Natural laccases are a family of multi‑copper oxidases that can oxidize multiple phenol substrates and of great importance to contaminant remediation and biosensing. However, the construction of substitutes for the expensive and perishable laccase used in harsh conditions remains a great challenge. Here, we reported a novel strategy for the fabrication of copper-doped lignin-based laccase nanozymes (Cu-AL) through the coordination of aminated lignin and different copper sources. The Cu-AL prepared from CuSO4, possessed highest Cu content and Cu+ proportion, exhibited the best laccase-like activity to various phenols degradation. Strikingly, the thermophilic Cu-AL exhibited superior catalytic activity at 100 °C (3.23 times than that of 60 °C) and durability (> 50 % activity even after 160 days stored in water). Furthermore, a smartphone-based detection platform was successfully developed to achieve the rapid, convenient, and accurate detection of epinephrine concentration. In summary, this work provides a new sustainable and low-cost way to design robust laccase nanozymes from lignocellulose biomass, especially for expanding the applications of enzymatic reaction with high-temperature operation and/or long-term storage in environmental remediation and biosensing.
Keywords: Epinephrine; Laccase; Lignin; Nanozyme; Phenolic degradation.
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