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 Chemistry, 2023 - Elsevier
An indirect and ultrasensitive ratiometric molecularly imprinted (MIP) sensor, based on metal
ion reoxidation, is introduced for glyphosate (GLY) determination in fruit. As high …
被引用次数:4 相关文章

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 …

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 …

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 …