Molecularly imprinted polymers based materials and their applications in chromatographic and electrophoretic separations

“…MIP synthesis includes several polymerization methods such as ground bulk which generates irregular size and shape particles; precipitation improves this situation with no control over molecular weight distribution; emulsion increases monodispersity, iniferter for a fine-tuned reaction advancement, and core–shell for smart/responsive particles. 44,87,95,147,148,152…”

“…24–26 These new platforms will pave the way towards an outstanding sensitive and selective performance that will undoubtedly advance future developments in food safety, environmental monitoring, and healthcare fields. 2,10,27,28,146,147,152…”

“…[24][25][26] These new platforms will pave the way towards an outstanding sensitive and selective performance that will undoubtedly advance future developments in food safety, environmental monitoring, and healthcare elds. 2,10,27,28,146,147,152 One possible way to create such a novel sensing platform is to take advantage of biomolecules attached in electronic devices (see Fig. 1 for the schematic illustration).…”

Molecularly imprinted polymersviareversible addition–fragmentation chain-transfer synthesis in sensing and environmental applications

“…MIP synthesis includes several polymerization methods such as ground bulk which generates irregular size and shape particles; precipitation improves this situation with no control over molecular weight distribution; emulsion increases monodispersity, iniferter for a fine-tuned reaction advancement, and core–shell for smart/responsive particles. 44,87,95,147,148,152…”

“…24–26 These new platforms will pave the way towards an outstanding sensitive and selective performance that will undoubtedly advance future developments in food safety, environmental monitoring, and healthcare fields. 2,10,27,28,146,147,152…”

“…[24][25][26] These new platforms will pave the way towards an outstanding sensitive and selective performance that will undoubtedly advance future developments in food safety, environmental monitoring, and healthcare elds. 2,10,27,28,146,147,152 One possible way to create such a novel sensing platform is to take advantage of biomolecules attached in electronic devices (see Fig. 1 for the schematic illustration).…”

Molecularly imprinted polymersviareversible addition–fragmentation chain-transfer synthesis in sensing and environmental applications

“…In general, the preparation of MIPs requires the single-template imprints of targeted molecules or similar molecules that can bind to the functional groups of functional monomers through covalent or noncovalent molecular interactions. Template molecules can be removed from prepared polymers, leaving imprinted 3D skeleton cavities for the specific rebinding of target molecules [ 10 , 11 ]. The ability of MIPs to recognize targeted analyte molecules is influenced by many factors, including ionic strength, pH, solution polarity and polymer type and size [ 12 ].…”

Molecularly Imprinting–Aptamer Techniques and Their Applications in Molecular Recognition

“…In this context, a wealth of different synthetic strategies were presented to facilitate the design of efficient, imprinted materials for the application of interest. More detailed explanations of the synthesis, application, and limitations of MIPs can be found recent reviews [ 2 , 12 , 14 , 17 , 24 , 27 , 33 , 34 , 35 , 36 , 37 , 38 , 39 , 40 , 41 , 42 , 43 , 44 , 45 , 46 , 47 , 48 ].…”

Artificial Biomimetic Electrochemical Assemblies