The Development of Molecular Imprinting Technology for Caffeine Extraction
International Journal of Technology, 2015 Molecularly Imprinted Polymers (MIPs) is a type of macromolecule formed by application of molecularly imprinting technology, which creates cavities in synthetic polymeric matrices which are highly selective to an imprinted template.
Faizatul Shimal Mehamod +3 more
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Molecular Imprinting Technology for Biomimetic Assemblies
Hacettepe Journal of Biology and Chemistry, 2020 The term biomimetic can be simply defined as the examination of nature. The scientists inspired by the enormous diversity of nature to solve human problems or facilitate daily life by mimicking natural models, systems, and elements especially in the biomedical and therapeutic applications to make better drugs, artificial organs, sensing instruments ...
Nilay Bereli +7 more
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Rapid drug detection equipment based on molecular imprinting and surface plasmon resonance technology [PDF]
Frontiers in ChemistryThis study develops high-sensitivity drug detection equipment combining molecular imprinting technology (MIT) and surface plasmon resonance (SPR) for rapid methamphetamine hydrochloride (MAPA) analysis.
Hong Jiang Yu +4 more
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[Progress in electric field assisted molecular imprinting technology]. [PDF]
Se PuMolecular imprinting technology (MIT) simulates the specific recognition mechanism between antibodies and antigens, and can construct separation media with specific recognition performance, demonstrating unique advantages in the fields of separation, purification, and trace detection in complex sample matrices.
Wu JY, Huang XJ.
europepmc +3 more sources
[Research progress in the application of molecular imprinting technology in catalysis]. [PDF]
Se PuThe synergistic enhancement of catalytic activity and selectivity constitutes a critical challenge in modern heterogeneous catalysis, which directly influences target product yield, reaction energy efficiency, and process economics. Molecular imprinting technology (MIT) has demonstrated exceptional potential in overcoming this limitation by enabling ...
Ye WM +5 more
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Molecular Imprinting Techniques Used for the Preparation of Biosensors
Sensors, 2017 Molecular imprinting is the technology of creating artificial recognition sites in polymeric matrices which are complementary to the template in their size, shape and spatial arrangement of the functional groups. Molecularly imprinted polymers (MIPs) and
Gizem Ertürk, Bo Mattiasson
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ImprintCap, a powerful NGS-based technology to investigate the molecular background of imprinting disorders [PDF]
Clinical EpigeneticsIntroduction Imprinting disorders (IDs) are a rare class of diseases caused by the disruption of imprinted genes, i.e., genes with a specific pattern of expression from only one allele.
Frédéric Brioude +6 more
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Advances of molecular imprinted fluorescence sensing technology and its applications [PDF]
SCIENTIA SINICA Chimica, 2020 Molecular imprinting is a technique to synthesize molecularly imprinted polymers (MIPs) with specific and selective recognition ability for a given template molecule. As a molecular recognition component, MIPs combined with highly sensitive fluorescent detection to construct molecular imprinting-based fluorescence sensors (MI-FL sensors), which have ...
韩笑笑 +8 more
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[Research progress of molecular imprinting technology in the field of disease diagnosis and therapy]. [PDF]
Se PuDisease biomarkers play important roles in modern medicine, enabling early disease diagnosis, precise subtyping, prognostic evaluation, and targeted therapy. Conventional biorecognition elements, such as antibodies and aptamers, offer high specificity but suffer from inherent limitations, including high production costs, instability in complex ...
Zhu R, Cai GP, Zheng HJ, Jia Q.
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Molecular Imprinting Technology Enables Proactive Capture of Nitrogen for Boosted Ammonia Synthesis under Ambient Conditions [PDF]
Advances in Materials, 2023 Electrochemical nitrogen reduction reaction (NRR) is a burgeoning field for green and sustainable ammonia production, in which numerous potential catalysts emerge endlessly.
Sisi Liu +9 more
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