Separation of Perrhenate and Perfluoroalkyl Substances by Ion Chromatography with Customized Stationary Phases

Chan, Wai Ning

16 August 2023

Ion exchange chromatography (IC) is an analytical technique used to separate charged molecules including ions, proteins, small nucleotides, and amino acids. It can function in anion or cation mode. In this dissertation, anion exchange chromatography was used, and column materials were made in our lab with resorcinarene-based compounds called cavitands. Cavitands create cavities to bind to molecules because of their three-dimensional structure. Two new gradient IC methods were established to identify and quantify perrhenate and perfluoroalkyl substances (PFAS) by customized resorcinarene-based column, zinc cyclen resoecinarene (ZCR) and arginine methyl ester (RUE) columns. The ZCR column accomplished outstanding separation of perrhenate from other anions such as chloride and sulfate by using a gradient elution of 2-60 mM NaOH. There was a logarithmic relationship between the perrhenate concentration and its retention time. In addition to separating anions, the ZCR column was able to preconcentrate perrhenate with over 90% recovery in different conditions. RUE was successfully synthesized and attached to polystyrene resin and used in IC to separate the PFAS, perfluorobutanoic acid (PFBA), perfluoropentanoic acid (PFPeA), perfluorobutanesulfonic acid (PFBS), perfluorohexanoic acid (PFHxA), perfluorohexanesulphonic acid (PFHxS), and perfluorooctanoic acid (PFOA). The sample preparation for the PFAS was simple and only needed filtration. A gradient method starting with 70 mM NaOH and going to pure water was necessary to separate the PFAS. There was no detectable PFAS in Provo tap water and Utah Lake water by our method. Although the LOD and LOQ of PFAS were not as low as the existing methods, the IC method does not require complicated sample preparation steps to separate and quantify PFAS. Binding studies of RUE and RUA were done with organic acids, including citric, malic, and succinic acid, and PFAS including PFBA, and PFHxA. The strongest binding was for L-malic acid followed by succinic acid, D-malic acid, pentanoic acid, citric acid, and dimethyl L-malate. RUE displayed some chiral recognition between L-malic acid and D-malic acid. Unfortunately, it did not show significant differences in binding between the different PFAS even though RUE had been able to separate them by IC.

resorcinarene

cavitand

amino acid

metal ligand

ion exchange chromatography

environmental

contaminant

perrhenate

perfluoroalkyl substance

host-guest binding

Physical Sciences and Mathematics

Self-Assembled Host-Guest Thin Films for Functional Interfaces

Erdy, Christine

29 December 2008

The functionalization of surfaces has received attention because the process allows the design and tailoring of substrate surfaces with a new or improved function. "Host-guest" thin film complexes are composed of "host" molecules attached the substrate surface, either through physisorption or covalent bonds, with cavities for the inclusion of desired "guest" molecules for the functionalization of the surface. Two methods for fabricating functional "host-guest" thin films were investigated: Langmuir-Blodgett (LB) deposition and self-assembly monolayer (SAM). Langmuir films were created at the air-water interface using octadecanesulfonic acid (C18S) as the amphiphilic "host" molecules separated by hydrophilic guanidinium (G) spacer molecules, which created a cavity allowing the inclusion of desired "guest" molecules. Surface pressure-area isotherms of the (G)C18S, with and without guests, are characterized by the lift-off molecular areas and are use to determine the proper deposition surface pressure. "Host-guest" Langmuir films are deposited onto silicon substrates using the LB deposition technique. The LB films were then subjected to stability testing using different solvents over increasing periods of time. Grazing-angle incidence X-ray diffraction (GIXD), specular X-ray reflectivity (XRR) and transfer ratio measurements were used to characterize the crystallinity, film thickness, overall film stability and film coverage. The GIXD data revealed that the crystallinity of the deposited film varies with the "guest" molecules and can be disrupted by the functional group on the "guest" molecule through hydrogen bonding. After modeling the XRR data using StochFit, it was discovered that the more polar solvent, tetrahydrofuran (THF), removed the film completely while the nonpolar solvent, hexane, compacted the thin film and increased the electron density. With transfer ratios around 0.95 to 1.05, the deposited films were homogenous. The second method used was self-assembly monolayers, which differs from Langmuir films in that they are created by a spontaneous chemical synthesis from immersing a substrate into a solution containing an active surfactant. Octadecyltrichlorosilane (OTS) was used initially as a molecule to study the self-assembled monolayer procedure. To study a "host-guest" self-assembled monolayer system, a compound is being synthesized from 9-bromoanthracene. This compound would already contain the cavity necessary for the inclusion of "guest" molecules. The solution that contained OTS was composed of a 4:1 mixture of anhydrous octadecane: chloroform. Silicon substrates with a deposited oxide layer were hydroxylated for the surfactant binding chemical reaction to occur. The OTS SAMs were exposed to the same stability tests as the LB films. Surface contact angle measurements were taken of the OTS SAMs before and after the stability tests. The contact angle prior to the stability tests was 110° (±2°). The contact angle after immersion in THF was 101° (±2°) while the contact angle resulting from immersion in hexane was 105° (±2°). From the contact angle measurements, the degradation of the OTS SAMs was less extensive than that of the (G)C18S LB films. / Master of Science

X-ray diffraction

host-guest films

surface modification

self-assembled monolayer

Langmuir-Blodgett film

specular X-ray reflectivity

AN INVITED INTRUSION: EXAMINING TERRITORIALITY IN P2P ACCOMMODATIONS FROM THE GUEST PERSPECTIVE

Wang, Yuan

January 2018

This dissertation aims to understand the role of territoriality in peer-to-peer (P2P) accommodation guest experience by answering four questions: (1) How do P2P accommodation guests feel about staying in P2P accommodation rentals as a territorial complexity? (2) What factors influence P2P accommodation guests’ perceptions of being in P2P accommodation rentals? (3) What kinds of territorial behaviors do guests experience from hosts in P2P accommodation rentals? How does host territoriality affect P2P accommodation guest experiences? (4) Do guests engage in territoriality in P2P accommodation rentals? If so, what territorial behaviors do guests use? A convergent mixed-methods design was used to answer these questions based on two studies: a qualitative study intended to develop an overall understanding of territoriality in P2P accommodation guest experiences (Study 1); and a scale development and validation study intended to develop a scale of perceived host territoriality in P2P accommodation settings (Study 2). Study 1 followed the procedures of interpretative phenomenological analysis, including semi-structured interviews with 13 P2P accommodation guests. Interview transcripts were analyzed to identify themes related to territoriality in P2P accommodation guest experiences. Results of Study 1 show that P2P accommodation guests possessed two territorial senses while staying in a shared rental: a sense of being in others’ territory and a sense of being in their own territory. Feelings associated with staying in others’ territory vs. their own territory were identified. Eight sets of factors were found to influence territorial senses, including home amenities and facilities, personal items/décor items, length of stay/use, physical presence of the host, entire rental vs. private rental, disturbance from others, hospitableness of the host, and travel companionship. Multiple factors that enhanced P2P accommodation guests’ sense of being in others’ territory were related to host territoriality. A closer examination of host territoriality revealed six types of host territoriality: personalization of the rental, house rules, accessibility, intrusion, hands-on hosting, and service failure. Guests’ reactions toward host territoriality fell into four categories: adaption, assertive defense, appeal, and avoidance. The impacts of host territoriality on guests’ evaluations of hosts, evaluations of their P2P accommodation experiences, and future use of P2P accommodations varied depending on guests’ reactions and attributions of host territoriality. P2P accommodation guests were also found to need their own space in P2P accommodation rentals. Influenced by this need and a sense of being in their own territory, P2P accommodation guests sometimes also engaged in territoriality to construct, communicate, and defend their territories. Guests’ territorial behaviors included personalization of the rental, exploration of the rental, giving instructions to others, and defending against territorial intrusions. Following an eight-step scale development procedure, Study 2 developed and validated a scale of perceived host territoriality in P2P accommodations. An initial list of scale items was generated from an online survey with open-ended questions (N = 116), independent coding of survey responses, and examples identified in Study 1. An expert panel (N = 5) and a panel of P2P accommodation guests (N = 26) were hired to assess the content validity of the original scale. A pilot study was conducted for initial scale validation (N = 93), after which the wording of scale items was modified. An online survey for scale purification and refinement was then conducted (N = 911). The dataset was split into a developmental sample and a validation sample to conduct exploratory factor analysis and confirmatory factor analysis, respectively. After scale purification, a second dataset was collected to validate the scale (N = 603). The final version of the scale included 18 items and four dimensions: Accessibility, House Rules, Signs of Ownership, and Intrusion. Known-group comparisons and criterion-related validity assessment confirmed the validity of the scale. Specifically, P2P accommodation guests who stayed in a private-room rental reported higher levels of host territoriality than those staying in an entire rental. Experiences of host territoriality were negatively correlated with perceived control, perceived self-efficacy, and personal sense of power among P2P accommodation guests. The newly developed scale was used to examine the impact of perceived host territoriality on perceived warmth and competence of P2P accommodation hosts, guests’ experience satisfaction, and guests’ behavioral intentions via a second-order structural equation model. Perceived host territoriality was negatively associated with perceived warmth and competence of P2P accommodation hosts, satisfaction with the P2P accommodation experience, and intention to reuse/recommend a P2P accommodation rental. However, dimensions of host territoriality had varying impacts on guest experience; host territoriality via signs of ownership and house rules positively influenced P2P accommodation guest experiences. A conceptual framework of territoriality in P2P accommodation guest experiences was proposed based on the findings of this dissertation, describing relationships among territorial senses, factors influencing territorial senses, host territoriality, guest reactions to host territoriality, and guest territoriality. Theoretical implications of these results on P2P accommodation research, human territory and territoriality research, and tourism and hospitality research were discussed, followed by implications regarding P2P accommodation platforms, hosts, and guests as well as management of guest experiences in other hospitality service encounters. / Business Administration/Interdisciplinary

Recreation

Psychology, Social

Marketing

Host-guest Relationship

Human Territoriality

Peer-to-peer Accommodations

Psychological Ownership

Territorial Behavior

Territory Triad

Host-Guest Assemblies for Functional Interfaces via Langmuir-Blodgett and Self-Assembly Technique

Shin, Du Hyun

24 January 2014

Various technologies depend on interfacial events that are influenced by various molecular interactions at a solid-liquid interface. The functionality of a surface plays an important role in many applications such as catalysis, sensing, and bio-compatibility, which can benefit from distinctive chemical and physical surface properties. To create tailor-made functional surfaces, surface host-guest assemblies based on Langmuir-Blodgett and self-assembly technique have been employed as a model system as they may offer the potential ability to regenerate surface properties via intercalation of various functional guest molecules. This thesis ranges over the development and characterization of host-guest assemblies and their feasibilities for the regeneration of surface properties via intercalation of functional guests. In our work, 3-dimensional host structures with cavities are constructed on a targeted solid substrate using Langmuir-Blodgett and self-assembly techniques. In particular, by adopting the fundamental concept of host-guest interaction in supramolecular chemistry, we expect that structurally homologous guest molecules where functional groups are anchored can be intercalated into the cavities between hydrophobe arrays at the liquid-solid interface from solution under well-controlled conditions. This approach offers the potential of separating the functional of the monolayer from the inherent structure of the host. The first part of this thesis details two-dimensional host-guest assemblies consisting of guanidinium (G), octadecylsulfonate (S) and various functional alkane guests at the air-aqueous interface and following deposition onto solid substrates via the Langmuir-Blodgett technique. In particular, we evaluated the stability of the host-guest assemblies and the feasibility of exchanging molecular guests under exposure to various organic solvent environments. Analysis of X-ray reflectivity measurements of the thin films showed that good stability of the host-guest assembly could not be achieved due to weak interactions between the host monoalyer and the solid surface. In addition, no evidence of intercalation of guest molecules into guest-free host-cavities was observed. The second part of this thesis discusses the effective methodologies to prepare low-density self-assembled monolayers (LDSAMs) with cavities on silicon substrates. We employed a step-wise reaction based on hydrolytic or silane chemistry: integral spacer molecules such as anthracene-derivatives were anchored to the Si substrate and then long alkane chains were appended to the spacer molecules. The results showed that LDSAMs using an anthryl spacer are attached at the SAM/Si interface via a Si-O-C linkage, and the films do not exhibit a densely packed monolayer quality as would be expected for a non-sterically hindered alkyltrichlorosilane on Si. Thus, the resulting LDSAMs (with cavities) may be capable of accommodating other guest molecules with hydrocarbon chains through intercalation in order to form host-guest assemblies. The third part of this thesis demonstrates the ability of LDSAMs to produce functional surfaces via the intercalation of various functional guest molecules. Self-assembled monolayers of (10-octadecyl)-9-anthracenethiol (host-SAMs) on Au substrates were prepared. Quartz crystal microbalance with dissipation (QCM-D) measurements was used to demonstrate the capacity of LDSAMs to confine guest molecules in the cavities and to probe the structural changes of the host-guest assembly during guest intercalation from ethanol solution. X-ray photoelectron spectroscopy (XPS) measurements were then used to probe host-guest monolayers formed by immersing the host monolayer in solutions in a variety of other solvents. A combined study of QCM-D and XPS showed that guest molecules were intercalated into host-cavities. The reversibility of the intercalation process allows a guest already situated in a host-cavity to be replaced with second guest under well-regulated solvent conditions. / Ph. D.

Functional interfaces

organic molecular monolayer

Langmuir-Blodgett

self-assembly

low-density self-assembled monolayer

host-guest assemblies

Construction of Low‐Symmetric and Light-­Switchable Coordination Cages for Guest Uptake and Catalysis

Han, Muxin

08 October 2015

No description available.

540

supramolecular chemistry

self-assembly

cage compounds

coordination chemistry

palladium

host-guest systems

photoswitches

anion recognition

structural conversion

hexamolybdate

dithienylethene

nanostructures

spherical structures

Chemie  (PPN62138352X)

Studium teplotně citlivých porfyrinů a jejich supramolekulárních komplexů / Studium teplotně citlivých porfyrinů a jejich supramolekulárních komplexů

Hrubovský, Martin

January 2016

Study of thermoresponsive porphyrins and their supramolecular complexes Abstract: We studied the water-soluble artificial compound meso-tetrakis{3,4,5-tris[2-(2-(2- methoxyethoxy)ethoxy)ethoxy]phenyl}porphyrin prepared at NIMS, Japan, using the high-resolution NMR spectroscopy experimental method. We observed its LCST-type phase separation and applied the Flory-Huggins theory of polymer solutions in order to find its phase diagram (binodal and spinodal curves of the phase separation) and we also obtained molar enthalpies, entropies and critical temperatures of its phase separation; from the Flory-Huggins theory we discovered that its molecules form dimers in aqueous solutions. We also studied its host-guest interactions with the S-camphorsulfonic acid; we learned that the porphyrin binds cations and the porphyrin dimers break down when dissolved cations are available for complexation. We observed no phase separation in chloroform. We obtained no proof of the existence of molecular stacks larger than dimers. 1

Chloromethane Complexation by Cryptophanes : Host-Guest Chemistry Investigated by NMR and Quantum Chemical Calculations

Takacs, Zoltan

January 2012

Host–guest complexes are widely investigated because of their importance in many industrial applications. The investigation of their physico–chemical properties helps understanding the inclusion phenomenon. The hosts investigated in this work are cryptophane molecules possessing a hydrophobic cavity. They can encapsulate small organic guests such as halo–methanes (CH2Cl2, CHCl3). The encapsulation process was investigated from both the guest and the host point of view. With the help of Nuclear Magnetic Resonance (NMR), the kinetics of complex formation was determined. The information was further used to obtain the activation energies of the processes. Having done this on five different cryptophanes, it is possible to relate the energies to structural differences between the hosts. Via the dipolar interaction between the guest’s and host’s protons, one can get information on the orientation of the guest inside the cavity. Moreover, the dynamics of the guest can be further investigated by its relaxation properties. This revealed restricted motion of the guest inside the host cavity. Not only the nature of the guest plays an important role. The host is also changing its properties upon encapsulation. All the cryptophanes investigated here can exchange rapidly between many conformers. These conformers have different–sized cavities. Quantum chemical optimization of the structure of the conformers makes volume estimation possible. Not only the cavity volumes, but also the quantum-chemically obtained energies and the calculated chemical shifts of the carbon–13 atoms can be helpful to follow the changes of the host upon complex formation. The host cannot be considered as a rigid entity. Analysis of variable temperature proton and carbon-13 spectra shows that the encapsulation can be considered as a mixture of conformational selection and induced fit. The structures of the formed complexes are further investigated by means of two-dimensional nuclear Overhauser spectroscopy (NOESY). The complex formation, its kinetics and thermodynamics are found to be a complicated function of structure elements of the host, the cavity size and the guest size and properties. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 4: Accepted. Paper 5: Manuscript.</p><p> </p>

Host–guest complexes

inclusion phenomenon

cryptophanes

NMR

kinetics

activation energy

dipolar interaction

exchange

quantum chemical optimization

calculated chemical shifts

NOESY

cavity size

Biocatalytic Production, Preparation and Characterization of Large-ring Cyclodextrins

Mokhtar, Mohd Noriznan

04 March 2009

Cyclodextrins (CD) are cyclic oligosaccharides composed of six to more than sixty glucose units. Large-ring cyclodextrins (LR-CD) are novel CD comprised of more than eight glucose units with cavity structures and sizes different from that of commercially available CD₆ – CD₈. LR-CD may offer unique molecular recognition properties and can be produced biocatalytically from starch using cyclodextrin glucanotransferase (CGTase, E.C. 2.4.1.19) in a short reaction time. LR-CD were isolated from glucose, CD₆ – CD₈ and other compounds by complexation of CD₆ – CD₈ as well as precipitation techniques. The yield of LR-CD (degree of polymerization from 9 to 21) was optimized using central composite design. Addition of polar organic solvents to the synthesis resulted in higher yields of LR-CD. LR-CD composed of 9 to 21 glucose units were successfully separated using reversed-phase of ODS-AQ chromatography and normal-phase of polyamine II chromatography. Maintaining optimized reaction conditions aided in a high yield of CD₉; it could be separated with reasonable yield using a single step of polyamine II chromatography. A co-grinding method helped to obtain higher solubilization levels of glibenclamide, vitamin A acetate and vitamin D₃ in CD₁₃, CD₁₀ and CD₁₁, respectively when compared to other CD. Vitamin K₁ was solubilized in distilled water with CD₆ – CD₁₃ using a co-precipitation method. When compared with other CD, CD₉ was seen to be the best solubilizer. The analysis of complexes using ESI MS showed spironolactone and glibenclamide complexed with CD₉ and CD₁₃, respectively.

Large-ring cyclodextrins (LR-CD)

central composite design

co-grinding

co-precipitation

cyclodextrin glucanotransferase (CGTase)

host-guest complexation

molecular recognition

supramolecular chemistry

ddc:570

Bacillus macerans

Molekulare Erkennung

Structure and spectroscopy of bio- and nano-materials from first-principles simulations

Hua, Weijie

January 2011

This thesis is devoted to first-principles simulations of bio- and nano-materials,focusing on various soft x-ray spectra, ground-state energies and structures of isolated largemolecules, bulk materials, and small molecules in ambient solutions. K-edge near-edge x-ray absorption fine structure (NEXAFS) spectra, x-ray emission spectra, andresonant inelastic x-ray scattering spectra of DNA duplexes have been studied by means oftheoretical calculations at the density functional theory level. By comparing a sequence of DNAduplexes with increasing length, we have found that the stacking effect of base pairs has verysmall influence on all kinds of spectra, and suggested that the spectra of a general DNA can bewell reproduced by linear combinations of composed base pairs weighted by their ratio. The NEXAFS spectra study has been extended to other realistic systems. We have used cluster modelswith increasing sizes to represent the infinite crystals of nucleobases and nucleosides, infinitegraphene sheet, as well as a short peptide in water solution. And the equivalent core holeapproximation has been extensively adopted, which provides an efficient access to these largesystems. We have investigated the influence of external perturbations on the nitrogen NEXAFSspectra of guanine, cytosine, and guanosine crystals, and clarified early discrepancies betweenexperimental and calculated spectra. The effects of size, stacking, edge, and defects to theabsorption spectra of graphene have been systematically analyzed, and the debate on theinterpretation of the new feature has been resolved. We have illustrated the influence of watersolvent to a blocked alanine molecule by using the snapshots generated from molecular dynamics. Multi-scale computational study on four short peptides in a self-assembled cage is presented. It isshown that the conformation of a peptide within the cage does not corresponds to its lowest-energyconformation in vacuum, due to the Zn-O bond formed between the peptide and the cage, and theconfinement effect of the cage. Special emphasis has been paid on a linear-scaling method, the generalized energy basedfragmentation energy (GEBF) approach. We have derived the GEBF energy equation at the Hartree-Focklevel with the Born approximation of the electrostatic potential. Numerical calculations for amodel system have explained the accuracy of the GEBF equation and provides a starting point forfurther refinements. We have also presented an automatic and efficient implementation of the GEBFapproach which is applicable for general large molecules. / QC 20110404

soft x-ray spectroscopy

bio- and nano-materials

first-principles simulation

host-guest interaction

generalized energy-based fragmentation

Quantum chemistry

Kvantkemi

Spectroscopy

Spektroskopi

Die Strukturabhängigkeit der Festkörperfluoreszenz bei Phosphanylanthracenen / The relationship of solid-state fluorescence and molecular structure in phosphanylanthracenes

Schwab, Gerald Harald

30 April 2008

No description available.

540 Chemie

Mathematics and Computer Science

Anthracen

Phosphor

Fluoreszenz

Wirt/Gast-Systeme

Röntgenstrukturanalyse

Anthracene

phosphorus

fluorescence

host/guest-systems

X-ray diffraction

35.42

35.25

S