Litcius/Paper detail

Poly(methyl methacrylate) Nanosphere-Based Photocrosslinked Hydrogels with Ultralong Phosphorescence Lifetimes for High-Precision 3D Printing

Zhipeng Zhao, Yanyu Bi, Yi Wu, Zhengshuo Wang, Huilong Liu, Cong Du, Hua Yuan, Dan Ding, Hanlin Ou, Yeqiang Tan

2025Nano Letters14 citationsDOI

Abstract

Hydrogel-based afterglow materials offer significant potential for broadening the application field of organic room-temperature phosphorescence (RTP) materials owing to their tissue-mimetic flexibility and superior biocompatibility. However, achieving a colorful and efficient RTP in a water-rich hydrogel environment remains challenging. Here, we present a general strategy to fabricate colorful and efficient RTP hydrogels by incorporating compact and hydrophobic nanospheres loaded with chromophores, synthesized via emulsion polymerization, into photocrosslinked hydrogels with oxygen barrier properties. The resultant hydrogel demonstrates a remarkably high water content of 94.6% and a maximum phosphorescence lifetime of up to 1697.0 ms, both significantly surpassing the relevant values of organic RTP hydrogels reported in prior studies. Furthermore, 3D RTP hydrogels with complex geometries and high precision are fabricated using digital light processing (DLP) 3D printing technology. This approach connects the RTP hydrogel and 3D printing fields for the first time, opening up substantial potential for advancing the applications of RTP materials.

Topics & Concepts

PhosphorescenceSelf-healing hydrogelsMethyl methacrylateMethacrylateMaterials science3D printingPhotopolymerPolymethyl methacrylateNanotechnologyOptoelectronicsPolymer chemistryPolymerOpticsFluorescenceCopolymerComposite materialPolymerizationPhysicsLuminescence and Fluorescent MaterialsAdvanced Sensor and Energy Harvesting MaterialsNanoplatforms for cancer theranostics