Wettability‐Guided Screen Printing of Perovskite Microlaser Arrays for Current‐Driven Displays

Halide perovskites have shown tremendous potential for next‐generation flat‐panel laser displays due to their remarkable optoelectronic properties and outstanding material processability; however, the lack of a general approach for the fast growth of perovskite laser arrays capable of electrical operations impedes actualization of their display applications. Herein, a universal and robust wettability‐guided screen‐printing technique is reported for the rapid growth of large‐scale multicolor perovskite microdisk laser arrays, which can serve as laser display panels and further be used to realize current‐driven displays. The perovskite microlasers are precisely defined with controlled physical dimensions and spatial locations by such a printing strategy, and each perovskite microlaser serves as a pixel of a display panel. Moreover, the screen‐printing procedure is highly compatible with light‐emitting diode (LED) device architectures, which is favorable for the mass production of micro‐LED arrays. On this basis, a prototype of a current‐driven display is demonstrated with desired functionalities. The outstanding performance and feasible fabrication of screen‐printed perovskite microlaser arrays embedded in LEDs provide deep insights into the concepts and device architectures of electrically driven laser display technology. Large‐scale multicolor perovskite microlaser arrays with controllable physical dimensions and spatial locations are rapidly constructed with a universal and robust strategy, which is subsequently utilized to develop high‐performance display panels. The results provide new opportunities to explore the concepts and device architectures of flat‐panel laser display technology.