Перегляд за автором "Muzyka, K."
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Публікація A single-electrode electrochemical system for multiplex electrochemiluminescence analysis based on a resistance induced potential difference†(Chemical Science, 2018) Gao, W.; Muzyka, K.; Ma, X.; Loua, B.; Xu, G.Developing low-cost and simple electrochemical systems is becoming increasingly important but still challenged for multiplex experiments. Here we report a single-electrode electrochemical system (SEES) using only one electrode not only for a single experiment but also for multiplex experiments based on a resistance induced potential difference. SEESs for a single experiment and multiplex experiments are fabricated by attaching a self-adhesive label with a hole and multiple holes onto an ITO electrode, respectively. This enables multiplex electrochemiluminescence analysis with high sensitivity at a very low safe voltage using a smartphone as a detector. For the multiplex analysis, the SEES using a single electrode is much simpler, cheaper and more user-friendly than conventional electrochemical systems and bipolar electrochemical systems using electrode arrays. Moreover, SEESs are free from the electrochemiluminescent background problem from driving electrodes in bipolar electrochemical systems. Since numerous electrodes and cover materials can be used to fabricate SEESs readily and electrochemistry is being extensively used, SEESs are very promising for broad applications, such as drug screening and high throughput analysis.Публікація Apparatus “Spark” for luminescent and electrochemiluminescent measurements(Przeglad Electrotochniczny, 2018) Snizhko, D.; Ghazi Bani-Khaled; Muzyka, K.; Xu, G.The article is devoted to the development of the apparatus “Spark” for integration a photodetector with a current output in a measurement system. Developed apparatus “Spark” includes a current-to-voltage converter, an output filter, and a source of a high voltage, that are sufficient to combine a photomultiplier tube with a different analytical instrumentation. Use of apparatus “Spark” with electrochemical station CHI 800C CH Instrument and photomultiplier tube CR-105 by Hamamatsu Photonics is shown by over an electrochemiluminescent assay of a test solution.Публікація Artemisinin-luminol chemiluminescence for forensic bloodstain detection using smart phone as detector(Subscriber access provided by TRENT UNIV, 2017) Muzyka, K.; Chao Wang; Wenyue Gao; Shimeles Addisu Kitte; Jianping Li; Wei ZhangForensic luminol chemiluminescence test is one of the most sensitive and popular methods for the determination oflatent bloodstains. It mainly uses hydrogen peroxide or sodium perborate as coreactants. The easy decomposition of hydrogen peroxide and sodium perborate in the presence of many ions significantly affects the selectivity. Artemisinin is a natural peroxide that is quite stable in the presence of common ions. In the present study, artemisinin has been exploited for the forensic bloodstain chemiluminescence detection for the first time. Using smart phone as cost-effective portable detector, the visual detection of bloodstains has been achieved with a dilution factor of blood upto 100000. Moreover, this system shows excellent selectivity against many common species. It can well differentiate bloodstains from other stains, such as coffee, brown sugar, and black tea. Both favourable sensitivity and selectivity makes the present method promising in forensic detection.Публікація Progress and chellenges in electrochemiluminescent aptasensors(PII: S0956-5663(17)30015-5 DOI: http://dx.doi.org/10.1016/j.bios.2017.01.015 Reference: BIOS9480, 2017) Muzyka, K.; Muhammad Saqib; Zhongyuan Liu; Wei Zhang; Guobao XuThe importance of developing new diagnostic and detection technologies for the growing number of sensing challenges is rising each year. Here, we present a comprehensive and concise review on electrochemiluminescent (ECL) aptasensors by putting special emphasis on its characteristic features, advances, challenges, and applications of ECL based aptasensors. ECL is an ideal tool for constructing such sensors because of its inherent characteristics and can be easily integrated into aptamer based sensing platforms. This review summarizes the "synergistic benefits" of ECL aptamer-based sensors; classifications of ECL aptamer-based assay designs, and signal amplification strategies. This critical review highlights the effects of integration of nanomaterials, immobilization techniques, and amplification/detection strategies on the analytical performance of ECL based aptasensors. Moreover, several proof-of-concepts with appropriate figures and explanations have been shown to provide a general guide for the design of ECL aptasensors, and to stimulate further application of these ECL aptasensors. Finally, we conclude with the remaining challenges and opportunities to inspire further developments in ECL aptasensors.Публікація Trans-impedance Ampli er for ECL Analyzer(ISBC 2018, 2018) Ghazi Bani-Khaled; Snizhko, D.; Muzyka, K.; Xu, G.Use of apparatus "Spark" with electrochemical station CHI 800C CH Instrument and pho- tomultiplier tube CR-105 by Hamamatsu Photonics is shown by over an electrochemilumi- nescent assay of the test solution.