A Study of the Effects of Titanium Dioxide Nanoparticles on the Fluorescent Intensity of Fluorescent Compounds in the Presence of Known Quenchers.

Koka, Vivian Dzigbodi

17 December 2011

Titanium Dioxide is a naturally occurring oxide of titanium. It has a wide range of uses in commercial products for providing whiteness and opacity. It has photocatalytic properties and can also be used to produce electricity in its nanoparticles form. This research is focused on investigating the effect of titanium dioxide nanoparticles in analysis of compounds using luminescence-based techniques. Quenching, which is one of the basic problems of fluorescent measurements, was studied in the presence of molecular oxygen and methyl iodide. The rutile phase of titanium dioxide nanoparticles was synthesized by the acid hydrolysis of titanium isobutoxide at low temperatures with nitric acid. The crystalline powder was dissolved at different concentrations and used to monitor the fluorescence intensities of carbazole, pyrene, and fluoranthene in the presence of methyl iodide and oxygen. Quenching by molecular oxygen was studied by comparing the fluorescence intensities of compounds with and without degassing the solutions. Titanium Dioxide was found to exhibit interesting effects on the fluorescent intensities of these compounds in the presence of quenchers.

Titanium Dioxide

Nanoparticles

Fluorescence

Quenching

Methyl Iodide

Chemistry

Physical Sciences and Mathematics

Automated radiosynthesis of 2-['1'1C]thymidine and ['1'1C]methyl halides for use in Positron Emission Tomography

Steel, Colin James

January 2000

No description available.

541.38

Trace chemical analysis and molecular dynamics utilising ultraintense femtosecond lasers

Graham, Paul

January 2000

No description available.

535

Methods for the Synthesis of PET Tracers and NMR Studies of Ribonuclease A

Samuelsson, Linda

January 2005

<p>This thesis contains two parts.</p><p>In the first part, general and versatile palladium-mediated ¹¹C-C bond forming reactions for use in the production of radiotracers for Positron Emission Tomography (PET) were explored. Two complimentarty approaches were investigated: the coupling of [¹¹C]methyl iodide with a vinyl stannane and the reaction of a [¹¹C]methylated stannane with various organohalides. The former approach resulted in an improved, fully automated method for the synthesis of the potential cell proliferation tracer 1-(2’-deoxy-2’-fluoro-β-D-arabinofuranosyl)-[<i>methyl</i>-¹¹C]- thymine. The tracer was obtained in an isolated decay-corrected radiochemical yield of 28% at 25 min after end of radionuclide production. </p><p>In the latter approach, a [¹¹C]methylated tricyclic stannane (5-[¹¹C]methyl-1-aza- 5-stannabicyclo[3.3.3]undecane) was synthesised in 47% decay-corrected radiochemical yield, starting from [¹¹C]methyl iodide. This stannane was successfully employed in palladium-mediated coupling reactions with aryl, heteroaryl and vinyl halides.</p><p>In the second part, effects of the osmolytes glycine betaine, trimethylamine <i>N</i>-oxide (TMAO) and urea on Ribonuclease A (RNase A) were investigated using Nuclear Magnetic Resonance (NMR) spectroscopy. Changes in the enzymatic activity in the presence of these osmolytes at concentrations of ≤1 M were observed by monitoring the RNase A-catalysed degradation of polyuridylic acid using ³¹P NMR spectroscopy. The decrease in activity caused by urea was counteracted by both glycine betaine and TMAO at a molar ratio of 1:1.4 and 1:1, respectively.</p><p>To investigate if the observed activity changes were accompanied by any detectable alteration in the gross conformation of RNase A, diffusion coefficients for the enzyme in the various osmolyte solutions were measured using pulsed-field gradient NMR. A pulse sequence suitable for diffusion measurements in highly concentrated aqueous osmolyte solutions was developed and assessed. The diffusion of RNase A was measured relative to a new internal standard, 2,2,5,5,-tetramethyl-1,4-dioxane. No clear, detectable change in the relative diffusion of RNase A was observed in these media.</p>

Organic chemistry

[11C]methyl iodide

Stille reaction

palladium

Ribonuclease A

osmolytes

PFG-NMR

Organisk kemi

Organic chemistry

Organisk kemi

Methods for the Synthesis of PET Tracers and NMR Studies of Ribonuclease A

Samuelsson, Linda

January 2005

This thesis contains two parts. In the first part, general and versatile palladium-mediated 11C-C bond forming reactions for use in the production of radiotracers for Positron Emission Tomography (PET) were explored. Two complimentarty approaches were investigated: the coupling of [11C]methyl iodide with a vinyl stannane and the reaction of a [11C]methylated stannane with various organohalides. The former approach resulted in an improved, fully automated method for the synthesis of the potential cell proliferation tracer 1-(2’-deoxy-2’-fluoro-β-D-arabinofuranosyl)-[methyl-11C]- thymine. The tracer was obtained in an isolated decay-corrected radiochemical yield of 28% at 25 min after end of radionuclide production. In the latter approach, a [11C]methylated tricyclic stannane (5-[11C]methyl-1-aza- 5-stannabicyclo[3.3.3]undecane) was synthesised in 47% decay-corrected radiochemical yield, starting from [11C]methyl iodide. This stannane was successfully employed in palladium-mediated coupling reactions with aryl, heteroaryl and vinyl halides. In the second part, effects of the osmolytes glycine betaine, trimethylamine N-oxide (TMAO) and urea on Ribonuclease A (RNase A) were investigated using Nuclear Magnetic Resonance (NMR) spectroscopy. Changes in the enzymatic activity in the presence of these osmolytes at concentrations of ≤1 M were observed by monitoring the RNase A-catalysed degradation of polyuridylic acid using 31P NMR spectroscopy. The decrease in activity caused by urea was counteracted by both glycine betaine and TMAO at a molar ratio of 1:1.4 and 1:1, respectively. To investigate if the observed activity changes were accompanied by any detectable alteration in the gross conformation of RNase A, diffusion coefficients for the enzyme in the various osmolyte solutions were measured using pulsed-field gradient NMR. A pulse sequence suitable for diffusion measurements in highly concentrated aqueous osmolyte solutions was developed and assessed. The diffusion of RNase A was measured relative to a new internal standard, 2,2,5,5,-tetramethyl-1,4-dioxane. No clear, detectable change in the relative diffusion of RNase A was observed in these media.

Organic chemistry

[11C]methyl iodide

Stille reaction

palladium

Ribonuclease A

osmolytes

PFG-NMR

Organisk kemi

Organic chemistry

Organisk kemi

Characterization of liquid crystals in porous materials by means of NMR of probe atoms and molecules

Tallavaara, P. (Pekka)

15 May 2008

Abstract The present thesis describes a method for characterization of liquid crystals in confined spaces by means of NMR of probe atoms and molecules. 129Xe isotope enriched xenon gas and 13C isotope enriched methyl iodide and methane were used as probes. Behavior of solutes and liquid crystals confined to porous materials was investigated using 129Xe and 13C NMR spectroscopy. Uniaxial nematic liquid crystals Phase 4 and ZLI 1115 were used as a medium. Controlled pore glass with well defined and known properties was used as a porous material. The behavior of liquid crystals and solutes in various different size pores, temperatures and magnetic fields at different solute concentrations was explained. The average pore diameter of the material varied from mesopores to macropores. The studied temperature range covered solid, nematic and isotropic phases of bulk liquid crystals, and the highest magnetic field was 2.5 times stronger than the lowest one used (4.70 T). The chemical shifts, intensities, and line shapes of the resonance signals from the solutes were observed to contain lots of information about the effect of confinement on the state of the liquid crystals. Especially the line shape of the 13C resonances of methyl iodide was observed to be very sensitive to the liquid crystal orientation distribution in the pores. By varying experimental conditions the relative contribution of field and the surface forces of pore walls to the orientation of liquid crystal molecules inside the pores was seen to change quite drastically. In addition, it was also observed that when the sample is cooled very rapidly, xenon atoms do not squeeze out from the freezing medium but they are occluded inside the solid lattice, and their chemical shift is very sensitive to crystal structure. Furthermore, because solutes experienced on average isotropic environment inside the smallest pores, isotropic value of the shielding tensor could be determined at exactly the same condition and temperature as anisotropic counterpart between the pore particles. Thus, for the first time in the solution state, shielding anisotropies could be determined as a function of temperature.

¹²⁹Xe

CPG

chemical shift anisotropy

liquid crystal

methane

methyl iodide

nuclear magnetic resonance spectroscopy

porous material

shielding anisotropy

Airborne measurements of trace gases using a Chemical Ionisation Mass Spectrometer (CIMS) onboard the FAAM BAe-146 research aircraft

Le Breton, Michael Robert

January 2013

A chemical ionisation mass spectrometer (CIMS) was developed and utilised for measurements onboard the Facility for Atmospheric Airborne Measurements (FAAM) BAe-146 aircraft. The I- ionisation scheme was implemented to detect nitric acid (HNO3), formic acid (HC(O)OH), hydrogen cyanide (HCN) and dinitrogen pentoxide (N2O5) simultaneously at a sampling frequency of 1 Hz. Sensitivities ranged from 35±6 ion counts pptv-1 s-1 for HC(O)OH to 4±0.9 ion counts pptv-1 s-1 for HCN and limits of detection from 37 ppt for HNO3 and 5 ppt for HCN. Trace gas concentrations of species such as HC(O)OH are currently under predicted in global models. In order to understand their role in controlling air quality, it is crucial that their production pathways and abundance are accurately measured and constrained. To date, airborne measurements of these trace gases have been difficult as a result of instrumental limitations on an aircraft such as limit of detection and sampling frequency. The first UK airborne measurements of HC(O)OH and HNO3 confirmed that HC(O)OH is under predicted by up to a factor of 2 in a trajectory model that implements the full Master Chemical Mechanism (MCM) and Common Representative Intermediate Scheme (CRI). The inclusion of a primary vehicle source enabled the model to reproduce the concentrations observed; verifying that direct sources are under represented. Secondary formation of HC(O)OH was observed through its correlation with HNO3 and ozone (O3), indicating a strong photochemical production source. Hydroxyl (OH) concentrations were estimated for the first time in a flight around the UK using the HC(O)OH and HNO3 measurements. A biomass burning (BB) plume identification technique is applied to data obtained from Canadian biomass fires using HCN as a marker. A 6 sigma above background approach to defining a plume resulted in a higher R2 correlating value for the normalised excess mixing ratio (NEMR) to carbon monoxide (CO) when compared to current methods in the literature. The NEMR obtained from this work; 3.76±0.02 pptv ppbv-1, lies within the range found in the literature. This NEMR is then used to calculate a global emission total for HCN of 0.92 Tg (N) yr-1 when incorporated into the global tropospheric model STOCHEM CRI. The first direct N2O5 airborne measurements on an aircraft at night are compared to indirect measurements taken by a broadband cavity enhancement absorption spectrometer. An average R2 correlation coefficient of 0.87 observed over 8 flights for 1 Hz measurements indicates the selectiveness of the I- ionisation scheme to detect N2O5 directly, without nitrate (NO3) interference.

551.51

Managing Weeds and Soilborne Pests with Fumigant and Non-Fumigant Alternatives to Methyl Bromide

McAvoy, Theodore Porter

06 June 2012

Methyl bromide (MBr) was widely used as a soil fumigant to manage soilborne pests in plasticulture vegetable production; however, it has been banned by the United Nations Environment Programme. Alternatives to MBr must be implemented to sustain fresh market tomato productivity. Possible MBr alternatives include new fumigant compounds, improved plastic mulch, and grafting. Methyl iodide (MeI) and dimethyl disulfide (DMDS) were tested as fumigant alternatives to MBr for the control of yellow nutsedge and soilborne pathogens of tomato. Virtually impermeable film (VIF) and totally impermeable film (TIF) were tested for fumigant retention and yellow nutsedge control in tomato. Grafting onto resistant rootstocks was tested for bacterial wilt and nematode management in tomato. In the absence of a soil fumigant, TIF suppressed yellow nutsedge better than VIF. TIF increased fumigant retention compared to VIF at similar application rates. Reduced fumigant application rates could be used in combination with TIF while maintaining fumigant concentrations, weed control, and crop yields comparable to greater use rates with VIF. Shank applied DMDS rates could be lowered to 281 L/ha under TIF from 468 L/ha under VIF; shank applied MeI application rates could be reduced to 56 L/ha under TIF compared to 93 L/ha under VIF and drip applied DMDS could be reduced from 561 L/ha under VIF film to 374 L/ha under TIF. Grafting susceptible commercial tomato cultivars onto resistant tomato hybrid rootstocks increased yields and plant survival in bacterial wilt infested fields. "Cheong Gang", "BHN 998", and "BHN 1054" were the best performing rootstocks for bacterial wilt resistance and tomato fruit yield in severely infested fields. Grafting increased tomato yield and decreased root galling from root-knot nematodes in an infested field. Hybrid rootstock "RST 106" resulted in the lowest root-knot nematode galling. In conclusion, TIF with reduced rates of DMDS or MeI is a viable MBr alternative for fresh market tomato production to retain effective doses of fumigant, manage yellow nutsedge and maintain yields. Grafting is an effective MBr alternative to manage bacterial wilt and root-knot nematode and maintain tomato yields. / Ph. D.

TIF

methyl iodide

fumigation

VIF

dimethyl disulfide

methyl bromide alternative

grafting

bacterial wilt

yellow nutsedge

virtually impermeable film

totally impermeable film

weeds

root-knot nematode

diseases

chemigation

drip applied fumigant

tomato