Perovskite Hollow Fibers with Precisely Controlled Cation Stoichiometry via One-Step Thermal Processing

Journal: Advanced Materials

Published: 2017-03-01

DOI: 10.1002/adma.201606377

Affiliations: 2

Authors: 6

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Research Highlight

One hot step for man-made perovskites

© Matteo Chinellato – ChinellatoPhoto/Photographer's Choice RF/Getty

© Matteo Chinellato – ChinellatoPhoto/Photographer's Choice RF/Getty

An eco-friendly one-step method could make hollow perovskite fibres a more affordable and efficient material for electronics and air purification.

Perovskites are an attractive class of materials for electrical catalysts and gas separation as they conduct both ions and electrons. However, making perovskite hollow fibres requires several energy intensive stages, temperatures reaching 1130 degrees Celsius, and perovskite powders, the fabrication of which releases toxic gases.

A Nanjing Tech University team developed a one-step thermal process that eliminates perovskite powder. They heated a mixture of Earth-abundant raw chemicals (barium, strontium, copper and iron) to burn off unwanted organic molecules and arrange the remaining atoms in a perovskite structure. Raising the temperature to 1050 degrees Celsius solidified — or ‘sintered’ — the structure faster than previous techniques. The team used their material to filter oxygen and found the permeation rate exceeded commercial targets by 25%.

This fast and energy efficient method could make it possible to build environmentally friendly perovskites for industrial uses.

Supported content

  1. Advanced Materials 29, 1606377 (2017). doi: 10.1002/adma.201606377
Institutions Share
State Key Laboratory of Materials-Oriented Chemical Engineering (MCE), NanjingTech, China 0.50
Jiangsu National Synergistic Innovation Center for Advanced Materials (SICAM), China 0.50