Prof Dr. Zhigong Song | Solid Mechanics | Best Researcher Award 

Jiangnan University | China 

AUTHOR PROFILE

• Scopus

EARLY ACADEMIC PURSUITS

Prof. Dr. Zhigong Song's academic journey began at Beihang University, where he completed his undergraduate studies in 2011. He then pursued graduate studies at Tsinghua University under the supervision of Prof. Zhiping Xu, culminating in 2016. During this period, he also served as a visiting scholar at Rice University, hosted by Prof. Boris Yakobson. His postdoctoral research, guided by Prof. Huajian Gao at Tsinghua University, Brown University, and IHPC@SG, further solidified his expertise in Solid Mechanics and related fields. His academic pursuits were recognized with multiple honors, including the Tsinghua University Young Scholar of Distinction nomination award and the National Scholarship for graduate students, awarded three times consecutively.

PROFESSIONAL ENDEAVORS

Prof. Dr. Song's professional endeavors have focused on integrating Machine Learning with atomistic simulations to address complex problems in Solid Mechanics. His work has explored fracture mechanics and nano-indentation of low-dimensional materials, water behavior and transport in nano-confinement, and the interface and interaction between inorganic materials and biomaterials. He has also contributed to the academic community through his role as a visiting scholar at Rice University and his ongoing postdoctoral research, which spans prestigious institutions such as Tsinghua University and Brown University.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Dr. Song's research contributions are vast and interdisciplinary. His focus on Solid Mechanics and the application of Machine Learning to atomistic simulations has led to significant advancements in understanding the mechanical properties and behaviors of materials at the nanoscale. His expertise in molecular simulation (using tools like Lammps and NAMD), first-principles calculations (with VASP, CP2K, and DFTB+), and finite element analysis (Abaqus, Ansys, Adina) has enabled him to tackle complex problems in material science. Additionally, his proficiency with popular machine learning frameworks such as TensorFlow and PyTorch has facilitated the development of innovative solutions in this field.

IMPACT AND INFLUENCE

Prof. Dr. Song's research has had a notable impact on the field of i, particularly in the context of low-dimensional materials and their mechanical properties. His work has been published in several high-impact journals, and he has served as a reviewer for esteemed publications like Physical Review Letters, ACS Nano, and NPJ 2D Materials and Applications. His recognition as an Outstanding Lecturer in the Tsinghua University Ph.D. forum and his receipt of the Boeing Scholarship for graduate students underscore his influence and contributions to the academic community.

ACADEMIC CITATIONS

Prof. Dr. Song's research has been widely cited, reflecting the importance and relevance of his work in Solid Mechanics and material science. His contributions to understanding fracture mechanics, nano-indentation, and the behavior of materials under nano-confinement have been recognized by his peers and have influenced subsequent research in these areas. His interdisciplinary approach, combining Machine Learning with traditional mechanical analysis methods, has opened new avenues for research and application.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Dr. Song's legacy is marked by his innovative integration of Machine Learning with atomistic simulations to solve complex problems in Solid Mechanics. His future contributions are expected to further advance our understanding of material behavior at the nanoscale, particularly in the context of biomaterials and their interactions with inorganic materials. His ongoing research and academic involvement will continue to inspire and influence future generations of researchers and engineers.

SOLID MECHANICS 

Throughout his career, Prof. Dr. Song has focused on key areas such as Solid Mechanics, Machine Learning, and atomistic simulations. His research has provided valuable insights into fracture mechanics, nano-indentation, and the behavior of materials under nano-confinement. His extensive expertise in molecular simulation, first-principles calculations, and finite element analysis has positioned him as a leading figure in the study of Solid Mechanics and its applications in various scientific and engineering domains.

NOTABLE PUBLICATION

• Intrinsic toughening and stable crack propagation in hexagonal boron nitride

  Citation: 130     Year: 2021

• Hydrogen bonding sewing interface

  Citation: 03     Year: 2020

• Geometrical distortion leads to Griffith strength reduction in graphene membranes

  Citation: 25     Year: 2017

• Thermal transport in oxidized polycrystalline graphene

  Citation: 13     Year: 2016

• Intrinsic high water/ion selectivity of graphene oxide lamellar membranes in concentration gradient-driven diffusion

  Citation: 67     Year: 2016