Lead-rivet strategy of growing perovskite nanocrystals for excellent toxicity inhibition and spinning application

• Published in: Journal of hazardous materials Vol. 475; p. 134796
• Main Authors: Wang, Hanlong, Zhu, Shifeng, Sheng, Jiaoyue, Gao, Feihong, Yang, Lei, Hu, Xili, Fernández-Martínez, Francisco, Lin, Longhui, You, Chaoyu, Xing, Dongming
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.08.2024
• Subjects: Perovskite • lead rivet • toxicity inhibition • atomic layer deposition • fluorescent fiber and filament; Perovskite • lead rivet • toxicity inhibition • atomic layer deposition • fluorescent fiber and filament
• ISSN: 0304-3894; 1873-3336; 1873-3336
• DOI: 10.1016/j.jhazmat.2024.134796

Lead halide perovskite has demonstrated remarkable potential in the wearable field due to its exceptional photoelectric conversion capability. However, its lead toxicity issue has consistently been subject to criticism, significantly impeding its practical application. To address this challenge, an innovative approach called lead-rivet was proposed for the in-situ growth of perovskite crystalline structures. Through the formation of S-Pb bonds, each Pb2+ ion was firmly immobilized on the surface of the silica matrix, enabling in situ growth of perovskite nanocrystals via ion coordination between Cs+ and halide species. The robust S-Pb bonding effectively restricted the mobility of lead ions and stabilized the perovskite structure without relying on surface ligands, thereby not only preventing toxicity leakage but also providing a favorable interface for depositing protective shells. The obtained perovskites exhibit intense and narrow-band fluorescence with full-width at half-maximum less than 23 nm and show excellent stability to high temperature (above 202 °C) and high humidity (water immersion over 27 days), thus making it possible to be used in varies textile technologies including melt spinning and wet spinning. The lead leakage rate of particles is only 4.15 % demonstrating excellent toxicity inhibition performance. The prepared fibers maintained good extensibility and flexibility which could be used for 3D-printing and textiles weaving. Most importantly, the detected Pb2+ leaching was negligible as low as to 0.732 ppb which meet the standard of World Health Organization (WHO) for drinking water (<10 ppb), and the cell survival rate remained 99.196 % for PLA fluorescent filament after 24 h cultivation which showing excellent safety to human body and environment. This study establishes a controllable and highly adaptable synthesis method, thereby providing a promising avenue for the safe utilization of perovskite materials. [Display omitted] •Lead-rivet strategy was proposed for in-situ crystallization of perovskites.•S-Pb bonds can stabilize the perovskites with better heat stability more than 202 °C.•More than 96 % lead pollution in perovskite could be prevented by lead-rivet strategy.•Continuous fluorescent filaments were achieved by melt-spinning and wet-spinning.