Patient-specific radiotherapy quality assurance for estimating actual treatment dose

Over the past decade, a variety of ionic liquids have emerged as greener solvents for use in the chemical manufacturing industries. Their unique properties have attracted the interest of chemists worldwide to employ them as replacement for conventional solvents in a diverse range of chemical transformations including biotransformations. Biocatalysts are often regarded as green catalysts compared to conventional chemical catalysts in organic synthesis owing to their properties of low toxicity, biodegradability, excellent selectivity and good catalytic performance under mild reaction conditions. Similarly, a selected number of specific ionic liquids can be considered as greener solvents superior to organic solvents owing to their negligible vapor pressure, low flammability, low toxicity and ability to dissolve a wide range of organic and biological substances, including proteins. A combination of biocatalysts and ionic liquids thus appears to be a logical and promising opportunity for industrial use as an alternative to conventional organic chemistry processes employing organic solvents. This article provides an overview of recent developments in this field with special emphasis on the application of more sustainable enzyme-catalyzed reactions and separation processes employing ionic liquids, driven by advances in fundamental knowledge, process optimization and industrial deployment.

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A GC–MS untargeted metabolomics approach for the classification of chemical differences in grape juices based on fungal pathogen

Steel

Blackman

Clark

et al. 2019

Food Chemistry

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Molecularly imprinted polymer membranes and thin films for the separation and sensing of biomacromolecules

Boysen

Schwarz

Nicolau

et al. 2016

J of Separation Science

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This review describes recent advances associated with the development of surface imprinting methods for the synthesis of polymeric membranes and thin films, which possess the capability to selectively and specifically recognize biomacromolecules, such as proteins and single- and double-stranded DNA, employing "epitope" or "whole molecule" approaches. Synthetic procedures to create different molecularly imprinted polymer membranes or thin films are discussed, including grafting/in situ polymerization, drop-, dip-, or spin-coating procedures, electropolymerization as well as micro-contact or stamp lithography imprinting methods. Highly sensitive techniques for surface characterization and analyte detection are described, encompassing luminescence and fluorescence spectroscopy, X-ray photoelectron spectroscopy, FTIR spectroscopy, surface-enhanced Raman spectroscopy, atomic force microscopy, quartz crystal microbalance analysis, cyclic voltammetry, and surface plasmon resonance. These developments are providing new avenues to produce bioelectronic sensors and new ways to explore through advanced separation science procedures complex phenomena associated with the origins of biorecognition in nature.

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Rapid solid-phase extraction and analysis of resveratrol and other polyphenols in red wine

Hashim

Schwarz

Boysen

et al. 2013

Journal of Chromatography A

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Preparation of molecularly imprinted polymers for the selective recognition of the bioactive polyphenol, (E)-resveratrol

Schwarz

Danylec

Harris

et al. 2011

Journal of Chromatography A

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Enrichment of (E)-Resveratrol from Peanut Byproduct with Molecularly Imprinted Polymers

Schwarz

Danylec

Yang

et al. 2011

J. Agric. Food Chem.

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Molecularly imprinted solid phase extraction (MISPE) has been employed to isolate and concentrate bioactive polyphenols from peanut press waste. To this end, a molecularly imprinted polymer (MIP) templated with the phytoalexin (E)-resveratrol has been prepared via self-assembly with the functional monomer 4-vinylpyridine (4VP) in a 1:3 molar ratio. Subsequent molecular interrogation of the MIP binding sites demonstrated preferential structural selectivity for (E)-resveratrol with respect to other structurally related naturally occurring compounds. This selectivity was subsequently exploited to achieve substantial sample cleanup of peanut press waste under aqueous conditions with significant enrichment of (E)-resveratrol (>60 fold) requiring minimal sample preparation.

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Synthesis and Evaluation of a Molecularly Imprinted Polymer Selective to 2,4,6-Trichlorophenol

et al. 2004

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Molecularly imprinted polymers (MIPs) selective for the phenolic contaminant 2,4,6-trichlorophenol (2,4,6-TCP) were prepared and evaluated in three porogens of differing character (hexane, acetonitrile, dichloromethane). Rebinding of 2,4,6-TCP was found to be most effective in dichloromethane (imprinting factor: 13.2). Competitive binding studies performed against a range of close structural analogues showed a high preference for the target molecule, although partial recognition towards 2,4-dichlorophenol was also observed. Specificity was found to be dependent upon the presence of ring chlorine on the target, which suggested that these atoms participate in secondary binding interactions that are essential for successful recognition in the polymer cavity.

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A comparison of covalent and non-covalent imprinting strategies for the synthesis of stigmasterol imprinted polymers

Hashim

Boysen

Schwarz

et al. 2014

Journal of Chromatography A

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Lachlan J. Schwarz

Recent Developments in Chemical Synthesis with Biocatalysts in Ionic Liquids

A GC–MS untargeted metabolomics approach for the classification of chemical differences in grape juices based on fungal pathogen

Molecularly imprinted polymer membranes and thin films for the separation and sensing of biomacromolecules

Rapid solid-phase extraction and analysis of resveratrol and other polyphenols in red wine

Preparation of molecularly imprinted polymers for the selective recognition of the bioactive polyphenol, (E)-resveratrol

Enrichment of (E)-Resveratrol from Peanut Byproduct with Molecularly Imprinted Polymers

Synthesis and Evaluation of a Molecularly Imprinted Polymer Selective to 2,4,6-Trichlorophenol

A comparison of covalent and non-covalent imprinting strategies for the synthesis of stigmasterol imprinted polymers

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