Results 261 to 270 of about 19,312 (292)
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The application of molecular imprinting technology to solid phase extraction
Chromatographia, 2001In parallel to a long lasting search for universal multi-purpose sorbents, the area of solid phase extraction (SPE) is recently experiencing a rapid development of new types of tailor-made class specific or compound-specific sorbents which are designed to respond to the increasing demand for selectivity and efficiency in sample clean-up prior to ...
F. Lanza, B. Sellergren
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Molecular Imprinting Technology: A New Approach for Antibacterial Materials
2020This chapter presents Molecular Imprinting Technology (MIT) as a biomimetic technique suitable as binding sites for synthetic receptor molecules and functional monomers owing to their definite interest of selectivity, sensitivity, recognition, and applications. MIT has been used extensively for the detection of pharmaceutical compounds like antibiotics
E. Kweinor Tetteh +4 more
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Some new developments and challenges in non-covalent molecular imprinting technology
Journal of Molecular Recognition, 1998The technique of molecular imprinting allows the formation of specific recognition and catalytic sites in macromolecules via the use of templates. Molecularly imprinted polymers have been applied in an increasing number of applications where molecular binding events are of interest. These include the use of molecularly imprinted polymers as tailor-made
K, Mosbach, K, Haupt
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Molecular imprinting technology for specific recognition of heparan sulfate like disaccharides
Talanta, 2012Iinteractions of biologically active proteins with sulfated glycans, particularly heparan sulfates (HS), are dependent on factors involving amounts and positions of the sulfate groups in the sugars chains. Although the importance of knowing the exact positions of the sulfate groups in particular HS sequences is well recognized, at present, approaches ...
Singabraya, Dominique +6 more
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Journal of Applied Polymer Science, 2010
AbstractBiomimetic materials for application in the field of tissue engineering are usually obtained through covalent bonding between the polymer backbone and the bioactive molecules. A totally new approach, proposed for the first time by our research group, for the creation of advanced synthetic support structures for cell adhesion and proliferation ...
E. Rosellini +4 more
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AbstractBiomimetic materials for application in the field of tissue engineering are usually obtained through covalent bonding between the polymer backbone and the bioactive molecules. A totally new approach, proposed for the first time by our research group, for the creation of advanced synthetic support structures for cell adhesion and proliferation ...
E. Rosellini +4 more
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Recognition of proteins and peptides: Rational development of molecular imprinting technology
Polymer Science Series A, 2010The creation of tailor-made receptors which are able to recognize molecular targets with high affinity and selectivity has attracted much attention in the field of chemistry, physics, and biology. Molecular imprinting has proved to be an effective technique for generating specific recognition sites in synthetic polymers.
Jie Hu +3 more
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Peer Reviewed: Molecular Imprinting: New Possibilities for Sensor Technology
Analytical Chemistry, 1997Molecular imprinting-based biomimetic sensors could provide an alternative to often unstable biosensors for industry, medicine, and environmental ...
Dario Kriz +2 more
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[Molecular imprinting technology and its application in terpenoids].
Zhongguo Zhong yao za zhi = Zhongguo zhongyao zazhi = China journal of Chinese materia medica, 2019Molecular imprinting technology is widely used in the separation and analysis of compounds such as flavonoids, alkaloids and polyphenols, due to its high selectivity and specific recognition and so on. However, no much of attention has been paid to the terpenoids.
Yu-Lan, Liang +8 more
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Molecular imprinting technology for targeted analysis of proteins
2017Molecular imprinting has appeared to be an effective technique for creating of selective recognition sites in synthetic polymers. This procedure comprises polymerization of monomer in a presence of target molecules (template). The subsequent template removal forms tailor-made cavities that are complementary in shape and size to the template molecules ...
Hutařová, Jitka +3 more
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