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Polymer-like Inorganic Double Helical van der Waals Semiconductor

Jiangbin Wu, Nan Wang, Yaru Xie, Hefei Liu, Xinghao Huang, Xin Cong, Hung‐Yu Chen, Jiahui Ma, Fanxin Liu, Hangbo Zhao, Jun Zhang, Ping‐Heng Tan, Han Wang

2022Nano Letters13 citationsDOI

Abstract

In high-performance flexible and stretchable electronic devices, conventional inorganic semiconductors made of rigid and brittle materials typically need to be configured into geometrically deformable formats and integrated with elastomeric substrates, which leads to challenges in scaling down device dimensions and complexities in device fabrication and integration. Here we report the extraordinary mechanical properties of the newly discovered inorganic double helical semiconductor tin indium phosphate. This spiral-shape double helical crystal shows the lowest Young's modulus (13.6 GPa) among all known stable inorganic materials. The large elastic (>27%) and plastic (>60%) bending strains are also observed and attributed to the easy slippage between neighboring double helices that are coupled through van der Waals interactions, leading to the high flexibility and deformability among known semiconducting materials. The results advance the fundamental understanding of the unique polymer-like mechanical properties and lay the foundation for their potential applications in flexible electronics and nanomechanics disciplines.

Topics & Concepts

van der Waals forceMaterials scienceSemiconductorNanomechanicsNanotechnologyBendingElastomerModulusPolymerOptoelectronicsComposite materialChemistryMoleculeOrganic chemistryAtomic force microscopyAdvanced Sensor and Energy Harvesting MaterialsMXene and MAX Phase Materials2D Materials and Applications
Polymer-like Inorganic Double Helical van der Waals Semiconductor | Litcius