Affiliation:
1. Key laboratory of Textile Science and Technology, Ministry of Education, College of Textiles, Donghua University, China
2. Shandong Nanshan Zhishang Sci-Tech Co., Ltd, China
Abstract
Nanoclusters, with their ultrasmall sizes, have emerged as an indispensable tool in designing structural materials with a wide range of applications, but predicting the synthesis mechanism and structures remains challenging. This work delineates a synthesis mechanism of gold nanoclusters (AuNCs), which is realized by functionalizing a wool keratin (WK) and silk fibroin (SF) resilience network structure via self-assembly with controllable microstructure transformation. We synthesized such AuNCs by reducing the thiol groups of WK into WK@AuNCs and then entering the WF&SF resilience framework during the reconstruction, achieving WK@AuNCs/WK&SF with high fluorescence intensity for selective quenching of heavy metal Cu2+ ions. Further investigation indicated that α-helix and β-crystallites resulted in a soft–hard molecular segment denoted as WK&SF resilience network, which held and separated the WK@AuNCs into the nanocages. Owing to the synergism of these features, WK@AuNCs/WK&SF displayed superior fluorescence performances compared with WK@AuNCs.
Subject
Polymers and Plastics,Chemical Engineering (miscellaneous)
Cited by
1 articles.
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