In 2019,Applied Surface Science included an article by Qu, Ke; Kondengaden, Shukkoor M.; Li, Jian; Wang, Xuewei; Sevilla, Michael D.; Li, Lei; Zeng, Xiangqun. Application of 627-18-9. The article was titled ãCarbohydrate-functionalized polythiophene biointerface: design, fabrication, characterization and application for protein analysisã? The information in the text is summarized as follows:
In this study, a general method for fabricating glycosylated conductive polymer (CP) biointerface was demonstrated for a label-free electrochem. biosensor. A 3-(3-azidopropoxy) thiophene monomer was designed and synthesized. By electrochem. polymerizing this monomer in ionic liquid [Bmim][BF4], a unique conductive polymer was formed, allowing grafting of lactose or ferrocene via post-polymerization Cu(I)-catalyzed click reaction. X-ray photoelectron spectra validated the covalent 1, 2, 3-triazole ring formation during this click functionalization. SEM study showed an increasing of the crystallinity of the CPs after click functionalization with lactose or ferrocene. The binding of the fabricated lactosylated polythiophene biointerface with Erythrina Cristagalli lectin (ECL) was characterized with differential pulse voltammetry, showing excellent sensitivity and selectivity for ECL anal. This study illustrated a new glycosylated CP biointerface design and fabrication method that can be applied for developing real-time and label-free electrochem. biosensor to study protein-carbohydrate interactions for protein anal. In the part of experimental materials, we found many familiar compounds, such as 3-Bromopropan-1-ol(cas: 627-18-9Application of 627-18-9)
3-Bromopropan-1-ol(cas: 627-18-9) was used in the synthesis of fluorescent halide-sensitive quinolinium dyes and molten salt-polymers. Furthermore, it was used in the synthesis of chiral, quaternary prolines via cyclization of quaternary amino acids.Application of 627-18-9
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