姓 名
李秋
性 别
男
民 族
汉
出生年月
1975年1月

职 称
研究员
职 务

联系电话
**

单位名称
硅酸盐建筑材料国家重点实验室
Email
Qiu-Li@whut.edu.cn

实验室网址
http://esm-group.cn/

研究方向
可陶瓷化水泥基材料：可陶瓷化水泥基材料纳微结构与宏观性能及陶瓷化原理本质研究。
核废料固化：中低放核废料水泥固化配方研究，核废料安全处置过程中核素迁移、固化过程机理研究，核废料固化体长期耐久性研究；
自愈合水泥基材料：基于生物骨仿生的水泥基材料自愈合过程设计、微观结构、性能、耐久性研究。

教育背景
2004.09–2009.01，英国利兹大学，材料学，博士，导师：Ian G. Richardson
2002.09–2004.07，哈尔滨工业大学，复合材料，硕士，导师：张幸红
1994.09–1998.07，哈尔滨理工大学，热加工工艺及设备，学士

工作经历
2020.10-至今，武汉理工大学，研究员
2015.06-2020.09，武汉理工大学，副研究员
2013.04-2015.05，武汉理工大学，助理研究员
2011.02-2012.12，英国利兹大学土木工程学院，Research Fellow
2009.12-2011.01，英国格林威治大学科学学院，Research Fellow
2008.09-2009.11，英国利兹大学土木工程学院，助理研究员


项目情况
1. 国家自然科学基金面上项目，基于无机超分子插层组装的高包容率水泥固化体设计原理与技术，70.8万元，项目负责人
2. 国防科技计划项目，XXXX材料设计与制备，200万元，项目负责人
3. 中国工程物理研究院科研项目，碱激发水泥生产和性能分析，35万元，项目负责人
4. 湖北省青年科技晨光计划，胶凝材料设计、表征分析及耐久性方面的研究，项目负责人
5. 国家自然科学基金国际合作与交流项目，水泥基材料耐久性的微观机制与调控，项目负责人

代表性学术
成果
[1]. X. Liu, Q. Li, B. Li, W. Chen*, A high-efficiency self-healing cementitious material based on supramolecular hydrogels impregnated with phosphate and ammonium, Cement and Concrete Research, 144 (2021) 106427.
[2]. Q. Li, H. Ma, Y. Tang, W. Chen*, Combined effect of NaAlO2 and NaOH on the early age hydration of Portland cement with a high concentration of borate solution, Cement and Concrete Research, 144 (2021) 106430.
[3]. 陈伟, 刘翔, 李秋*, 基于外部供应修复剂系统的自修复水泥基材料研究, 硅酸盐通报, 39 (2020) 1057-1063.
[4]. Q. Li, Z. Liu, W. Chen, B. Yuan, X. Liu, W. Chen, A novel bio-inspired bone-mimic self-healing cement paste based on hydroxyapatite formation, Cement and Concrete Composites, (2019) 103357.
[5]. Q. Li, A.P. Hurt, N.J. Coleman, The Application of 29Si NMR Spectroscopy to the Analysis of Calcium Silicate-Based Cement using Biodentine? as an Example, Journal of Functional Biomaterials, 10 (2019) 25.
[6]. B. Li, S. Zhang, Q. Li*, N. Li, B. Yuan, W. Chen, H.J.H. Brouwers, Q. Yu, Uptake of heavy metal ions in layered double hydroxides and applications in cementitious materials: Experimental evidence and first-principle study, Construction and Building Materials, 222 (2019) 96-107.
[7]. B. Li, X. Ling, X. Liu, Q. Li, W. Chen, Hydration of Portland cements in solutions containing high concentration of borate ions: Effects of LiOH, Cement & Concrete Composites, 102 (2019) 94-104.
[8]. W. Chen, X. Ling, Q. Li*, B. Yuan, B. Li, H. Ma, Experimental evidence on formation of ulexite in sulfoaluminate cement paste mixed with high concentration borate solution and its retarding effects, Construction and Building Materials, 215 (2019) 777-785.
[9]. J. Tang, H. Cheng, Q. Zhang, W. Chen, Q. Li*, Development of properties and microstructure of concrete with coral reef sand under sulphate attack and drying-wetting cycles, Construction and Building Materials, 165 (2018) 647-654.
[10]. W. Chen, B. Li, Q. Li*, J. Tian, Effect of polyaluminum chloride on the properties and hydration of slag-cement paste, Construction and Building Materials, 124 (2016) 1019-1027.


Prof. Qiu Li
Address: State Key Laboratory of Silicate Materials for Architectures, Wuhan University of Technology, Wuhan, 430070, China
Email：Qiu-Li@whut.edu.cn Tel: +86 185 0715 0106






EDUCATION
2004.09
2009.01
University of Leeds, UK, PhD

2002.09
2004.07
Harbin Institute of Technology, China, MSc

1994.09
1998.07
Harbin University of Science and Technology, BSc

WORK EXPERIENCE
2020.10

Wuhan University of Technology, Professor

2015.06
2020.09
Wuhan University of Technology, Associate Professor

2013.04
2015.05
Wuhan University of Technology, Assistant Professor

2011.02
2012.12
University of Leeds, UK, Research Fellow

2009.12
2011.01
University of Greenwich, UK, Research Fellow

2008.09
2009.11
University of Leeds, UK, Research Associate

RESEARCH PROJECT
NSFC
Design theory and techniques of high inclusion rate cement waste form based on inorganic super-molecule intercalation assemblage

NSFC
Mechanisms and modification of durability of cementitious materials

Industrial Sponsored
Design of alkali-activated cementitious material for ILW and LLW waste form

SELECTED PUBLICATION
[1]. X. Liu, Q. Li, B. Li, W. Chen*, A high-efficiency self-healing cementitious material based on supramolecular hydrogels impregnated with phosphate and ammonium, Cement and Concrete Research, 144 (2021) 106427.
[2]. Q. Li, H. Ma, Y. Tang, W. Chen*, Combined effect of NaAlO2 and NaOH on the early age hydration of Portland cement with a high concentration of borate solution, Cement and Concrete Research, 144 (2021) 106430.
[3]. 陈伟, 刘翔, 李秋*, 基于外部供应修复剂系统的自修复水泥基材料研究, 硅酸盐通报, 39 (2020) 1057-1063.
[4]. Q. Li, Z. Liu, W. Chen, B. Yuan, X. Liu, W. Chen, A novel bio-inspired bone-mimic self-healing cement paste based on hydroxyapatite formation, Cement and Concrete Composites, (2019) 103357.
[5]. Q. Li, A.P. Hurt, N.J. Coleman, The Application of 29Si NMR Spectroscopy to the Analysis of Calcium Silicate-Based Cement using Biodentine? as an Example, Journal of Functional Biomaterials, 10 (2019) 25.
[6]. B. Li, S. Zhang, Q. Li*, N. Li, B. Yuan, W. Chen, H.J.H. Brouwers, Q. Yu, Uptake of heavy metal ions in layered double hydroxides and applications in cementitious materials: Experimental evidence and first-principle study, Construction and Building Materials, 222 (2019) 96-107.
[7]. B. Li, X. Ling, X. Liu, Q. Li, W. Chen, Hydration of Portland cements in solutions containing high concentration of borate ions: Effects of LiOH, Cement & Concrete Composites, 102 (2019) 94-104.
[8]. W. Chen, X. Ling, Q. Li*, B. Yuan, B. Li, H. Ma, Experimental evidence on formation of ulexite in sulfoaluminate cement paste mixed with high concentration borate solution and its retarding effects, Construction and Building Materials, 215 (2019) 777-785.
[9]. J. Tang, H. Cheng, Q. Zhang, W. Chen, Q. Li*, Development of properties and microstructure of concrete with coral reef sand under sulphate attack and drying-wetting cycles, Construction and Building Materials, 165 (2018) 647-654.
[10]. W. Chen, B. Li, Q. Li*, J. Tian, Effect of polyaluminum chloride on the properties and hydration of slag-cement paste, Construction and Building Materials, 124 (2016) 1019-1027.
PATENT
(1) High-temperature-resistant ceramizable cement-based material and preparation method thereof, Innovation Patent, , Australian.
(2) Cement-based waste form material for high-concentration borate solution immobilization and preparation method thereof, Patent of Invention, ZL6.4, China.
INTERNATIONAL CONFERENCE


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