Two-Step Patterning of Scalable All-Inorganic Halide Perovskite Arrays

Scientific Achievement

A: Schematics of two-step patterning concept.
B: Characterization of as-grown large scale perovskite arrays. (CsPbCl3 as a representative).

Developed a method for large scale all-inorganic halide perovskite array patterning.

Significance and Impact

This is the first ultrafast measurement of TaTe₂ and This method renders a platform for the study of fundamental properties and opportunities for perovskite-based optoelectronics

Research Details

The developed method enables the patterning of single crystal cesium lead halide perovskite arrays with tunable spacing (from 2 to 20 μm), composition (CsPbX3, X=Cl, Br, I), emission wavelength (420 nm, 525 nm, 720 nm) and crystal size (from 200 nm to 1.2 μm) in high production yield (almost every pixel in the array is successfully grown with converted perovskite crystals)
The two-step conversion concept can be generalized to other material systems to grow large scale arrays.

SHARE
Share this page on Twitter LinkdIn Share FB Share Email Share
HIGHLIGHTSTwo-Step Patterning of Scalable All-Inorganic Halide Perovskite Arrays
February 20, 2020

Scientific Achievement

Significance and Impact

Research Details

CK Lin, Q Zhao, Y Zhang, S Cestellos-Blanco, Q Kong, M Lai, J Kang, P Yang. ACS Nano. 2020, 14, 3500–3508

Scientific Achievement

Significance and Impact

Research Details

CK Lin, Q Zhao, Y Zhang, S Cestellos-Blanco, Q Kong, M Lai, J Kang, P Yang. ACS Nano. 2020, 14, 3500–3508

Footer