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Carbon dots derived from non-biomass waste for a sensing application

Authors
Kim, Seung WonAhmadi, YounesKim, Ki-HyunLee, Jechan
Issue Date
Apr-2025
Publisher
Taylor & Francis
Keywords
Carbon dots; green chemistry; sensor; sustainable material; waste upcycling
Citation
Critical Reviews in Environmental Science and Technology, v.55, no.8, pp 536 - 552
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
Critical Reviews in Environmental Science and Technology
Volume
55
Number
8
Start Page
536
End Page
552
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212158
DOI
10.1080/10643389.2024.2428014
ISSN
1064-3389
1547-6537
Abstract
Research on sensor materials has expanded with the advancement of sensing technologies across industries. Carbon dots (CDs) derived from organic waste and biomass have attracted widespread interest in sensing applications with their prominent properties (e.g., photoluminescence and biocompatibility). The use of non-biomass waste (NBW) as a raw material thus becomes important to make their production process sustainable without additional treatments to cause environmental pollution. Due to scarcity of research on NBW-based CDs, this review explores the synthesis methods, properties, and sensing applications of NBW-based CDs. The potential of NBW-based CD sensors for metal ions (e.g., Fe3+ and Cu2+) and humidity has been evaluated in various respects. In the case of Fe3+ and Cu2+, CDs derived from waste medical gloves and polyolefin pyrolysis residue exhibit the lowest limit of detection values of 0.29 nM and 6 nM, respectively, among all sensors examined on parallel basis. In the case of humidity, graphite-based CDs exhibit the best performance, with a minimum response time of 15 s. This review overall highlights the challenges and opportunities for the expanded application of NBW-based CDs toward the construction of efficient sensing systems based on performance evaluations.
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