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The crusade to decrease the use of expensive facilities and time-consuming reactions have been required by the prerequisite for speedy, simple operational capacities in environmental study and medical diagnostics. While initial studies were directed at analytical claims, it has since been practical to synthetic chemistry in the system of the microreactor. The most exciting feature of the microreactor is the huge surface to volume ratio due to miniaturization. A capillary flow reactor was fabricated and tested on few organic reactions using dye as catalyst (metal-free) under sunlight…mehr

Produktbeschreibung
The crusade to decrease the use of expensive facilities and time-consuming reactions have been required by the prerequisite for speedy, simple operational capacities in environmental study and medical diagnostics. While initial studies were directed at analytical claims, it has since been practical to synthetic chemistry in the system of the microreactor. The most exciting feature of the microreactor is the huge surface to volume ratio due to miniaturization. A capillary flow reactor was fabricated and tested on few organic reactions using dye as catalyst (metal-free) under sunlight irradiation. Organic dyes are cheap, non-polluting, environmentally friendly and can be modified easily unlike metal photoredox catalysts. In this study, we carried out three different reactions: Dehydrogenative coupling reaction, Photoacylation reaction and finally cyanation reactions. We achieved a moderate to good yield with 43%, 64% and 80% for dehydrogenative coupling, photoacylation, and cyanation reaction respectively.
Autorenporträt
Ismaila Yunus Abdulkareem, natural del estado de Kwara (Nigeria). Tiene un máster de la Universidad Rey Fahd de Petróleo y Minerales, patrocinado por el Ministerio de Educación del Reino de Arabia Saudí. Se ha beneficiado de un buen número de becas basadas en el rendimiento académico. Da toda la gloria al Todopoderoso.