Jesse S. Hyslop scite author profile

The performance and solvation characteristics of two novel latex nanoparticle (NP) pseudo-stationary phases (PSPs) for EKC are determined and compared to those of previously reported micellar, polymeric, and NP materials. The new NPs have shells composed of strongly acidic poly(AMPS) as opposed to the poly(acrylic acid) shell of the prior NP, and have varied hydrophobic core chemistry of either poly(butyl acrylate) or poly(ethyl acrylate). The NPs poly(AMPS) shell shows only minor changes in mobility and selectivity between pH 4.9 and 9.4, allowing adjustment of pH to influence and optimize separation performance. All of the NP phases have significantly different solvation characteristics and selectivity relative to SDS micelles. The selectivity and solvent character are similar for NPs with poly(butyl acrylate) cores and different shells, but vary significantly between NPs with poly(butyl acrylate) versus poly(ethyl acrylate) cores. NPs with poly(butyl acrylate) cores are among the least cohesive PSPs reported to date, while the NP with poly(ethyl acrylate) core is among the most cohesive. The results demonstrate that PSPs with unique selectivity can be generated by altering the chemistry of the hydrophobic core.

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Synthesis and characterization of [Zn(acetate)2(amine) ] compounds (x=1 or 2) and their use as precursors to ZnO

Hyslop

Boydstun

Fereday

et al. 2015

Materials Science in Semiconductor Processing

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As an obvious candidate for a p-type dopant in ZnO, nitrogen remains elusive in this role. Nitrogen containing precursors are a potential means to incorporate nitrogen during MOCVD growth. One class of nitrogen-containing precursors are zinc acetate amines, yet, they have received little attention. The synthesis and single crystal X-ray structure of [Zn(acetate)2(en)], and the synthesis of [Zn(acetate)2(en)2], [Zn(acetate)2(benzylamine)2], [Zn(acetate)2(butylamine)2], [Zn(acetate)2(NH3)2], and [Zn(acetate)2(tris)2], where en = ethylenediamine and tris = (tris[hydroxymethyl]aminomethane) are reported. The compounds were characterized by thermogravimetric analysis and pyrolyzed in air and inert gas to yield ZnO. These compounds are useful single source precursors to ZnO bulk powders by alkali precipitation and ZnO thin films by spray pyrolysis. The amine bound to the zinc influences the ZnO crystal size and shape and acts as a nitrogen donor for preparing nitrogen-doped ZnO during alkali precipitation. Thin films of ZnO prepared by spray pyrolysis using the precursors had a (100) preferred orientation and measured n-type to intrinsic conductivity.

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Effects of structure on the performance of latex nanoparticles as a pseudostationary phase in electrokinetic chromatography

Hyslop

McGettrick

Hall

et al. 2018

Analytica Chimica Acta

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CCDC 972792: Experimental Crystal Structure Determination

Hyslop¹,

Boydstun²,

Fereday³

et al. 2017

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Jesse S. Hyslop

RAFT polymerized nanoparticles: Influences of shell and core chemistries on performance for electrokinetic chromatography

Synthesis and characterization of [Zn(acetate)2(amine) ] compounds (x=1 or 2) and their use as precursors to ZnO

Effects of structure on the performance of latex nanoparticles as a pseudostationary phase in electrokinetic chromatography

CCDC 972792: Experimental Crystal Structure Determination

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