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Patoary, Naim H.; Rai, Amit; Patel, Kush P.; Rebecca, Anne; Zhang, Wenli; Ulrich, Alexander J.; Galib, Mir; Desai, Tithi; Zivanovic, Sandra; Yousufuddin, Muhammed; et al (, Diamond and Related Materials)
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Pei, Yixian; Chang, An‐Yi; Liu, Xuan; Wang, Hua; Zhang, Hongbo; Radadia, Adarsh; Wang, Yuxin; Yu, William_W; Wang, Shengnian (, AIChE Journal)Abstract Carbon quantum dots (C‐QDs) show potential to replace traditional semiconductive quantum dots as the next generation of fluorescent probes. We demonstrate here a new C‐QD production process using lignin, a high‐volume but low market‐value industrial waste and/or environmental hazards, as the starting carbon source. By adding a small amount of inorganic acid, the rich phenolic components in lignin were successfully converted to C‐QDs through a coking formation mechanism similar to what happens on solid acid catalysts in traditional fossil fuel cracking process. Their aqueous solution presence of the received lignin C‐QDs is beneficial for brain cell imaging applications, attributing to their fast internalization, low toxicity, tunable photoluminescence by appropriate acidity and reaction temperature during hydrothermal synthesis. This method not only provides a low‐cost C‐QDs production route, but also helps gain extra profit and/or improve environment for many small agricultural business and paper and pulp industry located in rural area.more » « less
