Books & Book Chapters
2022
Guangzhao Qin
InTech (2022)
ISBN: 978-1-83962-610-4, 148 pages
Introductory Chapter, DOI: 10.5772/intechopen.102047
Chapter 2: Two dimensional silicon
In book: Silicon Nanomaterials Sourcebook: Low-Dimensional Structures, Quantum Dots, and Nanowires, Volume One, Editor: Klaus D. Sattler
2017
Guangzhao Qin#, Han Xie#, Hua Bao*, and Ming Hu
CRC Press (2017), Pages 43-76, DOI: 10.1201/9781315153544-4
Chapter 9: Diverse Thermal Transport Properties of Two-Dimensional Materials: A Comparative Review
In book: Two-dimensional Materials - Synthesis, Characterization and Potential Applications, Editor: Pramoda Kumar Nayak, pp.199-217
2016-08-31
Guangzhao Qin and Ming Hu*
InTech (2016), DOI: 10.5772/64298
Accepted for indexing in the Book Citation Index in the Web of Science™ Core Collection (BKCI). The Book Citation Index (BKCI) is the world’s leading citation index with multidisciplinary content from the top tier publications.
Reached 1000 downloads at 2018-11-27.
2023
[95] 3D printing double-layer hydrogel evaporator with surface structures for efficient solar steam generation
2022-11-24
Xiong Zheng*#, Yanqiong Bao#, An Huang#, and Guangzhao Qin*, and Maogang He
Separation and Purification Technology 306, 122741 (2023)
[94] Emerging negative Poisson’s ratio driven by strong intralayer interaction response in rectangular transition metal chalcogenides
2022-10-29
Linfeng Yu, Yancong Wang, Xiong Zheng, Huimin Wang, Zhenzhen Qin, and Guangzhao Qin*
Applied Surface Science 610, 155478 (2023)
2022
[93] Activated lone-pair electrons lead to low lattice thermal conductivity: a case study of boron arsenide
2022-12-28
Guangzhao Qin*, Jianhua Xu, Huimin Wang*, Zhenzhen Qin*, Ming Hu*
The Journal of Physical Chemistry Letters 14, 139-147 (2022)
[92] Electric-controlled tunable thermal switch based on Janus monolayer MoSSe
2022-12-24
Donghai Wei, E Zhou, Xiong Zheng, Huimin Wang*, Chen Shen*, Hongbin Zhang, Zhenzhen Qin*, and Guangzhao Qin*
npj Computational Materials 8, 260 (2022)
[91] Efficient modulation of thermal transport in two-dimensional materials for thermal management in device applications
2022-12-22
Fuqing Duan, Donghai Wei, Ailing Chen, Xiong Zheng, Huimin Wang, and Guangzhao Qin*
Nanoscale accepted (2022)
[90] Multi-scale Simulation of Mechanical and Thermal Transport Properties of Materials Based on Machine Learning Potential
2022-12-20
Jing Wu, An Huang, Hanpeng Xie, Donghai Wei, Aonan Li, Bo Peng, Huimin Wang, Zhenzhen Qin, Te-huan Liu*, and Guangzhao Qin*
Journal of the Chinese Ceramic Society accepted (2022)
[89] Anisotropic Optical, Mechanical, and Thermoelectric Properties of Two-Dimensional Fullerene Networks
2022-12-05
Linfeng Yu, Jinyuan Xu, Bo Peng, Guangzhao Qin*, and Gang Su*
The Journal of Physical Chemistry Letters 13, 11622 (2022)
[88] The record low thermal conductivity of monolayer Cuprous Iodide (CuI) with direct wide bandgap
2022-11-10
Jinyuan Xu, Ailing Chen, Linfeng Yu, Donghai Wei, Qikun Tian, Huimin Wang, Zhenzhen Qin, and Guangzhao Qin*
Nanoscale 14, 17401 (2022)
[87] Enhanced optical absorption and solar steam generation of CB-ATO hybrid nanofluids
2022-09-03
Dan Qu, Lekai Cheng, Yanqiong Bao, Yingxv Gao, Xiong Zheng*, and Guangzhao Qin
Renewable Energy 199, 509 (2022)
[86] Softened sp2-sp3 bonding network leads to strong anharmonicity and weak hydrodynamics in graphene+
2022-08-25
Linfeng Yu, Ailing Chen, Xiaoxia Wang, Huimin Wang, Zhenzhen Qin, and Guangzhao Qin*
Physical Review B 106, 125410 (2022);
[85] Thermal Conductivity of Ethylene Glycol and Water Binary Mixtures at Evaluated Temperature and Pressure
2022-08-22
An Huang, Yanqiong Bao, Houpei Li, Yu Liu, Xiong Zheng*, and Guangzhao Qin
The Journal of Chemical Thermodynamics 175, 106900 (2022)
[84] Significantly suppressed thermal transport by doping In and Al atoms in Gallium Nitride
2022-08-07
Chengdong Qi, Linfeng Yu, Xiaolu Zhu, Shaoxun Li, Kun Du, Zhenzhen Qin∗, Guangzhao Qin∗, and Zhihua Xiong∗
Physical Chemistry Chemical Physics 24, 21085-21093 (2022)
[83] Anomalous thermal transport behavior in graphene-like carbon nitride (C3N)
2022-07-28
Guangzhao Qin, Jianzhou Lin, Huimin Wang, Jianjun Hu, Zhenzhen Qin*, and Ming Hu*
Journal of Materials Chemistry C 10, 12080 (2022)
[82] Realizing ultra-low thermal conductivity by strong synergy of asymmetric geometry and electronic structure in boron nitride and arsenide
2022-07-24
Linfeng Yu, Jinyuan Xu, Chen Shen, E Zhou, Jing Wu, Hongbin Zhang, Xiong Zheng, Huimin Wang, and Guangzhao Qin*
Rare Metals 42, 210-221 (2023)
[81] High-throughput computational evaluation of lattice thermal conductivity using an optimized Slack model
2022-07-16
Guangzhao Qin*, An Huang, Yinqiao Liu, Huimin Wang, Zhenzhen Qin*, Xue Jiang, Jijun Zhao, Jianjun Hu and Ming Hu*
Materials Advances 3, 6826 (2022)
[80] N-doped graphene film prepared by rapid thermal shock for ultra-sensitive temperature reading
2022-07-11
Gengyuan Liang, Suli Xing, Linfeng Yu, Guangzhao Qin, Bowen Lei, Yonglyu He, Jun Tang, Su Ju, Shuxin Bai, Jianwei Zhang*
Applied Surface Science 600, 154117 (2022);
2022-06-30
E Zhou#, Donghai Wei#, Jing Wu, Guangzhao Qin*, and Ming Hu*
Physical Chemistry Chemical Physics 24, 17479 (2022)
[78] Multifunctional two-dimensional graphene-like boron nitride allotrope of g-B3N5: A competitor to g-BN?
2022-06-16
Linfeng Yu, Yuqi Zhan, Donghai Wei, Chen Shen*, Hongbin Zhang, Zhenzhen Qin*, and Guangzhao Qin*
Journal of Alloys and Compounds 921, 165913 (2022);
[77] Enhancing thermal conductivity of silicone rubber composites by in-situ constructing SiC networks: A finite-element study based on first-principles calculation
2022-06-10
Dongliang Ding, Shiyu Zhang, Haoyu Liang, Xu Wang, Ya Wu, Yuanming Ye, Zhenguo Liu, Qiuyu Zhang, Guangzhao Qin*, and Yanhui Chen*
Nano Research 16, 1430 (2023)
[76] Experimental Measurement and Prediction of Thermal Conductivity of Fatty Acid Ethyl Esters: Ethyl Butyrate and Ethyl Caproate
2022-05-15
Xiong Zheng, Yanqiong Bao, Guangzhao Qin*, and Yu Liu*
Fluid Phase Equilibria 560, 113507 (2022)
[75] Anisotropy of thermal transport in phosphorene: A comparative first-principles study using different exchange-correlation functional
2022-05-11
Fa Zhang, Xiong Zheng, Huimin Wang, Liang Ding*, Guangzhao Qin*
Materials Advances 3, 5108-5117 (2022)
[74] The stable behavior of low thermal conductivity in 1T-sandwich structure with different components
2022-05-10
E Zhou, Jing Wu, Chen Shen, Hongbin Zhang, and Guangzhao Qin*
Journal of Applied Physics 131, 185702 (2022)
[73] Anisotropic Thermal and Electrical Transport properties Induced High Thermoelectric Performance in Ir2Cl2O2 Monolayer
2022-04-11
Qiang Fan, Jianhui Yang, Hangbo Qi, Linfeng Yu, Guangzhao Qin, Zhehao Sun, Chen Shen*, Ning Wang*
Physical Chemistry Chemical Physics 24, 11268-11277 (2022)
[72] The consistent behavior of negative Poisson’s ratio with interlayer interactions
2022-04-09
Yancong Wang, Linfeng Yu, Fa Zhang, Qiang Chen, Yuqi Zhan, Lingwei Meng, Xiong Zheng*, Huimin Wang*, Zhenzhen Qin*, and Guangzhao Qin*
Materials Advances 3, 4334-4341(2022)
[71] Accessing negative Poisson’s ratio of graphene by machine learning interatomic potentials
2022-04-07
Jing Wu, E Zhou, Zhenzhen Qin, Xiaoliang Zhang*, and Guangzhao Qin*
Nanotechnology 33, 275710 (2022)
[70] Thermally conductive silicone rubber composites with vertically oriented carbon fibers: A new perspective on the heat conduction mechanism
2022-03-28
Dongliang Ding, Ruoyu Huang, Xu Wang, Shiyu Zhang, Ya Wu, Xue-ao Zhang*, Guangzhao Qin*, Zhenguo Liu, Qiuyu Zhang, and Yanhui Chen*
Chemical Engineering Journal 441, 136104 (2022)
[69] Hydrodynamically enhanced thermal transport due to strong interlayer interactions: A case study of strained bilayer graphene
2022-03-09
Fuqing Duan, Chen Shen, Hongbin Zhang, and Guangzhao Qin*
Physical Review B 105, 125406 (2022)
[68] A brief perspective to the development of emerging thermoelectric materials
2022-03-02
Zhenzhen Qin, Hongbin Zhang*, and Guangzhao Qin*
Frontiers in Materials 9, 803853 (2022)
[67] Measurement of the thermal conductivity of the components of biodiesels: Methyl laurate and methyl myristate
2022-03-01
Xiong Zheng*, An Huang, Yanqiong Bao, Sheng Wang, Guangzhao Qin, Yu Liu
Fluid Phase Equilibria 556, 113409 (2022)
[66] Thermal conductivity of polydisperse hexagonal BN/polyimide composites: Iterative EMT model and machine learning based on first principles investigation
2022-02-23
Dongliang Ding, Minhao Zou, Xu Wang, Guangzhao Qin, Shiyu Zhang, Siew Yin Chan, Qingyong Meng, Zhenguo Liu*, Qiuyu Zhang, and Yanhui Chen*
Chemical Engineering Journal 437, 135438 (2022)
[65] Half-Negative Poisson's Ratio in Graphene+ With Intrinsic Dirac Cone
2022-02-01
Linfeng Yu, Zhenzhen Qin, Huimin Wang, Xiong Zheng, and Guangzhao Qin*
Cell Reports Physical Science 3, 100790 (2022)
[64] Abnormal enhancement of thermal conductivity by planar structure: A comparative study of graphene-like materials
2022-01-02
Linfeng Yu, Yu Tian, Xiong Zheng, Huimin Wang, Chen Shen, and Guangzhao Qin*
International Journal of Thermal Science 174, 107438 (2022)
2021
[63] Two-dimensional buckling structure induces the ultra-low thermal conductivity: a comparative study of the group GaX (X= N, P, As)
2021-12-20
Chen Shen, Niloofar Hadaeghi, Harish K Singh, Teng Long, Ling Fan, Guangzhao Qin*, and Hongbin Zhang*
Journal of Materials Chemistry C 10, 1436-1444 (2021)
[62] Two-Dimensional Layered MSi2N4 (M= Mo, W) as Promising Thermal Management Materials
2021-12-16
Chen Shen#, Lei Wang#, Donghai Wei, Yixuan Zhang, Guangzhao Qin*, Xingqiu Chen*, and Hongbin Zhang*
Physical Chemistry Chemical Physics 24, 3086-3093 (2021)
[61] Experimental Studies of Thermal Conductivity of Three Biodiesel Compounds: Methyl Pentanoate, Methyl Octanoate, and Methyl Decanoate
2021-12-08
Xiong Zheng, Dan Qu, Yanqiong Bao, Guangzhao Qin, Yu Liu*, and Qinlan Luo
Journal of Chemical & Engineering Data 67, 45–53 (2021)
[60] Unique Arrangement of Atoms Leads to Low Thermal Conductivity: A Comparative Study of Monolayer Mg2C
2021-10-19
Huimin Wang, E Zhou, Fuqing Duan, Donghai Wei, Xiong Zheng, Chao Tang, Tao Ouyang*, Yagang Yao*, Guangzhao Qin*, Jianxin Zhong
The Journal of Physical Chemistry Letters 12, 10353-10358 (2021)
[59] On the microscopic view of the low thermal conductivity of buckling two-dimensional materials from molecular dynamics
2021-10-01
Yuting Tang, Junwei Che, Guangzhao Qin*
Chemical Physics Letters 780, 138954 (2021)
[58] Two-dimensional Al2I2Se2: A promising anisotropic thermoelectric material
2021-09-25
Hangbo Qi, Zhehao Sun, Ning Wang*, Guangzhao Qin, Hongbin Zhang, and Chen Shen*
Journal of Alloys and Compounds 876, 160191 (2021)
[57] Novel optimization perspectives for thermoelectric properties based on Rashba spin splitting: a mini review
2021-08-30
Qikun Tian, Wenqi Zhang, Zhenzhen Qin*, and Guangzhao Qin
Nanoscale 13, 18032-18043 (2021)
[56] Ultra-high thermal conductivities of tetrahedral carbon allotropes with non-simple structures
2021-08-06
Qiang Chen#, Pei Zhang#, Tao Ouyang*, Xiaoliang Zhang*, and Guangzhao Qin*
Physical Chemistry Chemical Physics 23, 24550 (2021); Featured as Front Cover
[55] Different effects of Mg and Si doping on the thermal transport of gallium nitride
2021-08-06
Shaoxun Li#, Linfeng Yu#, Chengdong Qi, Kun Du, Guangzhao Qin*, and Zhihua Xiong*
Frontiers in Materials 8, 725219 (2021)
[54] Thermal conductivity measurements for long-chain n-alkanes at evaluated temperature and pressure: n-dodecane and n-tetradecane
2021-07-07
Xiong Zheng, Yanqiong Bao, Dan Qu, Jing Wu, Guangzhao Qin*, and Yu Liu*
The Journal of Chemical Thermodynamics 162, 106566 (2021)
[53] Ultralow lattice thermal conductivity and dramatically enhanced thermoelectric properties of monolayer InSe induced by an external electric field
2021-05-25
Zheng Chang, Kunpeng Yuan, Zhehao Sun, Xiaoliang Zhang*, Yufei Gao*, Guangzhao Qin*, and Dawei Tang*
Physical Chemistry Chemical Physics 23, 13633-13646 (2021)
[52] Uniform Strain-Dependent Thermal Conductivity of Pentagonal and Hexagonal Silicene
2021-05-17
Huake Liu*, Guangzhao Qin, and Ming Hu*
Frontiers in Materials 8, 683503 (2021)
[51] Measurement and modeling of thermal conductivity for short chain methyl esters: Methyl butyrate and methyl caproate
2021-04-23
Xiong Zheng, Yanqiong Bao, Dan Qu, Yu Liu*, and Guangzhao Qin*
The Journal of Chemical Thermodynamics 159, 106486 (2021)
[50] Computationally Guided Synthesis of High Performance Thermoelectric Materials: Defect Engineering in AgGaTe2
2021-03-14
Yaqiong Zhong, Debalaya Sarker, Tao Fan, Liangliang Xu, Xie Li, Guangzhao Qin*, Zhong-Kang Han*, and Jiaolin Cui*
Advanced Electronic Materials 2001262 (2021)
[49] Measurements and Calculations of Thermal Conductivity for Liquid n-octane and n-decane
2021-01-15
Xiong Zheng, Dan Qu, Fa Zhang, Yu Liu*, and Guangzhao Qin*
Fluid Phase Equilibria 533, 112940 (2021)
[48] The exceptionally high thermal conductivity after ‘alloying’ two-dimensional Gallium Nitride (GaN) and Aluminum Nitride (AlN)
2021-01-06
Huimin Wang#, Donghai Wei#, Junfei Duan, Zhenzhen Qin, Guangzhao Qin*, Yagang Yao*, and Ming Hu*
Nanotechnology 32, 135401 (2021)
[47] Intrinsically low lattice thermal conductivity of monolayer hexagonal aluminum nitride (h-AlN) from first-principles: A comparative study with graphene
2021-01-04
Huimin Wang, Linfeng Yu, Jinyuan Xu, Donghai Wei, Guangzhao Qin*, Yagang Yao*, and Ming Hu*
International Journal of Thermal Science 162, 106772 (2021)
2020
[46] Negative Poisson's ratio in two-dimensional honeycomb structures
2020-05-08
Guangzhao Qin* and Zhenzhen Qin*
npj Computational Materials 6, 51 (2020)
[45] Giant effect of spin-lattice coupling on the thermal transport in two-dimensional ferromagnetic CrI3
2020-02-03
Guangzhao Qin*#, Huimin Wang#, Lichuan Zhang, Zhenzhen Qin*, and Ming Hu*
Journal of Materials Chemistry C 8, 3520 (2020)
[44] Thermal transport properties of GaN with biaxial strain and electron-phonon coupling
2020-01-21
Daosheng Tang, Guangzhao Qin, Ming Hu, Bingyang Cao*
Journal of Applied Physics 127 (3), 035102 (2020)
Editor's Pick
[43] Rashba spin splitting and perpendicular magnetic anisotropy of Gd-adsorbed zigzag graphene nanoribbon modulated by edge states under external electric fields
2020-01-03
Zhenzhen Qin*, Guangzhao Qin*, Bin Shao, and Xu Zuo*
Phys. Rev. B 101, 014451(2020)
[42] Quasi-bonding driven abnormal isotropic thermal transport in intrinsically anisotropic nanostructure: A study case of phosphorus nanotube array
2019-11-24
Qingyi Liu, Tao Ouyang*, Guangzhao Qin*, Chaoyu He, Jin Li, chunxiao Zhang, Chao Tang and Jianxin Zhong
Nanotechnology 31, 095704 (2020)
2019
[41] Two-dimensional magnetic metal-organic frameworks with shastry-sutherland lattice
2019-09-25
Li-Chuan Zhang#, Lizhi Zhang#, Guangzhao Qin, Qing-Rong Zheng, Ming Hu*, Qing-Bo Yan*, and Gang Su*
Chemical Science 10, 10381 (2019)
[40] Efficient thermal conductivity modulation by manipulating interlayer interactions: A comparative study of bilayer graphene and graphite
2019-09-23
Zhehao Sun, Kunpeng Yuan, Zheng Chang, Xiaoliang Zhang*, Guangzhao Qin*, and Dawei Tang*
Journal of Applied Physics 126, 125104 (2019)
[39] First-principles study of electronic, optical and thermal transport properties of group III–VI monolayer MX (M= Ga, In; X= S, Se)
2019-06-25
Huimin Wang#, Guangzhao Qin#, Jiayue Yang, Zhenzhen Qin, Qiang Wang*, Yagang Yao*, and Ming Hu*
J. Appl. Phys. 125, 245104 (2019)
[38] Disparate strain response of thermal transport properties of bilayer penta-graphene compared to monolayer
2019-06-21
Zhehao Sun, Kunpeng Yuan, Xiaoliang Zhang*, Guangzhao Qin*, Xiaojing Gong*, and Dawei Tang*
Phys. Chem. Chem. Phys 21, 15647 (2019)
[37] Exploring T-carbon for Energy Applications
2019-03-19
Guangzhao Qin, Kuanrong Hao, Qingbo Yan*, Ming Hu*, and Gang Su*
Nanoscale 11, 5798-5806 (2019)
2018
[36] Dependence of phonon transport properties with stacking thickness in layered ZnO
2018-07-12
Chengxiao Peng, Guangzhao Qin, Lichuan Zhang, Guangbiao Zhang, Chao Wang, Yuli Yan, Yuanxu Wang*, and Ming Hu*
Journal of Physics D: Applied Physics 51, 315303 (2018)
[35] Lone-pair electrons induced anomalous enhancement of thermal transport in strained planar two-dimensional materials
2018-05-21
Guangzhao Qin, Zhenzhen Qin, Huimin Wang, and Ming Hu*
Nano Energy 50, 425-430 (2018)
[34] Origin of anisotropic negative Poisson's ratio in graphene
2018-05-14
Zhenzhen Qin, Guangzhao Qin*, and Ming Hu*
Nanoscale 10, 10365 (2018)
[33] On the diversity in the thermal transport properties of graphene: A first-principles-benchmark study testing different exchange-correlation functionals
2018-05-09
Guangzhao Qin, Zhenzhen Qin, Huimin Wang, and Ming Hu*
Comput. Mater. Sci. 151, 153-159 (2018)
[32] Lone-pair Electrons do not Necessarily Lead to Low Lattice Thermal Conductivity: An Exception of Two-dimensional Penta-CN2
2018-04-25
Huimin Wang#, Guangzhao Qin#, Zhenzhen Qin, Guojian Li, Qiang Wang*, and Ming Hu*
J. Phys. Chem. Lett. 9, 2474-2483 (2018)
[31] Methodology Perspective of Computing Thermal Transport in Low-Dimensional Materials and Nanostructures: The Old and the New
2018-03-19
Yanguang Zhou, Zheyong Fan, Guangzhao Qin, Jia-Yue Yang, Tao Ouyang, and Ming Hu*
ACS Omega 3, 3278 (2018)
[30] A C20 fullerene-based sheet with ultrahigh thermal conductivity
2018-02-20
Yupeng Shen, Fancy Qian Wang, Jie Liu, Yaguang Guo, Xiaoyin Li, Guangzhao Qin, Ming Hu, Qian Wang*
Nanoscale 10, 6099 (2018)
[29] Thermal transport in phosphorene
2018-02-02
Guangzhao Qin and Ming Hu*
Small 14, 1702465 (2018)
[28] Thermal transport properties of monolayer phosphorene: a mini-review of theoretical studies
2018-01-26
Guangzhao Qin and Ming Hu*
Frontier in Energy 12(1), 87-96 (2018)
[27] Accelerating evaluation of converged lattice thermal conductivity
2018-01-22
Guangzhao Qin and Ming Hu*
npj Computational Materials 4, 3 (2018)
[26] Unconventional thermal transport enhancement with large atom mass: A comparative study of two-dimensional transition dichalcogenides
2017-11-17
Huimin Wang, Guangzhao Qin, Guojian Li, Qiang Wang*, and Ming Hu*
2D materials 5, 015022 (2018);
2017
[25] Bond Saturation Significantly Enhances Thermal Energy Transport in Two-Dimensional Pentagonal Materials
2017-12-21
Zeyu Liu, Xufei Wu, Vikas Varshney, Jonghoon Lee, Guangzhao Qin, Ming Hu, Ajit K Roy, and Tengfei Luo*
Nano Energy 45, 1-9 (2018)
[24] Unconventional magnetic anisotropy in one-dimensional Rashba system realized by adsorbing Gd atom on zigzag graphene nanoribbons
2017-07-14
Zhenzhen Qin, Guangzhao Qin, Bin Shao and Xu Zuo*
Nanoscale 9, 11657 (2017)
[23] Unprecedented Increase of the Lattice Thermal Conductivity of Auxetic Carbon Crystals under Tensile Strain
2017-06-29
Yang Han, Yanguang Zhou, Guangzhao Qin, Jinming Dong, Douglas S. Galvao, and Ming Hu*
Carbon 122, 374 (2017)
[22] External electric field driving the ultra-low thermal conductivity of silicene
2017-05-17
Guangzhao Qin, Zhenzhen Qin, Sheng-Ying Yue, Qing-Bo Yan, and Ming Hu*
Nanoscale 9, 7227 (2017)
[21] Anomalously temperature dependent thermal conductivity of monolayer GaN with large deviation from the traditional 1/T law
2017-05-15
Guangzhao Qin, Zhenzhen Qin, Huimin Wang, and Ming Hu*
Phys. Rev. B 95, 195416 (2017)
[20] Metric for strong intrinsic fourth-order phonon anharmonicity
2017-05-09
Sheng-Ying Yue#, Xiaoliang Zhang#, Guangzhao Qin, Simon R. Phillpot*, and Ming Hu*
Phys. Rev. B 95, 195203 (2017)
[19] Low thermal conductivity of monolayer ZnO and its anomalous temperature dependence
2017-04-13
Huimin Wang, Guangzhao Qin, Guojian Li, Qiang Wang, Ming Hu*
Phys. Chem. Chem. Phys. 19, 12882 (2017)
[18] Orbitally driven low thermal conductivity of monolayer gallium nitride (GaN) with planar honeycomb structure: a comparative study
2017-03-15
Zhenzhen Qin, Guangzhao Qin, Xu Zuo*, Zhihua Xiong*, and Ming Hu*
Nanoscale 9, 4295 (2017)
[17] Thermal transport in novel carbon allotropes with sp2 or sp3 hybridization: An ab initio study
2017-02-27
Sheng-Ying Yue#, Guangzhao Qin#, Xiaoliang Zhang, Xianlei Sheng, Gang Su*, and Ming Hu*
Phys. Rev. B 95, 085207 (2017)
2016
[16] Nontrivial contribution of Fröhlich electron-phonon interaction to lattice thermal conductivity of wurtzite GaN
2016-12-15
Jia-Yue Yang#, Guangzhao Qin#, and Ming Hu*
Appl. Phys. Lett. 109, 242103 (2016)
[15] Resonant bonding driven giant phonon anharmonicity and low thermal conductivity of phosphorene
2016-10-26
Guangzhao Qin, Xiaoliang Zhang, Sheng-Ying Yue, Zhenzhen Qin, Huimin Wang, Yang Han, and Ming Hu*
Phys. Rev. B 94, 165445 (2016)
[14] Insight into the role of vibrational modes of organic cluster in ultra-low thermal conductivity of perovskite solar cells
2016-09-20
Sheng-Ying Yue#, Xiaoliang Zhang#, Guangzhao Qin, Jiayue Yang, Stephen Stackhouse, and Ming Hu*
Phys. Rev. B 94, 115427 (2016)
[13] Surface Chemical Tuning of Phonon and Electron Transport in Free-Standing Silicon Nanowire Arrays
2016-08-31
Ying Pan, Ye Tao, Guangzhao Qin, Yuriy Fedoryshyn, Shyamprasad Natarajan Raja, Ming Hu,Christian Lukas Degen, and Dimos Poulikakos*
Nano. Lett. 16 (10), 6364 (2016)
[12] Methodology for determining the electronic thermal conductivity of metals via direct nonequilibrium ab initio molecular dynamics
2016-08-25
Sheng-Ying Yue, Xiaoliang Zhang, Guangzhao Qin, Jiayue Yang, Stephen Stackhouse, and Ming Hu*
Phys. Rev. B 94, 115427 (2016)
[11] Phonon Transport in Ground State of Two-dimensional Silicon and Germanium
2016-07-18
Yang Han, Jinming Dong, Guangzhao Qin, and Ming Hu*
RSC Adv., 6, 69956 (2016)
[10] Disparate Strain Dependent Thermal Conductivity of Two-dimensional Penta-Structures
2016-05-26
Huake Liu, Guangzhao Qin, Yuan Lin, and Ming Hu*
Nano Lett. 16 (6), 3831 (2016)
[9] Strain modulated electronic and thermal transport properties of two-dimensional O-silica
2016-05-20
Yang Han, Guangzhao Qin, Christoph Jungemann, and Ming Hu*
Nanotechnology 27 (26), 265706 (2016)
[8] Diverse anisotropy of phonon transport in two-dimensional group IV-VI compounds: A comparative study
2016-04-27
Guangzhao Qin, Zhenzhen Qin, Wu-Zhang Fang, Li-Chuan Zhang, Sheng-Ying Yue, Qing-Bo Yan*, Ming Hu*, and Gang Su*
Nanoscale 8, 11306 (2016)
ESI Highly Cited Paper
TOP 100 cited articles published in Nanoscale in 2016
[7] Large tunability of lattice thermal conductivity of monolayer silicene via mechanical strain
2016-02-02
Han Xie, Tao Ouyang, Éric Germaneau, Guangzhao Qin, Ming Hu*, Hua Bao*
Phys. Rev. B 93, 075404 (2016)
ESI Highly Cited Paper
[6] Tinselenidene: a Two-dimensional Auxetic Material with Ultralow Lattice Thermal Conductivity and Ultrahigh Hole Mobility
2016-02-01
Li-Chuan Zhang, Guangzhao Qin, Wu-Zhang Fang, Hui-Juan Cui, Qing-Rong Zheng, Qing-Bo Yan*, Gang Su*
Scientific Reports 6, 19830 (2016)
2015
[5] Anisotropic intrinsic lattice thermal conductivity of phosphorene from first principles
2014-12-22
Guangzhao Qin, Qing-Bo Yan*, Zhenzhen Qin, Sheng-Ying Yue, Ming Hu*, and Gang Su*
Phys. Chem. Chem. Phys. 17, 4854 (2015)
ESI Highly Cited Paper
2014
[4] Energetics and magnetism of Co-doped GaN(0001) surfaces: A first-principles study
2014-12-10
Zhenzhen Qin, Zhihua Xiong*, Guangzhao Qin, and Lanli Chen
J. Appl. Phys. 116, 224503 (2014)
[3] Hinge-like structure induced unusual properties of black phosphorus and new strategies to improve the thermoelectric performance
2014-11-06
Guangzhao Qin, Qing-Bo Yan*, Zhenzhen Qin, Sheng-Ying Yue, Hui-Juan Cui, Qing-Rong Zheng, and Gang Su*
Scientific Reports 4, 6946 (2014)
ESI Highly Cited Paper
[2] Thermal conductivity of silicene calculated using an optimized Stillinger-Weber potential
2014-02-26
Xiaoliang Zhang, Han Xie, Ming Hu*, Hua Bao*, Shengying Yue, Guangzhao Qin, and Gang Su
Phys. Rev. B 89, 054310 (2014)
2013
[1] Behavior of aluminum adsorption and incorporation at GaN(0001) surface: First-principles study
2013-11-21
Zhenzhen Qin, Zhihua Xiong*, Guangzhao Qin and Qixin Wan
J. Appl. Phys. 114, 194307 (2013)
