S
Shagufta H. Shabbir
Researcher at University of Texas at Austin
Publications - 12
Citations - 1013
Shagufta H. Shabbir is an academic researcher from University of Texas at Austin. The author has contributed to research in topics: Enantiomeric excess & Molecular recognition. The author has an hindex of 11, co-authored 12 publications receiving 953 citations. Previous affiliations of Shagufta H. Shabbir include Howard Hughes Medical Institute.
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A structural investigation of the N-B interaction in an o-(N,N-dialkylaminomethyl)arylboronate system
TL;DR: The structural study predicts that the formation of an N-B dative bond, and/or solvent insertion to afford a tetrahedral boronate anion, depends on the solvent and the complexing substrate present, which will help the design of future chemosensing technologies based on o-(N,N-dialkylaminomethyl)arylboronate scaffolds.
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The uses of supramolecular chemistry in synthetic methodology development: examples of anion and neutral molecular recognition
TL;DR: This tutorial review ties together supramolecular approaches to methodology creation, combinatorial screening, and analytical protocols to show, and further predict, that supramolescular chemistry will continually increase its impact in organic synthetic methodology development.
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Probing intramolecular B-N interactions in ortho-aminomethyl arylboronic acids.
Byron E. Collins,Steven Sorey,Amanda E. Hargrove,Shagufta H. Shabbir,Vincent M. Lynch,Eric V. Anslyn +5 more
TL;DR: It was found that there is a slight increase in the amount of B-N dative bonding on going from a tertiary to a secondary to a primary amine group, but that solvent insertion dominates in all cases of the boronate esters.
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Pattern-based recognition for the rapid determination of identity, concentration, and enantiomeric excess of subtly different threo diols.
Shagufta H. Shabbir,Leo A. Joyce,Gabriella M. da Cruz,Vincent M. Lynch,Steven Sorey,Eric V. Anslyn +5 more
TL;DR: A pattern-based recognition approach for the rapid determination of the identity, concentration, and enantiomeric excess of chiral vicinal diols, specifically threo diolS has been developed, portending applications in high-throughput screening for asymmetric-catalyst discovery.
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Guidelines for pattern recognition using differential receptors and indicator displacement assays.
TL;DR: It is found that an addition of only one designed receptor to an array of metal salts can discriminate the structurally similar analytes.