高岭石结构调控及其新材料应用

金属矿山 ›› 2026, Vol. 55 ›› Issue (5): 303-320.

• • 上一篇

高岭石结构调控及其新材料应用

李莹莹^1,2　傅梁杰^1,2,3,4　左小超^1,2,4　彭靖湉^1,2,3　唐异立¹　杨华明^1,2,3,4

1. 中国地质大学(武汉)纳米矿物材料及应用教育部工程研究中心,湖北武汉 430074;2. 中国地质大学(武汉)
材料与化学学院,湖北武汉 430074;3. 中国地质大学(武汉)内蒙古研究院,内蒙古鄂尔多斯 017010;
4. 中国非金属矿行业矿物功能材料重点实验室,湖北武汉 430074

出版日期:2026-05-15 发布日期:2026-06-04
通讯作者: 左小超(1989—),男,助理研究员,博士,硕士研究生导师。
作者简介:李莹莹(2002—),女,硕士研究生。
基金资助:
“十四五”国家重点研发计划项目(编号:2022YFC2904082,2023YFE0100300);国家自然科学基金重点项目(编号:52434008)。

Structural Regulation of Kaolinite and Its Application in New Materials

LI Yingying^1,2　FU Liangjie^1,2,3,4　ZUO Xiaochao^1,2,4　PENG Jingtian^1,2,3　TANG Yili¹　YANG Huaming^1,2,3,4

1. Engineering Research Center of Nano-Geomaterials of Ministry of Education / China University of Geosciences,Wuhan 430074,China;
2. Faculty of Materials Science and Chemistry,China University of Geosciences,Wuhan 430074,China;
3. Inner Mongolia Institute of Technology,China University of Geosciences,Ordos 017010,China;4. Key Laboratory of
Functional Geomaterials in China Nonmetallic Minerals Industry,China University of Geosciences,Wuhan 430074,China

Online:2026-05-15 Published:2026-06-04

摘要/Abstract

摘要： 高岭石作为高岭土的主要矿物成分,凭借其独特的理化性质与结构特征,广泛应用于生物、化工、环境
等行业。但在实际应用中,天然高岭石存在层间作用力强、活性位点不足等缺陷,难以直接投入使用;同时,学界对高
岭石结构调控的相关研究并不充分,具体机制及影响规律尚未明确,严重制约其加工工艺升级与高值化应用。针对
以上问题,本文系统梳理煅烧法、插层剥离法、机械化学活化法、酸浸法及碱浸法五种高岭石结构调控技术,深入阐述
各方法的作用机理、影响因素及优缺点。其次,结合高岭石在生物医药、储能、吸附、聚合物材料等领域的应用进展,论
述通过合理应用结构调控技术,可实现高岭石从基础矿物原料向高性能功能材料的转型升级。最后,剖析当前研究
在高岭石晶体化学、低品质矿利用、绿色工艺开发等方面的局限性,展望未来精准调控、低品质矿高值利用、绿色协同
改性的发展方向。本文旨在通过深入分析高岭石结构调控的技术原理与应用场景,为高岭土资源的高值化、深层次
开发利用提供理论支撑与技术参考,推动我国高岭土产业的高质量可持续发展。

关键词: 高岭石　, 结构调控　, 矿物功能材料　, 高值化应用

Abstract: Kaolinite,as the primary mineral component of kaolin,is widely applied in industries such as biotechnology,
chemical engineering,and environmental sectors,owing to its unique physicochemical properties and structural characteristics .
However,in practical applications,natural kaolinite exhibits inherent limitations,including strong interlayer forces and insufficient
active sites,which hinder its direct use. Furthermore,research on the structural regulation of kaolinite is still insufficient,
and the specific mechanisms and influencing factors remain unclear,which severely restricts the upgrading of its processing
technology and its high-value applications. To address these challenges,this study systematically reviews five major kaolinite
structural modification techniques:calcination,intercalation-exfoliation,mechanochemical activation,acid leaching,and alkali
leaching. The paper provides a comprehensive analysis of the mechanisms of action,influencing factors,and the strengths and
weaknesses of each method. Furthermore,by examining the application advancements of kaolinite in fields such as biomedical,
energy storage,adsorption,and polymer materials,the paper demonstrates that structural modification technologies can facilitate
the transformation of kaolinite from a basic mineral resource into a high-performance functional material. Finally,the study critically
examines the limitations of current research,particularly in the areas of kaolinite crystallography and structural regulation
mechanisms,the utilization of low-quality ores,and the development of green processing technologies. The paper also outlines
prospective directions for research,including precise structure-activity relationship regulation,the high-value utilization of lowgrade
ores,and green synergistic modification. This research aims to provide theoretical support and technical references for the high-value and deep utilization of kaolin resources,contributing to the high-quality and sustainable development of the kaolin
industry in China.

Key words: kaolinite,structural regulation,mineral-based functional materials,high-value applications

中图分类号:

TD985
TB332

李莹莹, 傅梁杰, 左小超, 彭靖湉, 唐异立, 杨华明. 高岭石结构调控及其新材料应用[J]. 金属矿山, 2026, 55(5): 303-320.

LI Yingying, FU Liangjie, ZUO Xiaochao, PENG Jingtian, TANG Yili, YANG Huaming. Structural Regulation of Kaolinite and Its Application in New Materials[J]. Metal Mine, 2026, 55(5): 303-320.

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高岭石结构调控及其新材料应用

Structural Regulation of Kaolinite and Its Application in New Materials

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