雷蕾，教授、博导

研究方向：地外智能基建（原位增材制造，地外环境适应型材料）；水泥与混凝土材料设计；低碳胶凝材料（烧粘土，碱激发矿渣）；功能建筑高分子材料，混凝土外加剂（聚羧酸减水剂，消泡剂，早强剂，缓凝剂等)；电化学冶金。

地址:湖南大学土木工程学院410082，长沙，湖南，中国

联系方式：lei.lei@hnu.edu.cn; lei.lei@tum.de

2023.07-至今，湖南大学，土木工程学院，教授

2018.02-2023.06，德国慕尼黑工业大学，自然科学学院，讲师

2016.05-2018.01，德国慕尼黑工业大学，自然科学学院，博士后2012.09-2016.04，德国慕尼黑工业大学，化学系，博士

[1]国家高层次人才计划青年项目，2023-至今，在研。

[2]国家级重点项目，2024-至今，在研。

[3]Part of the EU framework program Horizon 2020, Research and Innovation Program (Grant Agreement No. 641202):"Fast track innovative drilling system for deep geothermal challenges in Europe", 2015 - 2019. Completed.

[4]DLR (German Aerospace Center),德国宇航局项目，2014 - 2016. Completed.

[1]Interaction Between Polycarboxylate Superplasticizers and Non-calcined Clays and Calcined Clays”13th International Conference on Superplasticizers and Other Chemical Admixtures in Concrete(SOCAC),July 10–13,2022,Milan,Italy.

[2]“40 Years of PCE Superplasticizers-History,Current State-of-the-Art and an Outlook”13th International Conference on Superplasticizers and Other Chemical Admixtures in Concrete(SOCAC),July 10–13,2022,Milan,Italy.

[3]“Effect of Different Superplasticizers on The Rheological Properties of Alkali-Activated Slag Systems”2nd“Science Bridge”International Workshop on High-performance Green Construction Materials and Technology,August 5–8,2022,Kunming,China.

[4]“State of the Art of Chemical Admixtures for“Greener”Concrete”XXIII International Construction Forum“Cement.Concrete.Dry Mixtures”,December 01–03,2021,Moscow,Russia.

[5]“The Current State and Prospects of Development in The Field of Hyper-and Superplasticizers for Concrete”XXI International Construction Forum“Cement.Concrete.Dry Mixtures”,December 27–29,2019,Moscow,Russia.

[6]L.Lei*,T.Hirata,J.Plank

“40 Years of PCE superplasticizers–History,Current State-of-the-Art and an Outlook”,Cement and Concrete Research,157(2022)106826.

[7]L.Lei*,M.Palacios,J.Plank,A.A.Jeknavorian

"Interaction Between Polycarboxylate Superplasticizers and Non-calcined Clays and Calcined Clays",

Cement and Concrete Research,154(2022)106717

[8]L.Lei*,Y.Zhang,R.Li

“Specific Molecular Design of Polycarboxylate Polymers Exhibiting Optimal Compatibility with Clay Contaminants in Concrete”,

Cement and Concrete Research,147(2021)106504.

[9]M.Werani,L.Lei*

“Influence of side chain length of MPEG–based polycarboxylate superplasticizers on their resistance towards intercalation into clay structures”,

Construction and Building Materials,281(2021)122621.

[10]R.Li,L.Lei,T.Sui,J.Plank

"Effectiveness of PCE Superplasticizers in Calcined Clay Blended Cements",

Cement and Concrete Research,141(2021)106334.

[11]R.Li,L.Lei,T.Sui,J.Plank

“Approaches to Achieve Fluidity Retention in Low-Carbon Calcined Clay Blended Cements”,

Journal of Cleaner Production,311(2021)127770.

[12]R.Li,L.Lei*,J.Plank**

“Influence of PCE superplasticizers on the fresh properties of low carbon cements containing calcined clays:A comparative study of calcined clays from three different sources”,

Cement and Concrete Composites,139(2023)105072.

[13]R.Li,L.Lei*,J.Plank**

“Impact of metakaolin content and fineness on the behavior of calcined clay blended cements admixed with HPEG PCE superplasticizer”,

Cement and Concrete Composites,133(2022)104654.

[14]L.Lei*,H.Chan

“Investigation into the molecular design and plasticizing effectiveness of HPEG-based polycarboxylate superplasticizers in alkali-activated slag”,

Cement and Concrete Research,136(2020)106150.

[15]L.Lei*,Y.Zhang

“Preparation of Isoprenol Ether-based Polycarboxylate Superplasticizers with Exceptional Dispersing Power in Alkali-Activated Slag:Comparison with ordinary Portland cement”,

Composites Part B:Engineering,223(2021)109077.

[16]Y.Zhang,L.Lei*,J.Plank,L.Chen**

“Boosting the performance of low-carbon alkali activated slag with APEG PCEs:a comparison with ordinary Portland cement”,

Journal of Sustainable Cement-Based Materials(2023)

[17]R.Li,W.Chen,L.Lei*,and J.Plank

“Dispersing Efficacy of Tailored IPEG PCEs in AAS Binders:Elucidating the Impact of PCE Molecular Weight”,

Industrial&Engineering Chemistry Research 62(4),(2023)1776-1787.

[18]R.Li,W.Eisenreich,L.Lei*,J.Plank

“Low Carbon Alkali-Activated Slag Binder and Its Interaction with Polycarboxylate Superplasticizer:Importance of Microstructural Design of the PCEs”,

ACS Sustainable Chemistry&Engineering 10(51),(2022)17241-17251.

[19]Y.Wang,L.Lei*,J.Liu,Y.Ma,Y.Liu,Z.Xiao,C.Shi**

“Accelerators for normal concrete:A critical review on hydration,microstructure and properties of cement-based materials”

Cement and Concrete Composites,134(2022)104762.

[20]Y.Wang,L.Lei*,X.Hu,Y.Liu,C.Shi**

“Effect of diethanolisopropanolamine and ethyldiisopropylamine on hydration and strength development of Portland cement”

Cement and Concrete Research,162(2022)106999.

[21]Y.Wang,C.Shi*,L.Lei**,Y.Ma,J.Liu,X.Hu

“Formulation of an alkali-free accelerator and its effects on hydration and mechanical properties of Portland cement”

Cement and Concrete Composites,129(2022)104485.

[22]L.Lei*,R.Li,A.Fuddin

“Influence of maltodextrin retarder on the hydration kinetics and mechanical properties of Portland cement”,

Cement and Concrete Composites,114(2020)103774.

[23]L.Lei*,L.Zhang

“Synthesis and performance of a non-air entraining polycarboxylate superplasticizer”

Cement and Concrete Research,159(2022)106853.

[1]2024，湖南大学“青矩学者”

[2]2024，湖南大学“岳麓学者”

[3]2022,国家级青年人才项目入选者

[4]2021,克劳斯∙戴克霍夫青年科学家”奖

[5]2013-2016,Jürgen Manchot全额奖学金