Zachary S Breitbach

Title: Innovations by Zachary S Breitbach

Introduction

Zachary S Breitbach is an accomplished inventor based in Arlington, TX. He holds 2 patents that showcase his contributions to the field of liquid chromatography. His work focuses on enhancing the efficiency and effectiveness of chromatographic separations.

Latest Patents

One of his latest patents is titled "Superficially porous particle (SPP) chiral phases for liquid chromatography." This invention relates to a novel stationary phase support for liquid chromatographic chiral separations. The specific combination of the special underlying support material and certain classes of known chiral selectors produces far superior chiral separations than those obtained on any conventionally known supports. These chiral separations are enhanced in terms of significantly higher efficiencies, higher resolutions, shorter retention times, and either equivalent or slightly higher selectivities than those obtained on conventional supports.

Another significant patent is "Compositions and methods for cyclofructans as separation agents." This invention relates to derivatized cyclofructan compounds, compositions comprising these compounds, and methods of using them for chromatographic separations of chemical species, including enantiomers. The compositions may comprise a solid support and/or polymers that include derivatized cyclofructan compounds.

Career Highlights

Zachary has worked with notable organizations such as Azyp, LLC and the University of Texas System. His experience in these institutions has contributed to his expertise in the field of chromatography and separation sciences.

Collaborations

Throughout his career, Zachary has collaborated with esteemed colleagues, including Daniel W Armstrong and Ping Sun. These collaborations have further enriched his research and innovations.

Conclusion

Zachary S Breitbach's contributions to liquid chromatography through his innovative patents demonstrate his commitment to advancing the field. His work continues to influence the efficiency of chromatographic separations, making significant strides in scientific research and applications.