strength of diffusion bonded Al2O3/Ti joints. J. Eur. Ceram. Soc. 35 (2015) 219-226. [9] R. Pan, T.G. Gutowski*, D P. Sekulic*. Built environment energy trade-offs scaling. Energy. 141 (2017) 1374-1383. [10] R. Pan, M. Cai, W. Liu, M. Zhong*. Ultrafast Laser Hybrid Fabrication of Hierarchical 3D Structures of Nanorods on Microcones for Superhydrophobic Surfaces with Excellent Cassie State Stability and Mechanical Durability. J. Laser App. 2020, 32(2):022047. |