🔬 Low-dimensional Materials

We explore the fundamental physical properties and novel phenomena in various low-dimensional material systems, spanning from two-dimensional materials to three-dimensional nanostructures. Our research encompasses the investigation of mechanical, thermal, and structural characteristics of these materials through advanced theoretical modeling and computational approaches. We focus on understanding structure-property relationships and tunable material behaviors across different scales and geometries.

Currently, my representative works in this field include

• ASS 2024 Tunable wrinkle patterns in Moiré pattern of interlayer-bonding strained bilayer graphene, Siyu Liu, Yan Chen, Guoqian Zhang, Yilun Liu.
• IJTS 2023 The dual role of interlayer crosslinks leads to an abnormal behavior of interlayer thermal resistance in multilayer graphene , Yan Chen, Jing Wan, Yang Chen, Huasong Qin, Yilun Liu, Qing-Xiang Pei, Yong-Wei Zhang.
• pss (RRL) 2022 Modeling and Analysis of the Geometry‐Dependent Mechanical and Thermal Properties of Coiled Carbon Nanotubes, Yan Chen, Huasong Qin, Yilun Liu, Qing-Xiang Pei, Yong-Wei Zhang. Data File
• Nanoscale 2020 Exploring the structure–property relationship of three-dimensional hexagonal boron nitride aerogels with gyroid surfaces, Yan Chen, Huasong Qin, Juzheng Song, Zeming Liu, Yilun Liu, Qing-Xiang Pei.
• PCCP 2020 Three-dimensional auxetic properties in group V–VI binary monolayer crystals X3M2 (X = S, Se; M = N, P, As), Yan Chen, Xiangbiao Liao, Xiaoyang Shi, Hang Xiao, Yilun Liu, Xi Chen.