Publications by authors named "Beitao Ren"
Article Synopsis
- * Researchers achieved this by using a dip-coating technique to grow perovskite quantum wire arrays on aluminum fibers, resulting in full-color light emissions at red, green, and sky-blue wavelengths.
- * The developed Fi-LEDs are enhanced with polydimethylsiloxane packaging, granting them mechanical flexibility, stretchability, and waterproof properties, while the aluminum fiber's plasticity allows for innovative one-dimensional to three-dimensional design possibilities.
Article Synopsis
- Recent advancements in artificial vision systems inspired by biological compound eyes offer diverse visual functions but face challenges due to complex electronics and mismatches between components.
- A novel pinhole compound eye integrates a 3D-printed honeycomb optical structure with a high-density nanowire photodetector array, eliminating lenses and allowing for customizable designs.
- The system demonstrates impressive features like an ultra-wide field of view, accurate positioning, and motion tracking, showing promise for enhanced robotic vision applications.
Metal halide perovskites have shown great promise as a potential candidate for next-generation solid state lighting and display technologies. However, a generic organic ligand-free and antisolvent-free solution method to fabricate highly efficient full-color perovskite light-emitting diodes has not been realized. Herein, by utilizing porous alumina membranes with ultra-small pore size as templates, we have successfully fabricated crystalline all-inorganic perovskite quantum wire arrays with ultrahigh density and excellent uniformity, using a generic organic ligand-free and anti-solvent-free solution method.
View Article and Find Full Text PDFPerovskite nanopillars (PNPs) are propitious candidates for solar irradiation harvesting and are potential alternatives to thin films in flexible photovoltaics. To realize efficient daily energy output, photovoltaics must absorb sunlight over a broad range of incident angles and wavelengths congruent with the solar spectrum. Herein, we report highly periodic three-dimensional (3D) PNP-based flexible photovoltaics possessing a core-shell structure.
View Article and Find Full Text PDFInfrared vision is highly desirable for applications in multifarious fields. Of the few species with this visual capability, snakes have exceptional infrared perception with the assistance of pit organs. Inspired by the pit organ design we present here a hemispherical biomimetic infrared imaging device.
View Article and Find Full Text PDFColor tunability of perovskite light-emitting diodes (PeLEDs) by mixed halide compositional engineering is one of the primary intriguing characteristics of PeLEDs. However, mixed halide PeLEDs are often susceptible to color red-shifting caused by halide ion segregation. In this work, strongly quantum-confined perovskite nanowires (QPNWs) made of CsPbBr are grown in nanoporous anodic alumina templates using a closed space sublimation process.
View Article and Find Full Text PDFCharge collection narrowing (CCN) has been reported to be an efficient strategy to achieve optical filter-free narrowband photodetection (NPD) with metal halide perovskite (MHP) single crystals. However, the necessity of utilizing thick crystals in CCN limits their applications in large scale, flexible, self-driven, and high-performance optoelectronics. Here, for the first time, we fabricate vertically integrated MHP quantum wire/nanowire (QW/NW) array based photodetectors in nanoengineered porous alumina membranes (PAMs) showing self-driven broadband photodetection (BPD) and NPD capability simultaneously.
View Article and Find Full Text PDF