Shaoyu Lü's research while affiliated with Lanzhou University and other places
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Publications (2)
Polymeric room‐temperature phosphorescence (RTP) materials especially multicolor RTP systems hold great promise in concrete applications. A key feature in these applications is a triplet charge transfer transition. Aromatic electron donors and electron acceptors are often essential to ensure persistent RTP. There is much interest in fabricating non...
The arrival of the era of artificial intelligence is constantly advancing the development of flexible electronic materials. However, low mechanical properties, nonflexible signal transmission, and insensitive signal output have restricted their development as sensors. In this study, a superstretching MXene composite conductive hydrogel was develope...
Citations
... This also explains the gradual decrease in elongation at break due to the decrease in chain movement with increasing PCA content in Figure 4c. As a result, the high-PCA content caused excessive cross-linking, which rendered the MPH hydrogel brittle and showed a substantial decrease in both elongation at break and strength [35][36][37] With the addition of MXene, the Young's modulus of the hydrogel was significantly improved. With the addition of PCA, the Young's modulus of the hydrogel first rose to a maximum of 1.85 MPa and then decreased, which proved that the increase in crosslinking degree would significantly improve the hydrogel's strength, but the excess degree of crosslinking would hinder the movement of the polymer chain and reduce the hydrogel's stiffness. ...
