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Graphene Quantum Dots as Nanoadditives in Cement Hydration: Mechanistic Insights into Pore Structure Refinement and Durability Enhancement

IMPACT SIGNAL80/100
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Information from the abstract

High Resolution Image Download MS PowerPoint Slide Graphene quantum dots (GQDs) have emerged as promising nanoscale modifiers for tailoring interfacial processes in cementitious systems; however, their mechanistic role in hydration and pore structure evolution remains insufficiently understood. The effects of dual-form GQDs (liquid and solid) on the structure–property relationships of concrete across multiple strength classes (24–42 MPa) were investigated. The results demonstrated that the incorporation of 0.1% liquid-form GQDs produced the most significant enhancement in concrete performance, achieving up to 32% improvement in 28-day compressive strength, 36% increase in splitting tensile strength, and approximately 18% increase in flexural strength compared with the control mixture. In addition, water absorption and porosity were reduced by approximately 25% and 32%, respectively, while acid resistance was significantly improved under aggressive exposure conditions. BET analysis further shows a substantial reduction (∼43%) in mesopore volume, confirming that GQDs govern pore structure evolution rather than acting solely as fillers. Notably, the dispersion state of GQDs critically influences performance, with liquid-phase GQDs exhibiting superior efficiency compared to their powdered counterparts due to improved interfacial distribution and reduced agglomeration. This study establishes a direct link between GQD-mediated cement chemistry, microstructural densification, and durability performance, providing a mechanistic framework for the design of next-generation nanoengineered cementitious materials for harsh service environments.

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Why this record is monitored

This record has an Impact Signal of 80/100 based on recency, source, collaboration, and bibliographic signals. It prioritizes monitoring and is not a judgment of research quality.

Related topics: Carbon and Quantum Dots Applications · Concrete and Cement Materials Research · Graphene research and applications

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Thai researcher and institutional participation

Thwe Thwe Win · Peem Nuaklong · Jintara Lawongkerd · Lapyote Prasittisopin · Chulalongkorn University · Thammasat University

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Data limitations

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