碳量子点（CQDs）在建筑材料中的应用综述与专题分析

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

International Journal of Mechanical and Materials Engineering Pub Date : 2025-04-11 DOI:10.1186/s40712-025-00258-z

Lapyote Prasittisopin, Rungkiat Nganglumpoon, Chanachai Thongchom, Joongjai Panpranot

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引用次数: 0

摘要

碳量子点（CQDs）由于其独特的物理化学性质和广泛的应用而成为一种有前途的有机纳米材料。近年来，人们对探索CQDs在改善建筑和建筑材料（包括水泥、混凝土和沥青）性能方面的作用越来越感兴趣。本文对近年来有关CQDs和石墨烯量子点（GQDs）的合成方法、特性及其对水泥基材料的力学、热学和耐久性的影响进行了综述。展望了该领域在碳捕集、利用与封存（CCUS）方面的潜在挑战和未来的研究方向。分析了这些改进背后的机制，重点是cqd之间的界面键合，水泥水化过程的种子成核以及填充效果。此外，审查处理了与CQD实施相关的挑战，例如成本效益和大规模实施。最后，对建筑材料中应用的CQDs在多个研究方向上的优化提出了建议，为高性能、功能性和可持续的建筑材料智能应用提供了新的途径。图形抽象

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Systematic review and thematic analysis of the utilization of carbon quantum dots (CQDs) in construction materials

Carbon quantum dots (CQDs) have emerged as promising organic nanomaterials due to their unique physicochemical properties and versatile applications. In recent years, there has been a growing interest in exploring the role of CQDs in improving the performance of construction and building materials, including cement, concrete, and asphalt. This paper presents a comprehensive literature review of recent articles focusing on the synthesis methods of CQDs and graphene quantum dots (GQDs), their characteristics, and their effects on the mechanical, thermal, and durability properties of cement-based materials. Furthermore, the potential challenges and future research directions in this field towards carbon capture, utilization, and storage (CCUS) direction are also discussed. The mechanisms behind these improvements are analyzed, focusing on the interfacial bonding between CQDs, seeding nucleation of the cement hydration process, and filling effect. Additionally, the review addresses the challenges associated with CQD implementation, such as cost-effectiveness and large-scale implementation. Finally, a suggested outline for optimizing CQDs used in construction materials in many research directions is discussed, suggesting novel ways for high-performance, functional, and sustainable construction materials for smart applications.