Isostructurality of quinoxaline crystal phases: The interplay of weak hydrogen bonds and halogen bonding

Saidykhan, Amie, Fenwick, Nathan W., Bowen, Richard D., Telford, Richard, Seaton, Colin C.

09 December 2021

Yes / Tailoring the physical properties of molecular crystals though the construction of solid solutions requires the existence of isostructural crystals. Simple substitutions of a given molecular framework can give a range of different crystal structures. A set of quinoxaline derivatives, C8H4N2(C6H4X)2,Q3,3′X2, has been investigated (X = F, Cl, Br, I and Me) where kinetic factors generated a set of isostructural crystals for the lighter halogens (F, Cl, Br) alone. Computational analysis shows that the stabilising interactions are maximal for Cl, while DSC studies demonstrate the existence of more stable polymorphs for both F and Br containing systems. Steric factors appear to have a lower contribution than the balance of weaker hydrogen and halogen bonding shown by the Me and I containing systems displaying different packing driven by CH⋯N/CH⋯π bonds and I⋯I bonds respectively.

Quinoxaline crystal phases

Hydrogen bonds

Molecular crystals

Crystal structures

Large and small area sensors for real time hydrogen detection

Jones, Patricia A.

01 January 2001

Hydrogen is a component of spacecraft fuel that is explosive at atmospheric concentrations of four percent or higher. A study was undertaken to determine potential systems for use in tow types of hydrogen sensors that will be useful for real time hydrogen detection, both in ground storage and utilization facilities and in spacecraft. Quantitative detection demands a small, highly sensitive, and highly selective sensor. These detectors will be useful in areas such as the vicinity of joints, couplings, and stress points in the hydrogen storage and plumbing system of the space shuttle. Qualitative detection requires the other sensor to cover large areas, use no power, and be easily monitored visually or with a camera. Such a sensor will serve two purposes: it will allow general detection of hydrogen in a large space where poorly positioned point sensors would fail; it will also aid in locating and repairing any hydrogen leaks that might occur. A manganese (IV) oxide film was produced on the surface of a quartz crystal microbalance and this system was investigated for use as a small, quantitative hydrogen sensor. A reproducible response to hydrogen in the form of an increase in the frequency of vibration of the quartz crystal under an applied voltage was demonstrated. Other coatings were also investigated. A number of indicator compounds were screened for response to hydrogen to serve as large area sesnors. The metallochromic indicator, calmagite, produced a noticeable darkening upon exposure to hydrogen, demonstrating its potential for use as a qualitative, large area hydrogen sensor.

Manganese oxides; Oscillators

Crystal; Quartz crystal microbalances

Chemistry

A crystal engineering approach for the design of multicomponent crystals and assembly of nano-scale architectures

Hurley, Evan Patrick

January 1900

Doctor of Philosophy / Department of Chemistry / Christer B. Aakeroy / The work presented in this thesis has demonstrated that supramolecular synthons can be used to make multicomponent crystals, and various synthons can be combined to make supermolecules. The synthons can also be used to construct nanoscale assemblies. Molecules containing single and multiple hydrogen-bond (HB) and halogen-bond (XB) acceptor sites have been synthesized in an effort to carry out supramolecular synthesis in order to establish a reliable hierarchy for intermolecular interactions. Pyrazole-based molecules have been made, combined with various carboxylic acids, and characterized using infrared (IR) spectroscopy to give a success rate of 55-70%. Reactions that gave a positive result were converted to solution experiments, and crystals were grown and characterized using single-crystal X-ray diffraction (XRD). The co-crystals display infinite 1-D chains with the intended stoichiometry and structural landscape on 6/6 occasions. The salts, on the other hand, display unpredictable stoichiometry and structural landscape on 5/5 occasions. Furthermore, the electrostatic charge on the primary hydrogen-bond acceptor, N(pyz), can be altered by adding a nitro, R-NO2, covalent handle to the backbone of the pyrazole molecule. Addition of a strongly electron withdrawing group significantly lowered the charge on the pyrazole nitrogen atom and, in turn, lowered the supramolecular yield to 10%. Ditopic molecules containing pyrazole and pyridine on the same molecular backbone were synthesized and characterized using 1H NMR. The molecules were co-crystallized with carboxylic acids, and the resulting solids were characterized using IR spectroscopy. The solids could then be classified as co-crystal or salt using specific markers in the IR spectrum. Single-crystal XRD was used to observe the intermolecular interactions in the co-crystals and salts, and the co-crystals were assigned to two groups: Group 1 (2) and Group 2 (2). The salts (4) show more unpredictability with stoichiometry and structural landscape. A library of ditopic molecules containing triazole and pyridine acceptor sites were synthesized and characterized using 1H and 13C NMR. The molecules were co-crystallized with carboxylic acids and the resulting solids were characterized using IR spectroscopy which demonstrated a 100% supramolecular yield whenever a pyridine moiety was present, consistent with results from Chapter 3. Single-crystal XRD was used to identify the intermolecular interactions in the co-crystals (2) and salt (1), and the results show that triazole can compete with pyridine for hydrogen bond donors. A library of ditopic molecules was also used for halogen-bonding (XB) studies with a series of activated iodine and bromine-based donors. The results show that iodine donors have a higher success rate range (12.5-75%) compared to bromine donors (16.7-50%) based on results obtained from IR spectra. Furthermore, the results from the XRD show that pyrazole nitrogen atoms can compete with pyridine for forming XB, and two groups of supramolecular synthons were observed. Finally, relatively weak non-covalent interactions, HB and XB, can influence the assembly of nanoparticles based on IR spectroscopy and TEM images. The assembly of the particles is influenced by specific capping ligands, which were synthesized and characterized using 1H, 13C and 19F NMR. The results demonstrate that relatively weak non-covalent interactions based on HB and XB interactions can influence nanoparticle assembly.

Crystal Engineering

Nanoscale

Chemistry (0485)

A piezo-electric internal combustion engine indicator

Gold, David

January 2011

Typescript, etc. / Digitized by Kansas State University Libraries

Oscillators, Crystal

Piezo-electric devices

Structure and reactivity of clean, potassium promoted and iron modified ruthenium

Harrison, K.

January 1987

Various aspects of the surface chemistry of a ruthenium (1010) single crystal have been investigated under ultra-high vacuum conditions, employing the techniques of Auger Electron Spectroscopy, Low Energy Electron Diffraction, Multimass Thermal Desorption Spectroscopy, photoemission spectroscopies and work function measurements. The studies were undertaken with a view towards the applicability of ruthenium and iron-ruthenium alloys to the ammonia synthesis, though work relevant to the Fischer-Tropsch synthesis was also performed. The interactions of the gases nitrogen, hydrogen and ammonia with the clean surface were all explored. Molecular nitrogen was found to have an extremely low sticking probability of less than 10<SUP>-9</SUP> at room temperature, but surface nitrogen atoms were deposited via two separate means, using either a mixture of nitrogen ions or nitrogen atoms themselves as the impinging species. Both chemisorbed and bulk implanted states were thereby observed. Hydrogen uptake at 310 K saturated at small doses but an estimate of 256 kJ mol<SUP>-1</SUP> was made for the Ru-H bond strength from thermal desorption traces. Ammonia readily adsorbed at and above room temperature. Partial dissociation occurred at 300 K, the extent of fragmentation increasing as the crystal temperature was raised. Strong electron beam perturbations of the adlayer occurred, accelerating the rate of adsorption and resulting in the appearance of otherwise unobservable LEED patterns. The behaviour of the model promoter potassium was relatively typical of alkali metal/transition metal systems, though the anisotropic substrate potential was found to induce a series of interesting one dimensionally incoherent compressed overlayer structures. A further striking observation was the occurrence of substantial bulk dissolution of potassium following small doses at 430 K. The promoting effects of potassium on CO adsorption were investigated and interpreted interms of a recent modification of the Blyholder model, which combines indirect, through metal and direct, through space interactions. Finally, the deposition of iron on Ru(10bar 10) was studied. At 300 K the iron film grew in a metastable layer by layer mode, which rapidly rearranged on heating to either an alloy phase or a regime of 3D crystallites lying above one or two iron monolayers. Adsorption at elevated temperatures produced essentially the same results as heating layers deposited at room temperature.

541

Surface chemistry/Ru crystal

Positron beam study of technological films

Saleh, Abdelnaser

January 1996

No description available.

530.41

Crystal lattice defects; Silicon

Crystal related arthropathies : a growing problem

Harries, J. E.

January 1984

No description available.

610

Crystal related joint disease

Water in the mantle

Withers, Anthony Charles

January 1997

No description available.

551.11

Petrology; Crystal chemistry; Primordial

Structural studies of compounds containing p-block elements

Starbuck, Jonathan

January 2001

No description available.

546

Bonds; Bonding; Intermolecular; Crystal

Synthetic end structural studies of bismuth and antimony alkoxides, amides and halides

James, Sian Catherine

January 1999

No description available.

546

Crystallography; Crystal; X ray