College of Aeronautics and Astronautics, Xi’an Jiaotong University, China
Dr. Shengying Yue is a renowned professor at Xi’an Jiaotong University, specializing in computational engineering and material science. With a Ph.D. from RWTH Aachen University, his research focuses on thermal transport, electron-phonon interactions, and material behavior under stress. His work has been published in prestigious journals like Nature and Science Advances. Dr. Yue has made significant contributions to the study of two-dimensional materials, phonon transport, and their applications in various industries. He has held research positions at UCSB, AICES, and NIMS. His work is vital to advancing the understanding of heat transport in nanomaterials and their applications in energy systems and electronics.
Publication Profile
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Education š
Prof. Dr. Shengying Yue earned his Ph.D. in Computational Engineering Science from RWTH Aachen University, Germany (2014-2017), under the guidance of Professor Ming Hu and Dr. Edoardo Di Napoli. He completed his Masterās degree in Condensed Matter Physics at the University of Chinese Academy of Science, Beijing, China (2011-2014), working with Professor Gang Su. Prior to that, Prof. Yue obtained his Bachelorās degree in Applied Physics from Beijing University of Aeronautics and Astronautics, China (2007-2011). His extensive academic background in physics and computational engineering sets the foundation for his remarkable contributions to the field. šš
Professional Experience š§āš«
Prof. Dr. Shengying Yue has an extensive career in academia and research. He is currently a Professor at the School of Aerospace Engineering, Xiāan Jiaotong University (2022āPresent). Prior to this, he was a Researcher at the Institute of Advanced Technology, Shandong University (2021ā2022). Prof. Yue also held postdoctoral research positions at the University of California, Santa Barbara (UCSB), USA (2018ā2021), and the Aachen Institute for Advanced Computational Science (AICES), Germany (2014ā2018). Additionally, he gained valuable international experience as an International Exchange Intern at the National Institute for Materials Science (NIMS), Japan (2013). šš ļø
Research Focus š¬
Prof. Dr. Shengying Yue’s research primarily focuses on thermal conductivity and phonon transport in various materials, including two-dimensional (2D) compounds and nanomaterials. His work explores the impact of phonon anharmonicity, electron-phonon interactions, and thermal transport in materials such as phosphorene, silicene, and carbon nanotubes. Prof. Yue also investigates novel materials like metal-organic frameworks and Dirac semimetals, with applications in thermoelectrics, microwave absorption, and electromagnetic interference shielding. His contributions to computational physics help in designing materials with tailored thermal properties for next-generation technologies. š§āš¬šā”
Publication Top Notes
- Anisotropic intrinsic lattice thermal conductivity of phosphorene from first principles
Cited by: 439
Year: 2015 š
- Thermal conductivity of silicene calculated using an optimized Stillinger-Weber potential
Cited by: 311
Year: 2014 š§Ŗ
- Diverse anisotropy of phonon transport in two-dimensional group IVāVI compounds: A comparative study
Cited by: 277
Year: 2016 š¬
- Hinge-like structure induced unusual properties of black phosphorus and new strategies to improve the thermoelectric performance
Cited by: 253
Year: 2014 ā”
- Metal-organic frameworks with fine-tuned interlayer spacing for microwave absorption
Cited by: 146
Year: 2024 š”
- Resonant bonding driven giant phonon anharmonicity and low thermal conductivity of phosphorene
Cited by: 146
Year: 2016 š”
- External electric field driving the ultra-low thermal conductivity of silicene
Cited by: 88
Year: 2017 š
- Insight into the collective vibrational modes driving ultralow thermal conductivity of perovskite solar cells
Cited by: 83
Year: 2016 āļø
- Printable aligned single-walled carbon nanotube film with outstanding thermal conductivity and electromagnetic interference shielding performance
Cited by: 77
Year: 2022 š§
- Thermal transport in novel carbon allotropes with spĀ² or spĀ³ hybridization: An ab initio study
Cited by: 67
Year: 2017 š³
- Diameter Dependence of Lattice Thermal Conductivity of Single-Walled Carbon Nanotubes: Study from Ab Initio
Cited by: 56
Year: 2015 š
- Impact of electron-phonon interaction on thermal transport: A review
Cited by: 51
Year: 2021 š”ļø
- Widely Tunable Optical and Thermal Properties of Dirac Semimetal CdāAsā
Cited by: 46
Year: 2019 š®
- Soft phonons and ultralow lattice thermal conductivity in the Dirac semimetal CdāAsā
Cited by: 43
Year: 2019 š
- Controlling Thermal Conductivity of Two-dimensional Materials via Externally Induced Phonon-Electron Interaction
Cited by: 40
Year: 2019 āļø
- Metric for strong intrinsic fourth-order phonon anharmonicity
Cited by: 36
Year: 2017 āļø
- Unusual thermal boundary resistance in halide perovskites: A way to tune ultralow thermal conductivity for thermoelectrics
Cited by: 31
Year: 2019 šØ
- First-principles study on electronic and magnetic properties of twisted graphene nanoribbon and Mƶbius strips
Cited by: 31
Year: 2014 š
- Crystal symmetry based selection rules for anharmonic phonon-phonon scattering from a group theory formalism
Cited by: 30
Year: 2021 š
- Reduced thermal conductivity of epitaxial GaAs on Si due to symmetry-breaking biaxial strain
Cited by: 28
Year: 2019 š