Siqi Li
Southwest University
17 Papers
57 Citations
Siqi Li is an academic researcher from Southwest University. The author has contributed to research in topics: Chemistry & Adsorption. The author has an hindex of 14, co-authored 17 publications.
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Papers
Zeolitic imidazolate framework-8 derived nanoporous carbon as an effective and recyclable adsorbent for removal of ciprofloxacin antibiotics from water.
TL;DR: In this article, the nanoporous carbons (NPC) derived from a one-step carbonization of zeolitic imidazolate framework-8 (ZIF-8) were synthesized and used for ciprofloxacin (CIP) removal from water.
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Recent advances in the construction and analytical applications of metal-organic frameworks-based nanozymes
TL;DR: In this paper, the authors summarize the recent advance for the construction of MOFs-based nano-zymes and their primary applications in chemical sensing and biosensing, and a summary and future perspective on the applications of these nanozymes are briefly discussed.
314
Size-controllable Fe-N/C single-atom nanozyme with exceptional oxidase-like activity for sensitive detection of alkaline phosphatase
TL;DR: The work provides a promising strategy to rationally design the transition metal-N/C single-atom nanozyme with high oxidase-like activity in size controllable Fe-Zn ZIFs precursors.
268
MOF-derived Co3O4@Co-Fe oxide double-shelled nanocages as multi-functional specific peroxidase-like nanozyme catalysts for chemo/biosensing and dye degradation
TL;DR: In this paper, the Co3O4@Co-Fe oxide double-shelled nanocages (DSNCs) were prepared via anion-exchange combined with low-temperature pyrolysis by using ZIF-67 as a starting template.
235
Promoting Active Sites in MOF-Derived Homobimetallic Hollow Nanocages as a High-Performance Multifunctional Nanozyme Catalyst for Biosensing and Organic Pollutant Degradation
TL;DR: A general strategy to fabricate the Co-based homobimetallic hollow nanocages by ion-assistant solvothermal reaction and subsequent low-temperature calcination from metal-organic frameworks offers a promising multifunctional nanozyme catalyst for clinical diagnostics and pollution removal and gives some clues for the further development of novel nanozymes with highly catalytic activities.
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