基本介紹
- 中文名:倪宇翔
- 學位/學歷:博士
- 職業:教師
- 專業方向:物理學
- 任職院校:西南交通大學
個人經歷,社會兼職,主講課程,研究方向,學術成果,榮譽獎項,
個人經歷
2006,2010年於西南交通大學材料科學與工程學院分別獲得學士/碩士學位。2013年獲得法國巴黎中央理工學院能源學博士學位,2014-2016年在美國明尼蘇達大學機械工程學院作博士後研究。2016年作為引進人才加盟西南交通大學物理科學與技術學院,兼任西南交通大學歐美同學會理事、物理學院教授委員會委員。
社會兼職
美國材料學會(Materials Research Society)會員, 中國工程熱物理學會會員。擔任Appl. Phys. Lett, Phys. Rev. B,J. Appl. Phys.等期刊審稿人。SCI 期刊Advances in Condensed Matter Physics和Journal of Nanomaterials客座主編。
主講課程
[1] College Physics (普通物理I), 2017-2018學年,全英文授課。
[2] 材料物理,2018-2019學年第一學期。套用物理專業課。
[2] 納米材料和納米結構,2018-2019學年第一學期。研究生課程。
研究方向
現主要研究方向:
(1) 微納米尺度熱傳導。
(2) 熱電材料結構設計。
學術成果
科研項目信息
[1]碲化鉍-碲化鉛和矽化鎂-矽鍺分段熱電材料界面能量輸運性質的研究,國家自然科學基金,面上項目 (62 萬元)2018-2021年,主持。
[2]高效納米線熱電材料的結構設計、製備與表征,四川省國際科技合作與交流研發項目 (20 萬元)2018-2020年,主持。
代表性論文:
2017年至今發表論文列表(第一或通訊作者):
[10] Hou, J., Chen, M., Zhou, Y., Bian, L., Dong, F., Tang, Y.,Ni, Y.*, and Zhang, H.*(2020) Regulating the effect of element doping on the CO2 capture performance of kaolinite: A density functional theory study. Applied Surface Science, 512, IF: 5.2
[9]Ni, Y.*,Zhang, H.,Hu, S., Wang, H., Volz, S., andXiong, S.*(2019). Interface diffusion-induced phonon localization in two-dimensional lateral heterostructures. International Journal of Heat and Mass Transfer, 114, IF: 4.3
[8] Hu, S., Zhang, H., Xiong, S., Zhang, H., Wang, H., Chen, Y., Volz, S., andNi, Y.*(2019). Screw dislocation induced phonon transport suppression in SiGe superlattices. Physical Review B, 100, IF:3.8
[7]J. Hou,B. Liu,Y. Zhang,X. Lu,C. Liu,Y. Tang,M. Wang,F. Dong,Y. Ni*andH. Zhang* (2019).Atomistic understanding of interfacial interactions between bone morphogenetic protein-7 and graphene with different oxidation degrees. Materials Chemistry Frontiers,
[6]Zhang, H., Hu, S., Wang, H., Chen, Y., Wang, H., &Ni, Y.*(2019). Thermal transport in three-dimensional carbon honeycombs.Chinese Journal of Physics, 59, 567-571. IF: 2.5
[5]Zhang, H., Xiong, S., Wang, H., Volz, S., &Ni, Y.*(2019). Thermal transport in graphene/h-BN lateral heterostructures with interface compositional diffusion.EPL 125, IF: 1.9
[4]Sun, S., Meng, F., Xu, Y., He, J.,Ni, Y.* &Wang, H.*(2019). Flexible, auxetic and strain-tunable two dimensional penta-X2C family as water splitting photocatalysts with high carrier mobility.Journal of Materials Chemistry A, 7, 7791-7799. IF: 10.7
[3]Zhang, H., Wang, H., Xiong, S., Han, H., Volz, S., &Ni, Y.*(2018). Multiscale Modeling of Heat Dissipation in 2D Transistors Based on Phosphorene and Silicene.Journal of Physical Chemistry C, 122(5), 2641-2647. IF: 4.5
[2]Sun, S., Meng, F., Wang, H., Wang, H., &Ni, Y.*(2018). Novel two-dimensional semiconductor SnP3: high stability, tunable bandgapsand high carrier mobility explored using first-principles calculations.Journal of Materials Chemistry A, 6(25), 11890-11897. IF: 10.7
[1]Zhang, H., Han, H., Xiong, S., Wang, H., Volz, S., &Ni, Y.*(2017). Impeded thermal transport in composition graded SiGe nanowires.Applied Physics Letters, 111(12). IF: 3.5
2016年以前發表論文列表:
[1]Yuxiang Ni, S. Xiong, S. Volz, and T. Dumitrica, Thermal Transport Along the Dislocation Line in Silicon Carbide. Physical Review Letters (2014) 113, (入選該期雜誌封面). SCI期刊論文,影響因子:8.8
[2]Yuxiang Ni, H. Han, S. Volz, and T. Dumitrica, Nanoscale azide polymer functionalization: A robust solution for enhancing the carbon nanotube-polymer matrix thermal interface. Journal of physical chemistry C (2015) 119, SCI期刊論文,影響因子:4.5
[3] H. Han, Y. Zhang, N.Wang, M. K. Samani,Yuxiang Ni, et al., Functionalization Mediates Heat Transport in Graphene Nanoflakes. Nature Communications, (2016) 7:11281,SCI期刊論文,影響因子:11.4
[4]Yuxiang Ni, H. Le Khanh, Y. Chalopin, J. Bai, P. Lebarny, L. Divay, and S. Volz, Highly Efficient Thermal Glue for Carbon Nanotubes based on Azide Polymers. Applied Physics Letters (2012) 100: SCI期刊論文,影響因子:3.6
[5]Yuxiang Ni, Y. Chalopin, and S. Volz, Few layer graphene based superlattices as efficient thermal insulators. Applied Physics Letters (2013) 103, SCI期刊論文,影響因子:3.6
[6]Yuxiang Ni, Y. Chalopin, and S. Volz, Significant thickness dependence of the thermal resistance between few-layer graphenes. Applied Physics Letters (2013) 103, SCI期刊論文,影響因子:3.6
[7]Yuxiang Ni, Y. Kosevich, S. Xiong, Y. Chalopin, and S. Volz, Substrate Induced Cross-Plane Thermal Propagative Modes in Few Layer Graphene. Physical Review B (2014) 89, SCI期刊論文,影響因子:3.7
[8]Yuxiang Ni, Z. Liu, W. Gao, S. Qu, J. Weng, B. Feng, Characterization of self-assembled decyl bis phosphonate–Collagen layers on titanium by QCM-D and osteoblast-compatibility. Applied Surface Science (2011) 257: 9287-9292. SCI期刊論文,影響因子:2.1
[9]Yuxiang Ni, B. Feng, J. Wang, X. Lu, S. Qu, J. Weng, Decyl bis Phosphonate-Protein Surface Modification of Ti-6Al-4V via a Layer-by-layer Technique. Journal of Materials Science (2009) 44: 4031-4039. SCI期刊論文,影響因子:2.3
[10]Yuxiang NiJ. Jiang, E. Meletis, and T. Dumitrica, Thermal Transport Across Few-Layer Hexagonal Boron Nitride Encased by Silica. Applied physics letters (2015) 107: SCI期刊論文,影響因子:3.6
[11]Yuxiang Ni, J. Ordonez-Miranda, and S. Volz, Modeling of graphene and few-layer graphene heat spreaders for hot spot cooling. Thermal Investigations of ICs and Systems, 25-27, Sept. 2013, Berlin. EI收錄
[12]Yuxiang Ni, Y. Chalopin, and S. Volz, Calculation of inter-plane thermal resistance of few-layer graphene from equilibrium molecular dynamics simulations. Journal of Physics: Conference Series. (2012) 395: . EI收錄
[13] X. Wu,Yuxiang Ni, J. Zhu, N. D. Burrows, C. J. Murphy, T. Dumitrica and X. Wang, Thermal Transport across Surfactant Layers on Gold Nanorods in Aqueous Solution. ACS Applied Materials & Interfaces, (2016) SCI期刊論文,影響因子:6.72
[14] J. Al-Ghalith,Yuxiang Ni, T. Dumitrica, Nanowires with Dislocations for Ultralow Lattice Thermal Conductivity. Physical Chemistry Chemical Physics, 18, 9888-9892 (2016) SCI期刊論文,影響因子:4.49
[15] J. Ma,Yuxiang Ni, S. Volz, and T. Dumitrica, Thermal transport in single wall carbon nanotube under pure bending. Physical Review Applied, 3 (2015) 美國物理學會新雜誌,SCI期刊論文,影響因子:4.8
[16] S. Xiong, Y. Kosevich, K. Saaskilahti,Yuxiang Ni, and S. Volz, Tunable thermal conductivity in silicon twinning superlattice nanowires. Physical Review B (2014) 90, SCI期刊論文,影響因子:3.7
[17] K. Termentzidis, T. Barreteau,Yuxiang Ni, S. Merabia, X. Zianni, Y. Chalopin, P. Chantrenne, S. Volz, Modulated SiC nanowires: Molecular dynamics study of their thermal properties, Physical Review B (2013) 87: SCI期刊論文,影響因子:3.7
[18] I. Ostanin, Y. Wang,Yuxiang Ni, and T. Dumitrica, Nanomechanics of polycrystalline nanoparticles with the distinct element method. Journal of Engineering Materials and Technology (2014) 137, SCI期刊論文,影響因子:0.9
[19] W. Gao, B. Feng,Yuxiang Ni, Y. Yang, X. Lu, J. Weng, Protein Adsorption and Biomimetic Mineralization Behaviors of PLL-DNA Multilayered Films assembled onto titanium. Applied Surface Science (2010) 257: 538-546. SCI期刊論文,影響因子:2.1
[20] A. V. Pokropivny,Yuxiang Ni, Y. Chalopin, Y. M. Solonin, and S. Volz, Tailoring properties of graphene with vacancies, Physica status solidi (b), (2014)251 (3): 555-558. SCI期刊論文,影響因子:1.6
[21] S. Xiong, B. Latour,Yuxiang Ni, S. Volz, and Y. Chalopin, Efficient phonon blocking in SiC antiphase superlattice nanowires. Physical Review B, (2015) 91, SCI期刊論文,影響因子:3.7
[22] K Termentzidis, T Barreteau,Yuxiang Ni, H Huedro, P Chantrenne, A-L Delaye, Y Chalopin, S Volz, Thermal Conductivity and Kapitza Resistance of Diameter Modulated SiC nanowires, a Molecular Dynamics Study. Journal of Physics: Conference Series (2012) 395: EI收錄
[23] H Le Khanh, L Divay,Yuxiang Ni, P Le Barny, E Leveugle, E Chastaing, F Wyczisk, A Ziaei, S Volz, J Bai, Enhancement of the thermal properties of a vertically aligned carbon nanotube thermal interface material using a tailored polymer. Thermal Investigations of ICs and Systems (THERMINIC), 25-27 Sept. 2012 EI收錄
[24] J. Ma,Yuxiang Ni, and T. Dumitrica, Thermal conductivity tunability in purely bent carbon nanotubes and bi-layer graphene in the ballistic regime. Materials Today: Proceedings (2015) EI收錄
榮譽獎項
西南交通大學雛鷹學者
2016-2017 物理科學與技術學院優秀共產黨員
