Microfabrication, Characterization, and Application of Carbon Nanotube Templated Thin Layer Chromatography Plates, and Functionalization of Porous Graphitic Carbon

Jensen, David S.

26 November 2012

This dissertation contains the following sections. Chapter 1 contains a detailed description of the theory of thin layer chromatography (TLC). Chapter 2 describes the benefits and practical considerations of elevated temperatures in liquid chromatography (LC). The porous graphitic carbon (PGC) I modified as part of my work is often used in elevated temperature LC. Chapter 3 shows a thermodynamic analysis of chromatographic retention at elevated temperature, and Chapter 4 contains a closer look at the van 't Hoff equation in LC and how it can be used in retention modeling. In Chapter 5, I describe a new procedure for microfabricating TLC plates that avoids the volume/feature distortions that occurred in our first microfabrication. The primary advance of this work was the priming of the carbon nanotube (CNT) forests with chemical vapor deposition (CVD) carbon and atomic layer deposition (ALD) alumina, which permitted effective ALD-like deposition of SiO2. Chapter 6 describes advancements in the microfabrication process of TLC, which excluded the use of the CVD carbon and Al2O3 coating as described in Chapter 5. The use of ozone, to lightly oxidize the CNT surface, primed the material for direct ALD deposition. Chapter 7 gives a detailed surface analysis of the microfabrication process up to and including the CNT forest. It was noticed that a channeling effect was present during Rutherford backscattering analysis of the CNTs. Additionally, characterization of CNTs using time-of-flight secondary ion mass spectrometry in the negative ion mode showed an odd-even effect for a homologous series of carbon, where the even moieties had a stronger signal. Chapter 8 describes the functionalization of PGC with di-tert-amyl peroxide (DTAP) and its effect on increasing the chromatographic performance as seen by a reduction in the tailing factors of test analytes. Chapter 9 -- 13 are detailed X-ray photoelectron analyses of the thin films and CNTs used in producing microfabricated TLC plates.

Carbon nanotubes

atomic layer deposition

chemical vapor deposition

thin layer chromatography

liquid chromatography

elevated temperature chromatography

van 't Hoff

Biochemistry

Chemistry

Formation, Functionalization, Characterization, and Applications of a Mixed-Mode, Carbon/Diamond-Based, Core-Shell Phase for High Performance Liquid Chromatography

Wiest, Landon A.

11 September 2013

My work has focused on a variety of different types of diamond-based, core-shell particles. These particles are formed with inert cores and poly(allylamine)/nanodiamond shells. Their intended purpose is to form an LC stationary phase that is stable from pH 1 – 14 and at elevated temperatures. At the beginning of my studies, the particles that had been made in the Linford laboratory were pH stable, but irregular and had poor mechanical stability. Since that time, I have worked to improve the particles by using more spherical zirconia and carbon cores, and I have improved their mechanical stability via chemical crosslinking with epoxides. I have performed van Deemter and van’t Hoff analyses to understand the properties of these columns. Efficiencies greater than 100,000 N/m are routinely achieved with these carbon/nanodiamond-based phases. In addition I contributed to two patents that show innovations in diamond functionalization. My contributions involved reduction of an oxidized diamond surface with LiAlH4 prior to functionalization with isocyanates. I also wrote some application notes for the Flare mixed-mode column, which was recently introduced to the market and contains particles comprised of a carbon core and a polymer/nanodiamond shell. These application notes show the gradient separations of four essential oils (lavender, melaleuca, peppermint and eucalyptus), and the isocratic separations of various triazine herbicides and a mixture of β2-agonists and amphetamines.This dissertation contains the following sections. Chapter 1 is a review of liquid chromatographic history and theory. It also includes a history of the use of diamonds in liquid chromatography. Chapter 2 is a study on a glassy carbon core - polymer/nanodiamond shell particle made in our laboratory. Stability studies at pH 11.3 and 13 were performed and different analytes were retained and/or separated on the column. Chapter 3 is a study performed on the Flare mixed-mode column. Separations of tricyclic antidepressants, β2-andrenergic receptor agonists, and linear chain alkylbenzenes were demonstrated with this phase. Van Deemter and van’t Hoff studies were also performed to probe the efficiency and selectivity of this column with different classes of analytes. Chapter 4 chronicles, via SEM and van Deemter analysis, the improvements that have taken place in our column after many iterations of improved synthetic methods and new materials. These include better particle uniformity, particle stability, and column efficiency. Three different carbon cores were analyzed, each better than the previous one. Appendices 1 – 6 are application notes published by Diamond Analytics of β2-andrenergic receptor agonists and amphetamines, triazine herbicides, and lavender, melaleuca, eucalyptus and peppermint essential oils. Appendices 7 and 8 are patents that contain ideas and research contributed by the author.

diamond

reversed-phase chromatography

mixed-mode

scanning electron microscopy

liquid chromatography

elevated temperature chromatography

van’t Hoff plots

van Deemter curves

Biochemistry

Chemistry