The low-grade waste heat, which constitutes majority of the total waste heat produced in
industrial sector, is very difficult to be recovered. Pyroelectric materials have recently …

This study investigates the piezoelectric and piezotronic properties of a novel composite
material comprising polyvinylidene fluoride (PVDF) and antimony sulphoiodide (SbSI) …

The energy conversion and sensor-based technologies play the crucial roles in
development of modern science and industry. A global energy consumption increases …

In this manuscript, a new fabrication technology for epoxy resin/antimony sulpho-iodide
(SbSI) nanowire composites is presented. SbSI nanowires, with lateral dimensions of 10 nm …

In this study, as a BaSnTiO 3 structure based material,(1-x) Ba (Sn, Ti) O 3-x (Ba, Ca) TiO 3
piezoelectric ceramic was investigated for piezoelectric applications. Even though high …

In this paper, the performance of epoxy/SbSI nanocomposite under tensile stress was
investigated. X-ray diffraction studies show the main stress mode has shear nature in the …

Antimony sulfoiodide (SbSI) exhibits great promise for photovoltaic applications due to it
being optically active in its ferroelectric phase. Previous studies on the SbSI system have …

In this paper, we have studied the soft piezoelectric properties of 0.5 Ba (Zr 0.2 Ti 0.8) O 3-
0.5 (Ba 0.7 Ca 0.3) TiO 3 doped with Sb 2 O 3. The optimal piezoelectric charge constant …

Structural changes in chlorine-substituted SbSI | Journal of Applied Physics | AIP Publishing
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Antimony sulfoiodide (SbSI) is a highly efficient energy conversion piezoelectric material.
We obtained SbSI doped with tin (II) ions according to the formula Sb 1− x Sn x SI 1− x (x= 0 …