An advanced ratiometric molecularly imprinted sensor based on metal ion reoxidation for indirect and ultrasensitive glyphosate detection in fruit
An indirect and ultrasensitive ratiometric molecularly imprinted (MIP) sensor, based on metal
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
An advanced ratiometric molecularly imprinted sensor based on metal ion reoxidation for indirect and ultrasensitive glyphosate detection in fruit
X Su, K Zheng, X Tian, X Zhou, X Zou, X Xu… - Food … - pubmed.ncbi.nlm.nih.gov
An indirect and ultrasensitive ratiometric molecularly imprinted (MIP) sensor, based on metal
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
An advanced ratiometric molecularly imprinted sensor based on metal ion reoxidation for indirect and ultrasensitive glyphosate detection in fruit.
X Su, K Zheng, X Tian, X Zhou, X Zou, X Xu, Z Sun… - Food …, 2023 - europepmc.org
An indirect and ultrasensitive ratiometric molecularly imprinted (MIP) sensor, based on metal
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
An advanced ratiometric molecularly imprinted sensor based on metal ion reoxidation for indirect and ultrasensitive glyphosate detection in fruit.
X Su, K Zheng, X Tian, X Zhou, X Zou, X Xu, Z Sun… - 2023 - cabidigitallibrary.org
An indirect and ultrasensitive ratiometric molecularly imprinted (MIP) sensor, based on metal
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …