Recent Advances in Electrochemical Sensors Based on Molecularly Imprinted Polymers and Nanomaterials

Lahcen, Abdellatif Ait; Amine, Aziz

doi:10.1002/elan.201800623

Cited by 127 publications

(60 citation statements)

References 143 publications

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“…Molecular imprinting technique is also the substitute of natural receptors and successfully used as an articial analytical receptor for molecular identication with binding properties as natural antibodies in immunoassays. 10,11 Therefore, MIPs are termed as plastic anti-bodies. Literature reveals that including biological structure more than 10 000 molecules such as inorganic ions, drugs, cells, nucleic acid, protein, and viruses have been imprinted successfully.…”

Section: Introductionmentioning

confidence: 99%

A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor

et al. 2020

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Section: Introductionmentioning

confidence: 99%

A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor

et al. 2020

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“…When MIP-NP binds to the target analyte, the transducer will produce electrical signal depend on the concentration or number of target analytes that are bind to MIP-NP. Then, the signal was measured by the signal processor electrochemically, either through voltammetry, amperometry, potentiometry, or impedance [14,[36][37][38].…”

Section: Mip-nps In Electrochemical Sensorsmentioning

confidence: 99%

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

Fauzi

Saputri

2019

Int J App Pharm

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Molecularly Imprinted Polymers (MIPs) is a polymer that binds together to form a specific binding site that is selective for certain analytes. Its high stability, its synthesize simplicity, and it can ease costs significantly make it was applied widely as a receptor instead of antibodies or enzymes. MIPs can be re-developed into MIPs nanoparticles (MIP-NPs) which have greater potential. MIPs use in electrochemical sensors have relevant applications in daily life and have been tested in human samples. Electrochemical sensors have been successfully functioned with MIP-NPs leading to real-time monitoring of drugs, pesticides, environmental contaminants, and secondary metabolites, as well as molecules with biological relevance. The aim of this review is to summarize the developments and applications of MIP-NPs as a selective recognition component in electrochemical sensors with special emphasis on their analytical applications.

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“…Several related reviews have been reported. Lahcen et al [10] mainly presented the development of MIPs modified with nanomaterials for electrochemical biosensors. Good electrical catalytic properties and excellent conductivity of nanomaterials combined with the comparable selectivity of MIPs endow them with powerful performance for various kinds of biomarkers.…”

Section: Introductionmentioning

confidence: 99%

Molecularly Imprinted Polymers and Surface Imprinted Polymers Based Electrochemical Biosensor for Infectious Diseases

Cui

Zhou

2020

Sensors

137

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Owing to their merits of simple, fast, sensitive, and low cost, electrochemical biosensors have been widely used for the diagnosis of infectious diseases. As a critical element, the receptor determines the selectivity, stability, and accuracy of the electrochemical biosensors. Molecularly imprinted polymers (MIPs) and surface imprinted polymers (SIPs) have great potential to be robust artificial receptors. Therefore, extensive studies have been reported to develop MIPs/SIPs for the detection of infectious diseases with high selectivity and reliability. In this review, we discuss mechanisms of recognition events between imprinted polymers with different biomarkers, such as signaling molecules, microbial toxins, viruses, and bacterial and fungal cells. Then, various preparation methods of MIPs/SIPs for electrochemical biosensors are summarized. Especially, the methods of electropolymerization and micro-contact imprinting are emphasized. Furthermore, applications of MIPs/SIPs based electrochemical biosensors for infectious disease detection are highlighted. At last, challenges and perspectives are discussed.

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Recent Advances in Electrochemical Sensors Based on Molecularly Imprinted Polymers and Nanomaterials

Cited by 127 publications

References 143 publications

A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor

A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor

MOLECULARLY IMPRINTED POLYMER NANOPARTICLES (MIP-NPs) APPLICATIONS IN ELECTROCHEMICAL SENSORS

Molecularly Imprinted Polymers and Surface Imprinted Polymers Based Electrochemical Biosensor for Infectious Diseases

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