One-dimensional van der Waals material SbPS4 with large bandgap for UV sensing applications.

UV sensors possess high importance for modern electronics such as environmental monitoring, health diagnostics, and optoelectronic devices. Thus UV-sensing-materials with high stability has drawn significant interest for next generation UV sensors. Herein, a simple synthesis method of SbPS 4 has been proposed. Then the SbPS 4 crystals are effectively delaminated by micromechanical exfoliation into a few-nanometer-scale nanowires, which is the first demonstration of the material's possibility of exfoliation down to one-molecular-layer thickness. Weak van der Waals (vdW) interaction within the crystal lattice can be easily overcome. The exfoliated SbPS 4 nanowires showed one-dimensional tube structure, and the work function of SbPS 4 showed strong thickness dependence and was confirmed through Scanning Kelvin probe microscopy. The bandgap of 2.54 eV of SbPS 4 , showed great sensitivity to UV lights, depicting SbPS 4 as a promising future UV sensing material for future optoelectronic application. [Display omitted] • Synthesis of one-dimensional van der Waals material SbPS 4 with a tubular molecular structure • Single chain exfoliation of SbPS 4 and its thickness-dependency of work function • Optical property of SbPS 4 as UV-detecting material [ABSTRACT FROM AUTHOR]