Electrochemical chiral sensor for levofloxacin detection base on Cu/Fe-BTC amplification

“…Due to the poor metabolism of LEV in the human body, approximately 87% of the ingested drug can be recovered in the urine and the accumulated LEV in the environment would pose a greater risk to humans and other animals [ 152 ]. Therefore, in order to detect LEV levels in humans and the environment more rapidly, sensitively, and selectively, Deng and co-workers proposed a dual recognition and dual amplification detection strategy for levofloxacin based on a Cu/Fe-BTC MOF-modified electrode sensor [ 153 ]. After the elution of levofloxacin, a new electrochemical assay for the detection of levofloxacin was established based on the obtained recognition site with levofloxacin, which effectively excluded the interference of the enantiomer of D-ofloxacin.…”

Bimetallic Coordination Polymers: Synthesis and Applications in Biosensing and Biomedicine

“…Due to the poor metabolism of LEV in the human body, approximately 87% of the ingested drug can be recovered in the urine and the accumulated LEV in the environment would pose a greater risk to humans and other animals [ 152 ]. Therefore, in order to detect LEV levels in humans and the environment more rapidly, sensitively, and selectively, Deng and co-workers proposed a dual recognition and dual amplification detection strategy for levofloxacin based on a Cu/Fe-BTC MOF-modified electrode sensor [ 153 ]. After the elution of levofloxacin, a new electrochemical assay for the detection of levofloxacin was established based on the obtained recognition site with levofloxacin, which effectively excluded the interference of the enantiomer of D-ofloxacin.…”

Bimetallic Coordination Polymers: Synthesis and Applications in Biosensing and Biomedicine