High Sensitive and Broadband Photodetectors Based on Hybrid PbI₂ Nanosheet/CdSe Nanobelt

Abstract: The limited detection of lead iodide (PbI2) to visible light hinders the further development of PbI2 in the field of optoelectronic applications. A photodetector based on PbI2 nanosheet/CdSe nanobelt (PbI2 NS/CdSe NB) is prepared for the first time. This composite structure exhibits broadband spectral photoresponse from ultraviolet (400 nm) to red (730 nm). More importantly, PbI2 NS/CdSe NB can promote the effective separation of electron–hole pairs and improve the photoelectric performance. Compared to single… Show more

“…The experimental values of the band gap can be obtained through a Kubelka–Munk transformation of the UV–vis spectra: [ F ( R ) h ν] 2 , where F ( R ) is the diffuse reflectance spectrum, h is Planck constant, ν is the frequency . The calculated band gap of PbI 2 nanoplates is about 2.36 eV (Figure d, Inset), which is in good agreement with previous reports. , Based on the above discussion, the large size PbI 2 nanoplates are successfully prepared on transparent conducting glasses using a facile and low-cost solution method.…”

“…The morphology of as-prepared PbI 2 nanoplates is characterized by scanning electron microscopy (SEM), showing a relatively flat surface except for some tiny island-shaped nanocrystals (Figure S1a). This phenomenon can also be observed in other solution-processed PbI 2 nanoplates. , The thickness of 2D PbI 2 nanoplates has been characterized by atomic force microscopy (AFM) and the average thickness of 2D PbI 2 nanoplates is 81.6 ± 4.8 nm (Figure S1b, c). To verify the crystal quality, the crystal structure of the prepared PbI 2 nanoplates is further investigated.…”

“…PbI 2 is selected for constructing self-powered photodetectors because it is one of the most investigated solution-processed photoelectric materials . As displayed in Figure a, b, the PbI 2 nanoplates prepared using the solution method show triangle and hexagon morphology on ITO and FTO.…”

“…■ RESULTS AND DISCUSSION PbI 2 is selected for constructing self-powered photodetectors because it is one of the most investigated solution-processed photoelectric materials. 16 As displayed in Figure 1a, b, the PbI 2 nanoplates prepared using the solution method show triangle and hexagon morphology on ITO and FTO. The morphology of as-prepared PbI 2 nanoplates is characterized by scanning electron microscopy (SEM), showing a relatively flat surface except for some tiny island-shaped nanocrystals (Figure S1a).…”

“…This phenomenon can also be observed in other solutionprocessed PbI 2 nanoplates. 16,17 The thickness of 2D PbI 2 nanoplates has been characterized by atomic force microscopy (AFM) and the average thickness of 2D PbI 2 nanoplates is 81.6 ± 4.8 nm (Figure S1b, c). To verify the crystal quality, the crystal structure of the prepared PbI 2 nanoplates is further investigated.…”

Flexible Omnidirectional Self-Powered Photodetectors Enabled by Solution-Processed Two-Dimensional Layered PbI₂ Nanoplates

“…The experimental values of the band gap can be obtained through a Kubelka–Munk transformation of the UV–vis spectra: [ F ( R ) h ν] 2 , where F ( R ) is the diffuse reflectance spectrum, h is Planck constant, ν is the frequency . The calculated band gap of PbI 2 nanoplates is about 2.36 eV (Figure d, Inset), which is in good agreement with previous reports. , Based on the above discussion, the large size PbI 2 nanoplates are successfully prepared on transparent conducting glasses using a facile and low-cost solution method.…”

“…The morphology of as-prepared PbI 2 nanoplates is characterized by scanning electron microscopy (SEM), showing a relatively flat surface except for some tiny island-shaped nanocrystals (Figure S1a). This phenomenon can also be observed in other solution-processed PbI 2 nanoplates. , The thickness of 2D PbI 2 nanoplates has been characterized by atomic force microscopy (AFM) and the average thickness of 2D PbI 2 nanoplates is 81.6 ± 4.8 nm (Figure S1b, c). To verify the crystal quality, the crystal structure of the prepared PbI 2 nanoplates is further investigated.…”

“…PbI 2 is selected for constructing self-powered photodetectors because it is one of the most investigated solution-processed photoelectric materials . As displayed in Figure a, b, the PbI 2 nanoplates prepared using the solution method show triangle and hexagon morphology on ITO and FTO.…”

“…■ RESULTS AND DISCUSSION PbI 2 is selected for constructing self-powered photodetectors because it is one of the most investigated solution-processed photoelectric materials. 16 As displayed in Figure 1a, b, the PbI 2 nanoplates prepared using the solution method show triangle and hexagon morphology on ITO and FTO. The morphology of as-prepared PbI 2 nanoplates is characterized by scanning electron microscopy (SEM), showing a relatively flat surface except for some tiny island-shaped nanocrystals (Figure S1a).…”

“…This phenomenon can also be observed in other solutionprocessed PbI 2 nanoplates. 16,17 The thickness of 2D PbI 2 nanoplates has been characterized by atomic force microscopy (AFM) and the average thickness of 2D PbI 2 nanoplates is 81.6 ± 4.8 nm (Figure S1b, c). To verify the crystal quality, the crystal structure of the prepared PbI 2 nanoplates is further investigated.…”

Flexible Omnidirectional Self-Powered Photodetectors Enabled by Solution-Processed Two-Dimensional Layered PbI₂ Nanoplates

Pressure‐Tailored Self‐Driven and Broadband Photoresponse in PbI₂

CdSe – Based Photodetectors for Visible-NIR Spectral Region