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W4372313980 endingPage "113872" @default.
W4372313980 startingPage "113872" @default.
W4372313980 abstract "Commercial fluorescent nanodiamonds constitute a new class of nanoprobes with excellent perspectives for biomedical applications. They produce a broad emission spectrum partially matching the biological window for high tissue penetration, which can be excited in the visible region (380–780 nm) and in the biological window (1000–2500 nm) using two-photon excitation processes, giving a chance for high-resolution multi-photon fluorescence imaging at a sub-cellular resolution scale. Because of their carbon-based structure, nanodiamonds are highly biocompatible and display low toxicity if adequately coated. The nanodiamonds fluorescence spectrum arises due to the so-called Nitrogen-Vacancy (NV) color centers, which are highly photostable and are formed by local charge density compensating defects because of the typical nitrogen presence impurity ions in the host nanocrystals. In this work, a study of different nanodiamonds’ concentrations in terms of their fluorescent activity was investigated in the range of 0.1–10 mg/mL by means of fluorescence spectroscopy with the purpose of determining which concentration of nanodiamonds suspended in milliQ water achieves the maximum intensity, in which it was found that the 5 mg/mL was the most intense in our experimental observations. Additionally, a non-linear fit of the experimental observations of intensity was performed to predict the fluorescence intensity following an expression of a fourth order polynomial with respect to concentration, with a figure of merit, FOM = 0.03–0.04 (3–4%). Based on this effect, the optimal nanodiamonds/aqueous media solution has been determined by means of cell viability assays, finding that concentrations ≤0.1 mg/mL are as biocompatible as milliQ water." @default.
W4372313980 created "2023-05-07" @default.
W4372313980 creator A5015573963 @default.
W4372313980 creator A5019555296 @default.
W4372313980 creator A5028728488 @default.
W4372313980 creator A5030501463 @default.
W4372313980 creator A5036600851 @default.
W4372313980 creator A5076773179 @default.
W4372313980 date "2023-06-01" @default.
W4372313980 modified "2023-10-01" @default.
W4372313980 title "Study of fluorescent nanodiamonds concentrations in aqueous solutions for biological applications" @default.
W4372313980 cites W1519086958 @default.
W4372313980 cites W1969302385 @default.
W4372313980 cites W1972518043 @default.
W4372313980 cites W1973712257 @default.
W4372313980 cites W1973763803 @default.
W4372313980 cites W1974268892 @default.
W4372313980 cites W1975764931 @default.
W4372313980 cites W1977943543 @default.
W4372313980 cites W1977952301 @default.
W4372313980 cites W1978564169 @default.
W4372313980 cites W1978780398 @default.
W4372313980 cites W1979533634 @default.
W4372313980 cites W1981014193 @default.
W4372313980 cites W1983383923 @default.
W4372313980 cites W1989195046 @default.
W4372313980 cites W1989601795 @default.
W4372313980 cites W1992309472 @default.
W4372313980 cites W1994155134 @default.
W4372313980 cites W1997437932 @default.
W4372313980 cites W1997479687 @default.
W4372313980 cites W1999065920 @default.
W4372313980 cites W2003771183 @default.
W4372313980 cites W2003861854 @default.
W4372313980 cites W2011529228 @default.
W4372313980 cites W2012169356 @default.
W4372313980 cites W2014246604 @default.
W4372313980 cites W2017423669 @default.
W4372313980 cites W2018072842 @default.
W4372313980 cites W2020062488 @default.
W4372313980 cites W2020071421 @default.
W4372313980 cites W2023283621 @default.
W4372313980 cites W2027244249 @default.
W4372313980 cites W2030587880 @default.
W4372313980 cites W2036369217 @default.
W4372313980 cites W2039546038 @default.
W4372313980 cites W2041357241 @default.
W4372313980 cites W2044169996 @default.
W4372313980 cites W2048891645 @default.
W4372313980 cites W2049867217 @default.
W4372313980 cites W2052655389 @default.
W4372313980 cites W2052724503 @default.
W4372313980 cites W2057617939 @default.
W4372313980 cites W2064829539 @default.
W4372313980 cites W2066759829 @default.
W4372313980 cites W2068735324 @default.
W4372313980 cites W2075664983 @default.
W4372313980 cites W2076649800 @default.
W4372313980 cites W2078133886 @default.
W4372313980 cites W2083895468 @default.
W4372313980 cites W2085446806 @default.
W4372313980 cites W2085663411 @default.
W4372313980 cites W2086842703 @default.
W4372313980 cites W2092281365 @default.
W4372313980 cites W2100173894 @default.
W4372313980 cites W2107772995 @default.
W4372313980 cites W2110603385 @default.
W4372313980 cites W2127133123 @default.
W4372313980 cites W2127166382 @default.
W4372313980 cites W2128081221 @default.
W4372313980 cites W2129885147 @default.
W4372313980 cites W2145240677 @default.
W4372313980 cites W2151979268 @default.
W4372313980 cites W2157789015 @default.
W4372313980 cites W2159098445 @default.
W4372313980 cites W2159974629 @default.
W4372313980 cites W2165495028 @default.
W4372313980 cites W2285593825 @default.
W4372313980 cites W2308071321 @default.
W4372313980 cites W2324025795 @default.
W4372313980 cites W2332486929 @default.
W4372313980 cites W2503197153 @default.
W4372313980 cites W2520564289 @default.
W4372313980 cites W2529163677 @default.
W4372313980 cites W2552032802 @default.
W4372313980 cites W2576924220 @default.
W4372313980 cites W2768240489 @default.
W4372313980 cites W2793231345 @default.
W4372313980 cites W2883877975 @default.
W4372313980 cites W2886384811 @default.
W4372313980 cites W2908158267 @default.
W4372313980 cites W2910017900 @default.
W4372313980 cites W2929644329 @default.
W4372313980 cites W2937740122 @default.
W4372313980 cites W2944707498 @default.
W4372313980 cites W2945331068 @default.
W4372313980 cites W2949781873 @default.
W4372313980 cites W2950894779 @default.