Department of Physics, Graduate School of Sciences, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku, Tokyo 1628601, Japan.
Department of Physics, Graduate School of Sciences, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku, Tokyo 1628601, Japan.
Colloids Surf B Biointerfaces. 2018 Jan 1;161:139-146. doi: 10.1016/j.colsurfb.2017.10.055. Epub 2017 Oct 18.
We measured the optical responses of single-walled carbon nanotubes (SWNTs) after adding Japanese green tea or catechin. SWNTs were covered with DNA in aqueous solution, and tea or catechin solution was added to the DNA-SWNT suspension. The antioxidant effects of tea and catechin were detected as changes in the near-infrared (NIR) absorption (ABS) and NIR-photoluminescence (PL) spectra of the SWNTs. Commercial Japanese tea, diluted 100 times and containing 15μg/mL catechin, was sufficient for recovering NIR-ABS and NIR-PL spectra when the DNA-SWNT suspension was pre-treated with 0.03% hydrogen peroxide(HO). Similar results were obtained with 15μg/mL of pure catechin solution. SWNTs with specific chirality were sensitive to the NIR-ABS and NIR-PL changes. The (10, 5)/(8, 7) and (9, 4) SWNTs showed the highest recovery in NIR-ABS and NIR-PL, respectively. NIR-PL recovery was higher than that of NIR-ABS for (10, 5)/(8, 7) and (9, 4). Spectral changes could be monitored thoroughly at pH 8.0, contrary to pH 6.0 and 7.3. However, the most dynamic recovery of NIR-ABS and NIR-PL was observed at pH 6.0. Furthermore, time-lapse measurements revealed that recovery was faster with tea or catechin addition than HO-induced oxidation.
我们测量了添加日本绿茶或儿茶素后单壁碳纳米管 (SWNTs) 的光学响应。SWNTs 在水溶液中被 DNA 覆盖,然后将茶或儿茶素溶液添加到 DNA-SWNT 悬浮液中。通过 SWNTs 的近红外 (NIR) 吸收 (ABS) 和近红外光致发光 (PL) 光谱的变化来检测茶和儿茶素的抗氧化作用。当 DNA-SWNT 悬浮液用 0.03%过氧化氢 (HO) 预处理时,商业日本茶(稀释 100 倍且含有 15μg/mL 儿茶素)足以恢复 NIR-ABS 和 NIR-PL 光谱。含有 15μg/mL 儿茶素溶液的结果相似。具有特定手性的 SWNTs 对 NIR-ABS 和 NIR-PL 的变化敏感。(10,5)/(8,7)和(9,4)SWNTs 在 NIR-ABS 和 NIR-PL 中分别表现出最高的恢复。对于 (10,5)/(8,7)和 (9,4),NIR-PL 的恢复高于 NIR-ABS。与 pH 6.0 和 7.3 相比,在 pH 8.0 下可以彻底监测光谱变化。然而,在 pH 6.0 下观察到 NIR-ABS 和 NIR-PL 的最快动态恢复。此外,时程测量表明,与 HO 诱导的氧化相比,茶或儿茶素的添加可更快地恢复。
