Validation of Spent Coffee Grounds as Precursors for the Development of Sustainable Carbon Dot-Based for Fe3+ Optical Sensing

Chemistry Proceedings Pub Date : 2021-06-30 DOI:10.3390/csac2021-10452

Diana M A Crista, J. C. D. da Silva, Luís Pinto da Silva

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Abstract

Carbon dots (CDs) are fluorescence carbon-based nanomaterials that possess several properties such as photoluminescence, biocompatibility and good water solubility. They can be fabricated from a large variety of precursors; however, most available organic molecules are still expensive and their use or synthesis can lead to significant challenges to the environment and human health. It has become desirable to use biomass waste as alternative precursors in the synthesis of CDs, given that biomass waste material is ubiquitous, nontoxic, cheap and renewable. Spent coffee grounds (SCGs) are the residues of the treatment of coffee powder can be a potential carbon source to a more environmentally sustainable synthesis route. In this work, we fabricated SCG-based CDs via one-pot and solvent-free carbonization at 200 °C of solid samples generating particles with sizes between 2.1 and 3.9 nm. These carbon nanoparticles exhibited blue fluorescence and excitation-dependent emission of carbon dots with moderate quantum yields (2.9–5.8%). The presence of heavy metals in water resources, such as Fe3+, can lead to adverse health effects. SCG-based CDs showed potential for being used as optical Fe3+ optical sensors, with Life Cycle Assessment (LCA) studies validating the SCGs as more sustainable precursors than classical precursors, both considering a weight- or function-based functional unit.

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咖啡渣作为可持续发展的碳点基Fe3+光学传感前驱体的验证

碳点是一种荧光碳基纳米材料，具有光致发光、生物相容性和良好的水溶性等特性。它们可以由各种各样的前体制成;然而，大多数现有的有机分子仍然很昂贵，它们的使用或合成可能对环境和人类健康造成重大挑战。鉴于生物质废物普遍存在、无毒、廉价和可再生，利用生物质废物作为合成CDs的替代前体已成为一种可取的选择。废咖啡渣(SCGs)是咖啡粉处理后的残留物，可以作为一种潜在的碳源，以实现更环保的可持续合成路线。在这项工作中，我们在200°C下通过一锅无溶剂碳化法制备了基于scg的CDs，生成了尺寸在2.1到3.9 nm之间的颗粒。这些碳纳米颗粒表现出蓝色荧光和激发依赖的碳点发射，量子产率适中(2.9-5.8%)。水资源中重金属的存在，如Fe3+，可导致不利的健康影响。基于scg的CDs显示出用作光学Fe3+光学传感器的潜力，生命周期评估(LCA)研究证实，scg是比传统前体更可持续的前体，两者都考虑到基于重量或功能的功能单元。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chemistry Proceedings

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