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

IF 11.4 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Seung Won Kim, Younes Ahmadi, Ki-Hyun Kim, Jechan Lee
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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.
从非生物质废物中提取碳点用于传感应用
随着各行各业传感技术的发展,对传感材料的研究也在不断扩大。从有机废物和生物质中提取的碳点(CDs)以其突出的特性(如光致发光和生物相容性)在传感应用中引起了广泛的兴趣。因此,使用非生物质废弃物(NBW)作为原材料,使其生产过程可持续发展而无需额外处理,从而避免造成环境污染,就变得非常重要。由于有关基于 NBW 的光盘的研究很少,本综述将探讨基于 NBW 的光盘的合成方法、特性和传感应用。对基于 NBW 的 CD 传感器在金属离子(如 Fe3+ 和 Cu2+)和湿度方面的潜力进行了多方面的评估。就 Fe3+ 和 Cu2+ 而言,从废弃医用手套和聚烯烃热解残渣中提取的 CD 在所有平行检测的传感器中表现出最低的检测限值,分别为 0.29 nM 和 6 nM。在湿度方面,石墨基 CD 的性能最佳,响应时间最短为 15 秒。本综述从总体上强调了基于 NBW 的光盘在构建基于性能评估的高效传感系统方面的挑战和机遇。
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来源期刊
CiteScore
27.30
自引率
1.60%
发文量
64
审稿时长
2 months
期刊介绍: Two of the most pressing global challenges of our era involve understanding and addressing the multitude of environmental problems we face. In order to tackle them effectively, it is essential to devise logical strategies and methods for their control. Critical Reviews in Environmental Science and Technology serves as a valuable international platform for the comprehensive assessment of current knowledge across a wide range of environmental science topics. Environmental science is a field that encompasses the intricate and fluid interactions between various scientific disciplines. These include earth and agricultural sciences, chemistry, biology, medicine, and engineering. Furthermore, new disciplines such as environmental toxicology and risk assessment have emerged in response to the increasing complexity of environmental challenges. The purpose of Critical Reviews in Environmental Science and Technology is to provide a space for critical analysis and evaluation of existing knowledge in environmental science. By doing so, it encourages the advancement of our understanding and the development of effective solutions. This journal plays a crucial role in fostering international cooperation and collaboration in addressing the pressing environmental issues of our time.
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