Mahavir Prasad Tiwari

TL;DR: The objective of this review is to provide comprehensive knowledge and information to all researchers who are interested in exploiting molecular imprinting technology toward the rational design of chiral sensors operating on different transduction principles, ranging from electrochemical to piezoelectric, being used for the detection ofChiral compounds as they pose significant impact on the understanding of the origin of life and all processes that occur in living organisms.

TL;DR: In this paper, a molecularly imprinted polymer capable of binding specifically folic acid has been prepared by stoichiometric imprinting process (template/monomer molar ratio, 1:3) creating multiple binding sites within the cross-linked hyperbranched polymer.

TL;DR: A rapid, selective, and sensitive double- template imprinted polymer nanofilm-modified pencil graphite electrode was fabricated for the simultaneous analysis of phosphorus-containing amino acid-type herbicides in soil and human serum samples, enabling the simultaneous determination of one target in the presence of other, without any cross reactivity, interferences, and false-positives, in real samples.

TL;DR: In this article, an insulin-imprinted polymer was synthesized over the surface of vinyl group functionalized multiwalled carbon nanotubes, using phosphotidylcholine-containing functional monomer and crosslinker.

TL;DR: A dual-template imprinted polymer film containing dispersed multiwalled carbon nanotubes was exploited in the fabrication of a typical, reproducible, and rugged carbon ceramic electrode, adopting "surface grafting from" approach for the growth of a nanometer thin coating on its surface.