Your search keyword '"Easter, Quinn T."' showing total 5 results

1. Subensemble Investigations of Molecular Catalysts: Revealing Heterogeneity via Microscopy

Author

Easter, Quinn T

Subjects

Chemistry, Organic chemistry, Physical chemistry, chemical kinetics, fluorescence microscopy, heterogeneous catalysis, molecular catalysts, polymerization, single-turnover

Abstract

The use of microscopy techniques to uncover the heterogeneity of molecular catalysts is herein reported. Prior to this work, molecular catalysts were detected and quantified through traditional ensemble analytical techniques, such as 1H NMR spectroscopy and mass spectrometry, but no information existed on molecular catalyst activity of single catalysts or small ensembles. Although appearing efficient on the bulk scale, microscopy techniques (Chapter 2) indicated that despite a uniform distribution of catalyst, the catalytic activity of molecular catalysts was poorly distributed. Surface intermediates were transformed by LiCl into soluble organozinc reagents (Chapter 3). Using fluorescence microscopy, spatiotemporal resolution of single active molecular polymerization catalysts was achieved (Chapter 4), which was the first single-turnover fluorescence microscopy imaging at any molecular catalyst. These molecular polymerization catalysts were found to exhibit time-variant chemical kinetics (Chapter 5), rather than continue to exhibit uniform polymerization activity at all time points, in contrast to their traditional textbook depictions. Finally, boundary conditions were established through fluorescence microscopy on when unique subensemble and single-turnover catalytic activity could be detected (Chapter 6). These studies redefine the concept of a “uniform” or “average” catalyst and suggest broad applicability to understanding the full picture of catalysis.

Published

2018

2. Kinetics of the Same Reaction Monitored over Nine Orders of Magnitude in Concentration: When Are Unique Subensemble and Single‐Turnover Reactivity Displayed?

Author

Easter, Quinn T. and Blum, Suzanne A.

Subjects

*ANALYTICAL chemistry, *FLUORESCENCE microscopy, *RUTHENIUM, *POLYMERIZATION, *SINGLE molecules

Abstract

Abstract: Essentially no information is known about the behavior of individual molecular catalysts under reaction conditions. This is a result of the averaging inherent to traditional analytical techniques. Herein, a combined fluorescence microscopy and 1H NMR spectroscopy study reveals that unique (that is, non‐ensemble averaged) distributions and time‐variable kinetics from molecular ruthenium catalysts within growing polynorbornene occur and are detectable between 10−9  m and 10−6  m of substrate, surprisingly just 1000‐fold less concentrated than a typical laboratory bench‐scale reaction. The kinetic states governing single‐turnover events are determinable by overlay of the signal arising from individual monomer insertion reactions with that from polymer growth from neighboring catalysts. [ABSTRACT FROM AUTHOR]

Published

2018

3. Evidence for Dynamic Chemical Kinetics at Individual Molecular Ruthenium Catalysts.

Author

Easter, Quinn T. and Blum, Suzanne A.

Subjects

*CHEMICAL kinetics, *RUTHENIUM catalysts, *FLUORESCENCE microscopy, *CHEMICAL reactions, *DIPYRRINS

Abstract

Abstract: Catalytic cycles are typically depicted as possessing time‐invariant steps with fixed rates. Yet the true behavior of individual catalysts with respect to time is unknown, hidden by the ensemble averaging inherent to bulk measurements. Evidence is presented for variable chemical kinetics at individual catalysts, with a focus on ring‐opening metathesis polymerization catalyzed by the second‐generation Grubbs’ ruthenium catalyst. Fluorescence microscopy is used to probe the chemical kinetics of the reaction because the technique possesses sufficient sensitivity for the detection of single chemical reactions. Insertion reactions in submicron regions likely occur at groups of many (not single) catalysts, yet not so many that their unique kinetic behavior is ensemble averaged. [ABSTRACT FROM AUTHOR]

Published

2018

4. Single Turnover at Molecular Polymerization Catalysts Reveals Spatiotemporally Resolved Reactions.

Author

Easter, Quinn T. and Blum, Suzanne A.

Subjects

*POLYMERIZATION, *SPATIOTEMPORAL processes, *RUTHENIUM catalysts, *FLUORESCENCE microscopy, *METATHESIS reactions

Abstract

Multiple active individual molecular ruthenium catalysts have been pinpointed within growing polynorbornene, thereby revealing information on the reaction dynamics and location that is unavailable through traditional ensemble experiments. This is the first single-turnover imaging of a molecular catalyst by fluorescence microscopy and allows detection of individual monomer reactions at an industrially important molecular ruthenium ring-opening metathesis polymerization (ROMP) catalyst under synthetically relevant conditions (e.g. unmodified industrial catalyst, ambient pressure, condensed phase, ca. 0.03 m monomer). These results further establish the key fundamentals of this imaging technique for characterizing the reactivity and location of active molecular catalysts even when they are the minor components. [ABSTRACT FROM AUTHOR]

Published

2017

5. Role of LiCl in Generating Soluble Organozinc Reagents.

Author

Chao Feng, Cunningham, Drew W., Easter, Quinn T., and Blum, Suzanne A.

Subjects

*LITHIUM chloride, *OXIDATIVE addition, *ORGANOZINC compounds, *INTERMEDIATES (Chemistry), *FLUORESCENCE microscopy

Abstract

The sensitivity provided by fluorescence microscopy enabled the observation of surface intermediates in the synthesis of soluble organozinc reagents by direct insertion of alkyl iodides to commercial zinc powder. Five hypotheses were examined for the mechanistic role of lithium chloride in enabling this direct insertion. The data are consistent with lithium chloride solubilizing organozinc reagents from the surface of the zinc after oxidative addition. [ABSTRACT FROM AUTHOR]

Published

2016