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Construction of an enzyme-free electrochemical sensor based on Ag-Fe2O3/POM/RGO novel nanocomposite for hydrogen peroxide detectionNqakala, Noniko Civilized January 2018 (has links)
>Magister Scientiae - MSc / The motivation to determine H2O2 lies in the fact that this chemical species plays a crucial role in diverse fields of practise such as cosmetic, food, diagnostic, pharmaceutical, clinical and environmental protection industries. Several methods such as chromatography, colorimetry, titrimetry and spectrophotometry have been developed for its detection. However, these methods are known to manifest underlying disadvantages such as high cost, time consuming, instability and complicated immobilization procedures. In this present study an enzyme-less electrochemical sensor based on Ag-Fe2O3/POM/RGO nanocomposite (POM stands for polyoxometalate and RGO stands for reduced graphene oxide) was successfully synthesised via a hydrothermal method and a photochemical reduction method for the detection of hydrogen peroxide (H2O2).
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MULTI-MODE SELF-REFERENCING SURFACE PLASMON RESONANCE SENSORSGuo, Jing 01 January 2013 (has links)
Surface-plasmon-resonance (SPR) sensors are widely used in biological, chemical, medical, and environmental sensing. This dissertation describes the design and development of dual-mode, self-referencing SPR sensors supporting two surface-plasmon modes (long- and short-range) which can differentiate surface binding interactions from bulk index changes at a single sensing location. Dual-mode SPR sensors have been optimized for surface limit of detection (LOD). In a wavelength interrogated optical setup, both surface plasmons are simultaneously excited at the same location and incident angle but at different wavelengths. To improve the sensor performance, a new approach to dual-mode SPR sensing is presented that offers improved differentiation between surface and bulk effects. By using an angular interrogation, both surface plasmons are simultaneously excited at the same location and wavelength but at different angles. Angular interrogation offers at least a factor of 3.6 improvement in surface and bulk cross-sensitivity compared to wavelength-interrogated dual-mode SPR sensors.
Multi-mode SPR sensors supporting at least three surface-plasmon modes can differentiate a target surface effect from interfering surface effects and bulk index changes. This dissertation describes a tri-mode SPR sensor which supports three surface plasmon resonance modes at one single sensing position, where each mode is excited at a different wavelength. The tri-mode SPR sensor can successfully differentiate specific binding from the non-specific binding and bulk index changes.
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Palladium telluride quantum dots biosensor for the determination of indinavir drugFeleni, Usisipho January 2013 (has links)
Magister Scientiae - MSc / Indinavir is a potent and well tolerated protease inhibitor drug used as a component of the highly active antiretroviral therapy (HAART) of HIV/AIDS, which results in pharmacokinetics that may be favourable or adverse. These drugs work by maintaining a plasma concentration that is sufficient to inhibit viral replication and thereby suppressing a patient’s viral load. A number of antiretroviral drugs, including indinavir, undergo metabolism that is catalysed by cytochrome P450-3A4 enzyme found in the human liver microsomes. The rate of drug metabolism influences a patient’s response to treatment as well as drug interactions that may lead to life-threatening toxic conditions, such as haemolytic anaemia, kidney failure and liver problems. Therapeutic drug monitoring (TDM) during HIV/AIDS treatment has been suggested to have a potential to reduce drug toxicity and optimise individual therapy. A fast and reliable detection technique, such as biosensing, is
therefore necessary for the determination of a patient’s metabolic profile for indinavir and for appropriate dosing of the drugs. In this study biosensors developed for the determination of ARV drugs comprised of cysteamine self-assembled on a gold electrode, on which was attached 3-mercaptopropionic acid-capped palladium telluride (3-MPA-PdTe) or thioglycolic acid-capped palladium telluride (TGA-PdTe) quantum dots that are cross-linked to cytochrome P450-3A4 (CYP3A4) in the presence of 1-ethyl-3(3-dimethylaminopropyl) carbodiimide hydrochloride and N-hydroxysuccinimide. The quantum dots were synthesized
in the presence of capping agents (3-MPA or TGA) to improve their stability, solubility and biocompatibility. The capping of PdTe quantum dots with TGA or 3-MPA was confirmed by FTIR, where the SH group absorption band disappeared from the spectra of 3-MPA-PdTe and TGA-PdTe. The particle size of the quantum dots (< 5 nm) was estimated from high resolution transmission electron microscopy (HRTEM) measurements. Optical properties of the materials were confirmed by UV-Vis spectrophotometry which produced absorption iii bands at ~320 nm that corresponded to energy band gap values of 3 eV (3.87 eV) for TGAPdTe (3-MPA-PdTe) quantum dots. The electrocatalytic properties of the quantum dots biosensor systems were studied by cyclic voltammetry (CV) for which the characteristic reduction peak at 0.75 V was used to detect the response of the biosensor to indinavir. Results for indinavir biosensor constructed with 3-MPA-SnSe quantum dots are also reported in this thesis. The three biosensors systems were very sensitive towards indinavir; and gave low limits of detection (LOD) values of 3.22, 4.3 and 6.2 ng/mL for 3-MPA-SnSe, 3-MPA-PdTe and TGA-PdTe quantum dots biosensors, respectively. The LOD values are within the
‘maximum plasma concentration’ (Cmax) value of indinavir (5 - 15 ng/mL) normally observed 8 h after drug intake.
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Characterization and Development of an Enzymatically Signal-Enhanced Lateral Flow Assay Test for HIV Detection Using the P24 AntigenPankti Rajesh Thakkar (15354871) 28 April 2023 (has links)
<p>In 2021, an estimated 1.5 million people were diagnosed with HIV globally, increasing the total to 38.4 million people. Approximately 16% of this population were unaware of their infected status and required HIV testing, which is a critical first step in HIV prevention, treatment, and care. Hence, there is a need to develop a rapid, user-friendly, and cost-effective point-of-care test for HIV detection. The time between HIV infection and a detectable host HIV antibody concentration can extend up to 90 days. By incorporating more sensitive testing for the HIV p24 antigen on the virus, the diagnosis lag can be reduced to 17 days. This window could be further shortened by using horseradish peroxidase (HRP) enzyme as a signal enhancement technique. The work herein focuses on developing an enzymatically signal-enhanced lateral flow assay test for the p24 antigen to detect HIV during the acute phase of infection. Conjugation chemistry for the sandwich assay was characterized using DLS and UV-Vis. Dot blots were then used to assess and enhance the functionality of the individual components via a visual color gradient formed by the protein coupled with antibody-conjugated gold nanoparticles. A quantitative analysis was performed using ImageJ software through signal pixel intensity analysis. A limit of detection (LoD) of 6 ng/mL was obtained for the detection of the p24 antigen. This LoD was improved to 0.2 ng/mL by incorporating HRP signal enhancement with the diaminobenzidine substrate. This 30x signal improvement could drive down the LoD even further to improve the sensitivity of the commercial p24 antigen tests. Different fabrication and scalability studies were performed to produce a cost- efficient, fully functional prototype of a paper-based lateral flow device incorporating the signal- enhanced p24 assay. This study serves as a solid foundation to research focused on creating more efficient point-of-care tests that can be used in resource-limited settings to provide early detection of HIV for the 6 million individuals who are currently unaware of their HIV status. </p>
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Karatärisering av XRF-mätning med 120kV röntgenrörMahmood, Rahimi January 2021 (has links)
Syftet med denna undersökning är att utvärdera en XRFmätuppställning som använder högre spänning påröntgenröret än konventionella XRF-instrument. Iutvärderingen uppskattas Limit Of Detection (LOD) påtungmetaller genom att använda XRF-metoden, där dettestades olika filter, vinklar och rörspänning och derasinverkan på provet.Metaller med hög densitet kallas för tungmetaller. Vissatungmetaller är livsnödiga men vissa är skadliga för bådemänniskor och naturen. Några exempel på dessa tungmetallerär kvicksilver, kadmium och bly, vilka är farliga grundämnensom människor kan få i sig via föda.Vid utförande av denna undersökning användes enröntgenkälla (30-120keV) som var kopplad till mjukvaransom skickade fotonenergi och ström. En spektrometer med CdTe-detektor användes för att mäta energin på fotonerna från provet. Detektorn var kopplad till mjukvara där det uppmätt spektra kunde observeras och energitopparnas intensitet kunde avläsas. Topparnas intensitet kan härledas tillprovets samansättning. Sedan uppskattades LOD förproverna. Den teknik som jag har studerat ger möjlighet till bättre mätresultat än konventionella XRFutrustningar. Detta eftersom högre rörspänning gör att K-linjerna, inte bara L-linjerna, för tungmetaller kan avläsas
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Quantum dots-amplified electrochemical cytochrome P450 phenotype sensor for tamoxifen, a breast cancer drugFeleni, Usisipho January 2017 (has links)
Philosophiae Doctor - PhD / Breast cancer is regarded as the most common cancer in South Africa and its rate of
occurrence is increasing. About one in every 31 South African women are at the risk of
developing breast cancer and early diagnosis and treatment guarantee 90% survival rate.
Tamoxifen is the drugs of choice for the treatment of all stages of breast cancer. The drug
binds with estrogen receptor (ER) to minimize the transcription of estrogen dependent genes.
However, nearly 50% of ER-positive breast cancer patients either become resistant or fail to
respond to tamoxifen resulting in a serious clinical challenge in breast cancer management.
The Grand Health Challenges of South Africa includes the development of cost effective
diagnostic systems suitable for early detection of diseases and drug resistivity for timely
invention and better patient management. / 2020-08-31
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Molecularly imprinted polymers for detection of volatile organics associated with fuel combustionNgwanya, Olwethu January 2018 (has links)
Magister Scientiae - MSc (Chemistry) / Pollutants such as polycyclic aromatic hydrocarbons (PAHs) are known for their toxic effects
which may lead to the cause of degenerative diseases in both humans and animals. PAHs are
widespread in the environment, and may be found in water, food, automotive industry and
petrochemical industries to name but a few sources. Literature reports have highlighted industrial
workplace exposure to PAHs as a leading cause for development of cancer in workers.
Particularly, workers in the petrochemical industry are adversely affected and the incidence of
skin and lung cancer in this population group is high.
The United States of America in its guidelines developed by environmental protection agency
(EPA) has identified 18 PAHs as priority pollutants. Among these are anthracene,
benzo[a]pyrene and pyrene which have been selected as the focal point of this study due to their
significance in the petrochemical industry.
Due to the carcinogenic and mutagenic properties reported in literature for certain PAHs, there
have been monitoring procedures taken in most countries around the world. The commonly used
analytical methods for the detection of PAHs from industrial samples are high performance
liquid chromatography (HPLC) coupled to fluorescence detection, membrane filtration,
ozonation and reverse osmosis. Analysis of PAHs from the petrochemical industry is typically
performed by HPLC method as well as sono-degredation in the presence of oxygen and
hydrogen peroxide.
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