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戴菡

作者:时间:2020-07-07点击数:

   

    戴菡,男,1985年11月生,金属材料方向,烟台双百人才,教授。

    工作经历:

    2016.9至今,在烟台南山学院工学院材料系任“先进轻合金材料与器件”课题组组长,承担南山铝业与材料系联合科研攻关工作,同时承担毕业实习指导及毕业设计指导等工作。

工作以来取得的部分成果:

[1] Dai H , Fang H , Zhao J , et al. Layer roughness reduction and light harvest from Ag nanowires on a silicon surface through wet etching embedding[J]. Applied Physics Letters, 2017, 111(2):1276-668.

[2] Dai H, Li H, Li Z, et al. Sonication induced amorphisation in Ag nanowires[J]. Scientific reports, 2019, 9(1): 2114.

[3] Dai H, Fu P, Li Z, et al. Electricity mediated plasmonic tip engineering on single Ag nanowire for SERS[J]. Optics express, 2018, 26(19): 25031-25036.

[4] Dai H, Zhao J, Huang T, et al. Plasmonic Conglobation of Ultrathin Ag Nanofilms Far below Their Melting Points by Infrared Illumination[J]. Applied Sciences, 2018, 8(6): 897.

[5] Dai H, Sun J, Li Z, et al. Ag Nanowire @ Nano-groove Fabrication for Enhanced Light Harvesting Through Silicon Chemical Etching[J]. Transaction of indian institute of metals, 2018, 71(7):1681-1686.

[6] Dai H, Sun J, Li Z, et al. Fabrication of Metallic Glass Layers on Al Alloys with Improved Corrosion Resistance and Micro-Hardness by Pulsed Electrical Discharge Treatment[J]. Applied Sciences, 2018, 8, 956.

[7] Sun J, Yu X, Li Z, et al. Ultrasonic Modification of Ag Nanowires and Their Applications in Flexible Transparent Film Heaters and SERS Detectors[J]. Materials, 2019, 12(6): 893.

[8] Zhu Z, Sun J, Li Z, et al. Tunable light absorption of Ag nanoparticles@ carbon sphere by the position control of Ag nanoparticles[J]. Optik, 2019, 179: 831-836.

[9] Zhao J F, Yu X X, Zhao Z G et al. Selected Scattering on Quasi-Ordered Hexagonal Close-Packed Al Nanodents for Tunable Output of White LEDs. Applied Sciences, 2019, 9(17), 3626.

[10] Jiang B , Dai H, Zhao Q , et al. The path of mass transfer during Au thin filmassisted chemical etching by designed surface barriers[J]. RSC Advances, 2017, 7(19):11522.

[11] Xinxiang Yu , Han Dai, Zhutie Li, Jie Sun, Junfeng Zhao, Caiqiong Li, Wenwen Liu. Improved Recrystallization Resistance of Al–Cu–Li–Zr Alloy through Ce Addition[J]. Metals, 2018, 8, 1035.

[12] Yu X X , Sun J, Li Z T, et al. Solidification behavior and elimination of undissolved Al2CuMg phase during homogenization in Ce-modified Al–Zn–Mg–Cu alloy[J]. Rare Metals, Doi: https://doi.org/10.1007/s12598-018-1172-1.

[13] Yu X X , Sun J, Li Z T, et al. Solidification and homogenization behaviors of Al-9.1 Zn-2.1 Mg-2.2 Cu-0.1 Zr-0.07 Ce alloy[J]. Material research express, 2019, 6(2), 026574.

[14] Yu X, Zhao Z, Shi D, et al. Enhanced High-Temperature Mechanical Properties of Al–Cu–Li Alloy through T1 Coarsening Inhibition and Ce-Containing Intermetallic Refinement[J]. Materials, 2019, 12(9): 1521.

[15] Li H, Zhang Y, Dai H, et al. A self-powered porous ZnS/PVDF-HFP mechanoluminescent composite film that converts human movement into eye-readable light[J]. Nanoscale, 2018, 10(12): 5489-5495.

[16] Li H , Dai H , Zhang Y , et al. Surface-Enhanced Raman Spectra Promoted by a Finger Press in an AllSolidState Flexible Energy Conversion and Storage Film[J]. Angew Chem Int Ed Engl, 2017, 56(10):2805-2805.

[17] Hu T, Y D, Y X , et al. Evolution of Microstructure in Al-Mn Alloy with a Low Ratio of Fe/Si During Homogenization[J]. Rare Metal Materials and Engineering, 2018. 2018, 47(9): 2631-2636.

[18] Feng W, Zhao J, Wei A, et al. The theoretical chemical calculations clarify the mechanism of beta-alkylation of 1-phenylethanol with benzyl alcohol catalyzed by iron (ii) acetylacetonate methods[J]. RSC advances, 2018, 8(43): 24154-24165.

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