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高宇飞.Extremely Low Thermal Conductivity of Polycrystalline Silicene[J],Journal of Physical Chemistry C,2022,122(16):9220-9228
苑昆鹏.Effects of tensile strain and finite size on thermal conductivity in monolayer WSe2[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2022,21(1):468-477
Liu, Yinqiao.Effects of spin-phonon coupling on two-dimensional ferromagnetic semiconductors: a case study of ...[J],NANOSCALE,2022,13(16):7714-7722
Sun, Zhehao.Efficient thermal conductivity modulation by manipulating interlayer interactions: A comparativ...[J],JOURNAL OF APPLIED PHYSICS,2022,126(12)
Sun, Zhehao.Disparate strain response of the thermal transport properties of bilayer penta-graphene as comp...[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2022,21(28):15647-15655
胡成志.高热流密度条件下热能-压力波转换特性及其影响能量传递过程研究[A],2018年工程热物理传热传质分会,2018
郭飞.大学生创新创业训练计划项目的科学指导与实践[A],第二届全国大学生创新创业实践联盟年会,2022
Gao, Yufei.Extremely Low Thermal Conductivity of Polycrystalline Silicene[J],JOURNAL OF PHYSICAL CHEMISTRY C,2018,122(16):9220-9228
Gao, Yufei.Giant reduction in thermal conductivity of extended type-I silicon clathrates and prominent the...[J],JOURNAL OF MATERIALS CHEMISTRY C,2017,5(40):10578-10588
Sun, Zhehao,Yuan, Kunpeng,Chang, Zheng,Zhang, Xiaoliang,Qin, Guangzhao,Tang, Dawei.Efficient thermal conductivity modulation by manipulating interlayer interactions: A comparativ...[J],JOURNAL OF APPLIED PHYSICS,2019,126(12)
Hu, Chengzhi,Tang, Dawei,Lv, Jizu,Bai, Minli,Zhang, Xiaoliang.Molecular dynamics simulation of frictional properties of Couette flow with striped superhydrop...[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2019,21(32):17786-17791
Cui, Chao,Li, Mingqiang,Zhou, Xiaojie,Zhang, Xiaoliang.Synthesis of ZnO/carbon nanotube composites for enhanced electrochemical performance of Ni-Zn s...[J],MATERIALS RESEARCH BULLETIN,2019,112:261-268
Zhehao Sun,Kunpeng Yuan,张晓亮,唐大伟.First-principles Calculations of Interfacial Thermal Transport Properties between SiC_Si Substrat...[J],Physical Chemistry Chemical Physics,2019,21(11):6011-6020
高宇飞,张晓亮,唐大伟,Ming Hu.Unexpected Anisotropy of (14,14,14)-Graphyne_A Comprehensive Study on the Thermal Transport Prope...[J],Carbon,2018,143:189-199
Chao Cui,李明强,Xiaojie Zhou,张晓亮.Synthesis of ZnO_carbon nanotube composites for enhanced electrochemical performance of Ni-Zn sec...[J],Materials Research Bulletin,2018,112:261-268
胡成志,唐大伟,白敏丽,张晓亮,吕继组.高热流密度条件下热能-压力波转换特性及其影响能量传递过程研究[A],2018
Zhang, Ying-Yan,Pei, Qing-Xiang,Cheng, Yuan,Zhang, Yong-Wei,Zhang, Xiaoliang.Thermal conductivity of penta-graphene: The role of chemical functionalization[J],COMPUTATIONAL MATERIALS SCIENCE,2017,137:195-200
Lin, Changpeng,Zhang, Xiaoliang,Rao, Zhonghao.Theoretical prediction of thermal transport in BC2N monolayer[J],NANO ENERGY,2017,38:249-256
Pei, Qing-Xiang,Zhang, Xiaoliang,Ding, Zhiwei,Zhang, Ying-Yan,Zhang, Yong-Wei.Thermal stability and thermal conductivity of phosphorene in phosphorene/graphene van der Waals...[J],PHYSICAL CHEMISTRY CHEMICAL PHYSICS,2017,19(26):17180-17186
Xiaoliang Zhang.Tailoring thermal conductivity of AlN films by periodically aligned surface nano-grooves,Applied Physics Letters,2016,109(13):133107
Xiaoliang Zhang,Gang Su, Guangzhao Qin, Shengying Yue, Hua Bao, Ming Hu, Han Xie,Xiaoliang Zhang.Thermal Conductivity of Silicene Calculated using an Optimized Stillinger-Weber potential,Physical Review B,2014,89(5):054310
Ming Hu.Anomalous thermal response of silicene to uniaxial stretching,Physical Review B,2013,87(19):195417
Xiaoliang Zhang.Schemes for and Mechanisms of Reduction in Thermal Conductivity in Nanostructured Thermoelectrics,Journal of Heat Transfer,2012,134(10):102402
Tao Ouyang.Thermal conductivity of ordered-disordered material a case study of superionic Ag2Te,Nanotechnology,2014,26(2):025702
Yufei Gao.The unexpected non-monotonic inter-layer bonding dependence of the thermal conductivity of bilaye...,Nanoscale,2015,7:7143-7150
Xiaoliang Zhang.Thermal Conductivity of Zeolitic Imidazolate Framework-8: A Molecular Simulation Study,The Journal of Physical Chemistry C,2013,117(36):18441–18447
Sheng-Ying Yue.Insight into the collective vibrational modes driving ultralow thermal conductivity of perovskite...,Physical Review B,2016,94(11):115427
Xiaoliang Zhang.Thermal rectification at silicon/horizontally aligned carbon nanotube interfaces,Journal of Applied Physics,2013,113(19):194307
Xiaoliang Zhang.Robustly Engineering Thermal Conductivity of Bilayer Graphene by Interlayer Bonding,Scientific Reports,2016,6:22011
Xiaojing Gong.Atomic-scale behavior of adatoms in axial and radial growth of GaN nanowires: Molecular dynamics ...,Japanese Journal of Applied Physics,2014,53:085601
Ming Hu.Significant Reduction of Thermal Conductivity in SiGe Core-Shell Nanowires,Nano Letters,2010,11(2):618–623
Lin Zhang.Tuning thermal conductivity of crystalline polymer nanofibers by interchain hydrogen bonding,RSC Advances,2015,5:87981-87986
Ming Hu.Low thermal conductivity of graphyne nanotubes from molecular dynamics study,Physical Review B,2015,91(15):155408
Ming Hu.Thermal conductivity reduction in core-shell nanowires,Physical Review B,2011,84(8):085442
Sheng-Ying Yue.Methodology for determining the electronic thermal conductivity of metals via direct nonequilibri...,Physical Review B,2016,94(7):075149
Yanguang Zhou.Quantitatively analyzing phonon spectral contribution of thermal conductivity based on nonequilib...,Physical Review B,2015,92(19):195204
Guangzhao Qin.Resonant bonding driven giant phonon anharmonicity and low thermal conductivity of phosphorene,Physical Review B,2016,94(16):165445
Yanguang Zhou.An excellent candidate for largely reducing interfacial thermal resistance: a nano-confined mass ...,Nanoscale,2015,8:1994–2002
Xiaoliang Zhang,Ming Hu, Hua Bao,Xiaoliang Zhang.Bilateral Substrate Effect on the Thermal Conductivity of Two-dimensional Silicon,Nanoscale,2015,7:6014–6022
Xiaoliang Zhang,Dimos Poulikakos, Ming Hu,Xiaoliang Zhang.A Low-Frequency Wave Motion Mechanism Enables Efficient Energy Transport in Carbon Nanotubes at H...[J],Nano Letters,2012,12(7):3410-3416
Ming Hu.Large near junction thermal resistance reduction in electronics by interface nanoengineering,International Journal of Heat and Mass Transfer,2011,54:5183–5191