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Lead-Sealed Stretchable Underwater Perovskite-Based Optoelectronics <i>via</i> Self-Recovering Polymeric Nanomaterials

Jinhyun Kim, Duhwan Seong, Hannah Kwon, Subin Jin, Hye Jun Kim, Yewon Kim, Yong-Cheol Jeong, Kwanil Lee, Seok Joon Kwon, Mikyung Shin, Donghee Son, In Soo Kim

2021ACS Nano19 citationsDOI

Abstract

To harness the full potential of halide perovskite based optoelectronics, biological safety, compatibility with flexible/stretchable platforms, and operational stability must be guaranteed. Despite substantial efforts, none has come close to providing a solution that encompasses all of these requirements. To address these issues, we devise a multifunctional encapsulation scheme utilizing hydrogen bond-based self-recovering polymeric nanomaterials as an alternative for conventional glass-based encapsulation. We show that Pb in physically damaged halide perovskite solar cells can be completely contained within the self-recovering encapsulation upon submersion in a simulated rain bath, as indicated by in vitro cytotoxicity tests. In addition, self-recovering encapsulation accommodates stable device operation upon casual bending and even stretching, which is in stark contrast to conventional glass-based encapsulation schemes. We also demonstrate the concept of assembling user-defined scalable modular optoelectronics based on halide perovskite solar cells and light emitting diodes through the use of self-recovering conductive nanocomposites. Finally, long-term operational stability of over 1000 h was achieved under harsh accelerated conditions (50 °C/50% RH and 85 °C/0% RH) with the incorporation of an ultrathin atomic layer deposited TiO2 barrier underneath the multifunctional encapsulation. In light of these merits, the encapsulation scheme based on self-recovering polymeric nanomaterials is proposed as a simple, but practical solution to a multifaceted challenge in the field of halide perovskites.

Topics & Concepts

Encapsulation (networking)Materials scienceHalideNanotechnologyNanomaterialsCompatibility (geochemistry)Composite materialComputer scienceChemistryInorganic chemistryComputer networkPerovskite Materials and ApplicationsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applications
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