The College of Education for Pure Sciences at the University of Basrah , Department of Chemistry, discussed a master's thesis on (design of a chemiluminescence meter device)
The message presented by the researcher (Karrar Razzaq Hassan) included
Three chapters. The first chapter includes an introduction to fluorescence in general and chemiluminescence in particular. It also contains some details about the flow injection technique, its basic principles, and the components of the injection system. Also, the issue of automation and how to automate flow injection systems has been addressed.
The second chapter included the chemicals and devices used in the study. The locally designed system was explained in detail, and its most important components were the chemiluminescence device and the peristaltic pump, which were designed locally. It also contained the working methods.
The third chapter included the results and discussion for the determination of hydrogen peroxide in the designed system, as the optimal conditions were studied first to organize the work of the device.
Design and construction of a self-injection chemiluminescence meter using tools and materials available in the local market at a cheap price.
The purpose of the message
The designed system is economical as it consumes very small amounts of samples and reagents, and the efficiency of the designed system is evaluated by estimating hydrogen peroxide (H2O2) in some pharmaceutical preparations, and calculating recovery values.
I got the message
Building and designing a fully self-injected chemiluminescence device for the first time in our university laboratories.
Manufacture of a three-channel micro pump from materials available in the local market and characterized by different speeds for each channel as it is controlled by Arduino microcontrollers.
Connecting the designed device with the flow injection technology to obtain very good retrospective results and a high modeling speed compared to the flow injection device systems.
The designed system was characterized by its high sensitivity

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