2022
DOI: 10.1021/acsomega.2c00790
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Selectivity Enhancement for Uric Acid Detection via In Situ Preparation of Blue Emissive Carbon Dots Entrapped in Chromium Metal–Organic Frameworks

Abstract: In the present work, for the first time, the in situ formation of blue emissive carbon dots (bCDs) and encapsulation into the pores of chromium-based metal–organic frameworks (Cr-MOFs) are described. The luminescent bCDs via in situ process are formed and entrapped inside the pores of Cr-MOFs to form a nanocomposite of bCDs@Cr-MOFs. The bCDs@Cr-MOFs showed a strong broad blue emission at 420 nm (excited at 310 nm), which corresponds to both, the ligand (2-aminotere… Show more

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Cited by 22 publications
(5 citation statements)
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“…116 The combination of aptamers with MOFs causes the formation of nanostructure with properties of both aptamer and MOFs. 117,118 MOFs with large surface areas permit an extensive range of ssDNA or RNA to adhere to the surface. Additionally, MOFs with adjustable pore diameters permit various nucleic acids to be immobilized on their surface.…”
Section: Metal-organic Framework (Mof)-based Aptasensorsmentioning
confidence: 99%
“…116 The combination of aptamers with MOFs causes the formation of nanostructure with properties of both aptamer and MOFs. 117,118 MOFs with large surface areas permit an extensive range of ssDNA or RNA to adhere to the surface. Additionally, MOFs with adjustable pore diameters permit various nucleic acids to be immobilized on their surface.…”
Section: Metal-organic Framework (Mof)-based Aptasensorsmentioning
confidence: 99%
“…To evaluate the selective UA detection capability of the fabricated AF-SERS substrate, signals from various metabolites were analyzed (Figure 4). Figure 4a presents the chemical formulations of target molecules used in the selectivity experiments, including UA (I), ascorbic acid (II), creatine (III), dopamine (IV), glucose (V), and L-cysteine (VI), which are representative metabolites [43][44][45][46]. UA was tested at a concentration of 800 µM, whereas the remaining substances were experimented with at a high concentration of 1 mM.…”
Section: Detection Selectivity Of Ua Sensor With Af-sersmentioning
confidence: 99%
“… 8 The top-down method involves the utilization of carbon-rich materials or molecules as carbon sources, cutting larger carbon structures like graphite, carbon nanotubes, carbon soot, activated carbon, and graphite oxide into smaller CDs through techniques such as arc discharge, 9 laser ablation 10 and electrochemical methods. 11 On the other hand, bottom-up methods use organic molecules, such as glucose 12 and fructose 13 to react and form larger CDs by applying external energy like ultrasonication, 14 microwave pyrolysis, 15 heating, 16 hydrothermal, 17 and microwave irradiation. 18 Due to their unique properties, CDs have found applications in various fields, replacing toxic semiconductor quantum dots 19 made of heavy metals like cadmium 20 and lead.…”
Section: Introductionmentioning
confidence: 99%