Supramolecule self-assembly synthesis of amyloid phenylalanine-Cu fibrils with laccase-like activity and their application for dopamine determination
Author:
Funder
Jilin Scientific and Technological Development Program
Publisher
Springer Science and Business Media LLC
Subject
Analytical Chemistry
Link
https://link.springer.com/content/pdf/10.1007/s00604-022-05194-9.pdf
Reference48 articles.
1. Benkovic SJ, Hammes-Schiffer S (2003) A perspective on enzyme catalysis. Science 301:1196–1202
2. Wang X, Qin L, Zhou M, Lou Z, Wei H (2018) Nanozyme sensor arrays for detecting versatile analytes from small molecules to proteins and cells. Anal Chem 90:11696–11702
3. Schmid A, Dordick JS, Hauer B, Kiener A, Wubbolts M, Witholt B (2001) Industrial biocatalysis today and tomorrow. Nature 409:258–268
4. Zhong X, Xia H, Huang W, Li Z, Jiang Y (2020) Biomimetic metal-organic frameworks mediated hybrid multi-enzyme mimic for tandem catalysis. Chem Eng J 381:122758
5. Wang Z, Zhang R, Yan X, Fan K (2020) Structure and activity of nanozymes: inspirations for de novo design of nanozymes. Mater Today 41:81–119
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