Computational Design and Fabrication of Optical Fibre Fluorescent Chemical Probes for the Detection of Cocaine

Wren, Stephen P.; Piletsky, Sergey A.; Karim, Kal; Gascoine, Paul S.; Lacey, R. W.; Sun, Tao; Grattan, K. T. V.

doi:10.1109/jlt.2015.2389036

Cited by 14 publications

(7 citation statements)

References 22 publications

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“…The sensors alter color based on the ambient pH in which they are placed. Likewise, Alberti et al [ 75 , 76 ] generated a sensor for Fe(III) in which EVOH was utilized as a solid state. Deferoxamine meylate (DFO) and 3,4-hydroxypyridinone ligand (KC18) functionalized the copolymer.…”

Section: Synthetic Polymer-based Sensorsmentioning

confidence: 99%

Recent Progress, Challenges, and Trends in Polymer-Based Sensors: A Review

et al. 2022

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Polymers are long-chain, highly molecular weight molecules containing large numbers of repeating units within their backbone derived from the product of polymerization of monomeric units. The materials exhibit unique properties based on the types of bonds that exist within their structures. Among these, some behave as rubbers because of their excellent bending ability, lightweight nature, and shape memory. Moreover, their tunable chemical, structural, and electrical properties make them promising candidates for their use as sensing materials. Polymer-based sensors are highly utilized in the current scenario in the public health sector and environment control due to their rapid detection, small size, high sensitivity, and suitability in atmospheric conditions. Therefore, the aim of this review article is to highlight the current progress in polymer-based sensors. More importantly, this review provides general trends and challenges in sensor technology based on polymer materials.

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Section: Synthetic Polymer-based Sensorsmentioning

confidence: 99%

Recent Progress, Challenges, and Trends in Polymer-Based Sensors: A Review

et al. 2022

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“…Selected monomers were then used for polymer synthesis, but also subjected to further MD simulations together with template, cross-linker and solvent, where the observed interactions could be correlated with experimental binding data. This approach has since been adapted several times in the literature [ 329 , 330 , 331 , 332 , 333 , 334 , 335 , 336 , 337 , 338 , 339 , 340 , 341 , 342 , 343 , 344 , 345 , 346 , 347 , 348 , 349 , 350 , 351 , 352 , 353 ]. In a number of reports, similar approaches have been employed to evaluate and/or characterize monomer–template interactions using MD and docking simulations as well as variations and/or combinations thereof [ 102 , 354 , 355 , 356 , 357 , 358 , 359 , 360 , 361 , 362 , 363 , 364 , 365 , 366 , 367 , 368 , 369 , 370 , 371 , 372 , 373 , 374 , <...>…”

Section: The Pre-polymerization Stagementioning

confidence: 99%

The Use of Computational Methods for the Development of Molecularly Imprinted Polymers

et al. 2021

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Recent years have witnessed a dramatic increase in the use of theoretical and computational approaches in the study and development of molecular imprinting systems. These tools are being used to either improve understanding of the mechanisms underlying the function of molecular imprinting systems or for the design of new systems. Here, we present an overview of the literature describing the application of theoretical and computational techniques to the different stages of the molecular imprinting process (pre-polymerization mixture, polymerization process and ligand–molecularly imprinted polymer rebinding), along with an analysis of trends within and the current status of this aspect of the molecular imprinting field.

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“…Notwithstanding its importance, the process of optimizing the polymer formulation is generally cumbersome. To make this process more efficient, reducing expenditures in materials and reagents, several groups have taken advantage of software tools to model the molecular interactions between monomers, cross-linkers, and templates (176)(177)(178)(179)(180)(181)(182). These can be based on various computational approaches, including quantum chemical calculation (QCC), molecular mechanics (MM)/molecular dynamics (MD), and thermodynamic analysis (183,184).…”

Section: Incorporation Of Computational Modeling Approachesmentioning

confidence: 99%