个人简介
方毅,男,1992年生,博士,青年副教授/硕士生导师。主要从事低碳混凝土及工业固废资源化利用研究,入选2023年度国家级博士后海外引才专项计划。主持国家自然科学基金青年项目、江苏省自然科学基金青年项目等科研课题6项,参与国家自然科学基金面上项目、中国长江三峡集团重大横向项目等项目6项。累计发表SCI论文50余篇,其中以第一/通讯作者发表论文23篇。获第十四届江苏省高校土木工程专业/智能建造专业青年教师讲课竞赛二等奖、阿拉巴马大学优秀博士论文奖及博士生卓越研究奖。担任SAMPE中国大陆总会土木工程纤维复合材料专业委员会委员。
教育背景
2017.01-2021.05美国阿拉巴马大学,土木与环境工程学院,土木工程,博士,导师:王家来 教授
2014.09-2016.12哈尔滨工业大学,土木工程学院,土木工程,硕士,导师:咸贵军 教授
2010.09-2014.06哈尔滨工业大学,英才学院英才班,土木工程,学士(本硕博连读制)
工作经历
2024.02-至今伟德国际victor1946,伟德国际1946,工程材料研究所,讲师(青年副教授)
2023.02-至今伟德国际victor1946/江苏省建筑科学研究院,博士后(合作导师:洪锦祥 研高、储洪强 教授)
2022.10-2024.02伟德国际victor1946,力学与材料学院,工程材料研究所,讲师
2021.08-2022.10香港理工大学,土木与环境工程学系,博士后(合作导师:戴建国 教授)
2020.09-2021.01上海交通大学,船舶海洋与建筑工程学院,访问研究助理(合作导师:乔丕忠 教授)
研究领域
低碳水泥基材料、固碳混凝土、工业固废资源化利用
科研基金项目
(1)国家自然科学基金青年项目,52508263,单宁酸对混凝土固碳与力学性能的协同提升机制研究,2026.01.01 – 2028.12.31,30万,主持
(2)江苏省自然科学基金青年项目,BK20241525,植物多酚作用下混凝土固碳机制及性能提升机理研究,2024.07.01 – 2027.06.30,20万,主持
(3)中央高校基本科研业务费项目,B250201021,单宁酸调控水泥基材料水化行为与微结构形成的作用机制研究,2025.01 - 2026.12,15万,主持
(4)矿山建设工程安徽省高校重点实验室开放基金,GXZDSYS2023101,生物改性纳米SiO2对深部工程混凝土性能提升机理研究,2025.01 - 2026.12,5万,主持
(5)南京市博士后科研资助,单宁酸作用下混凝土水化调控及性能提升机理研究,2024.01 - 2026.01,5万,主持
(6)同济大学民航重点实验室开放基金面上项目,MK202301,基于生物改性纳米SiO2的机场水泥混凝土道面表层性能提升技术,2023.11 - 2025.10,3万,主持
(7)三峡金沙江川云水电开发有限公司,重大横向项目,水电站高边坡生态修复技术研究与示范应用,2023.12 - 2026.02,419万元,主研
(8)中国长江电力股份有限公司,重大横向项目,多功能生态混凝土新材料研发,2023.06 - 2025.12,793万元,主研
获奖情况
(1)博士后海外引才专项计划,2023,教育部
(2)2023-2025年聘期考核优秀、年度教职工考核优秀(2024、2025),伟德国际victor1946
(3)江苏省高校土木工程专业/智能建造专业青年教师讲课竞赛二等奖,2025,江苏省土木建筑学会
(4)The 2021 Outstanding Dissertation Award,阿拉巴马大学
(5)CCEE Department Outstanding Research by a PhD Student Award (2020),阿拉巴马大学
教学课程
(1)本科生课程:《工程材料》、《工程材料(混合)》、《水利土木工程概论》、《工程材料实验》、《生产实习》
(2)研究生课程:《工程材料实务》、《材料结构与性能》、《材料腐蚀与防护》、《土木工程材料前沿专题》(留学生)、《现代混凝土技术》(留学生)
发表论文(第一/通讯作者)
[1] Fang Yi*, Yang Cheng, Zeng Hui, Yang Jin, Zhang Hailong, Gu Yue, Chu Hongqiang*, Jiang Linhua. Synergistic effects of limestone calcined clay cement on alkalinity, mechanical performance, and vegetative compatibility of ecological concrete[J]. Scientific Reports, 2026;16(1):6914. (SCI; IF: 3.9; B类期刊)
[2] Fang Yi, Wang Jialai, Chen Peiyuan, Chen zhiang, Wang Liang, Qian Xin, Liu Shifu*, Hong Jinxiang. Enhancing the hydration and micromechanical properties of C3A-gypsum systems with a plant-derived biomolecule. Journal of Building Engineering, 2024: 110290. (SCI; IF: 7.4; B类期刊)
[3] Fang Yi, Wang Jialai*, Wang Liang, Qian Xin*, Wang Xiaodong, Liao Wenyu, Chen Peiyuan, Ma Hongyan. Densifying hydration products of alite by a bio-inspired admixture [J]. Materials & Design, 2023, 225: 111490. (SCI; IF: 7.9; B类期刊)
[4] Fang Yi, Ahmad Muhammad Riaz, Lao Jian-Cong, Qian Lan-Ping, Dai Jian-Guo*. Development of artificial geopolymer aggregates with thermal energy storage capacity [J]. Cement and Concrete Composites, 2023, 135: 104834. (SCI; IF: 13.1; A类期刊)
[5] Fang Yi, Wang Jialai*, Wang Xiaodong, Amaral Monica Lages Do, Kniffin Hannah, Reed Miranda, Wang Liang, Qian Xin*. Bio-Based Admixture (Black Tea Extraction) for Better Performance of Metakaolin Blended Cement Mortars [J]. Materials, 2022, 15(11): 3994. (SCI; IF: 3.2; C类期刊)
[6] Fang Yi, Wang Jialai*, Qian Xin*, Wang Liang, Chen Peiyuan, Qiao Pizhong. A renewable admixture to enhance the performance of cement mortars through a pre-hydration method [J]. Journal of Cleaner Production, 2022, 332: 130095. (SCI; IF: 10.0; A类期刊)
[7] Fang Yi, Wang Jialai*, Qian Xin, Wang Liang, Dong Yijia, Qiao Pizhong. Low-cost, ubiquitous biomolecule as a strength enhancer for cement mortars [J]. Construction and Building Materials, 2021, 311: 125305. (SCI; IF: 8.0; A类期刊)
[8] Fang Yi, Wang Jialai*, Ma Haibin, Wang Liang, Qian Xin, Qiao Pizhong. Performance enhancement of silica fume blended mortars using bio-functionalized nano-silica [J]. Construction and Building Materials, 2021, 312: 125467. (SCI; IF: 8.0; A类期刊)
[9] Fang Yi, Wang Jialai*, Qian Xin, Wang Liang, Lin Guangping, Liu Zhongqi. Bio-inspired functionalization of very fine aggregates for better performance of cementitious materials [J]. Construction and Building Materials, 2020, 241: 118104. (SCI; IF: 8.0; A类期刊)
[10] Pan Yunfeng, Zhong Shengyu, Shen Liang, Liang Mengmeng, Xu Wanlan, Hao Xinkai, Fang Yi*. Feasibility of sewage sludge ash as a high-volume supplementary cementitious material: Comparative analysis with fly ash in concrete applications[J]. Journal of Building Engineering, 2025: 114738. (SCI; IF: 7.4; B类期刊; 独立通讯)
[11] Qian Xin, Chen Jiong, Jia Chenguang, Fang Yi*, Li Mengxiao, Yang Heng, Huang Ting, Lei Haoqian, Zhao Hongduo*. Improving the rheological performance of cement-based materials via pre-carbonated cement slurry[J]. Construction and Building Materials, 2025, 490: 142507. (SCI; IF: 8.0; A类期刊; 共同通讯)
[12] Gu Yue*, Tian Ankang, Fang Yi*, Yuan Xuelian, Fan Ruyan, Chu Hongqiang. Assessing the rheological properties of nano-modified coral-based cementitious materials by experimental study and machine learning modeling[J]. Powder Technology, 2025: 121413. (SCI; IF: 4.6; B类期刊; 共同通讯)
[13] Yang Cheng, Fang Yi*, Wei Pengcheng, Zeng Hui, Shen Chen, Yang Jin, Zhang Hailong, Chu Hongqiang*. Optimization study on alkali-reduction techniques and vegetation performance of planting concrete incorporating phosphogypsum[J]. Construction and Building Materials, 2025, 482: 141663. (SCI; IF: 8.0; A类期刊; 共同通讯)
[14] Shi Mingding, Fang Yi*, Zhang Fengchen, Chu Hongqiang*, Jin Weizhun, Li Wenwei, Qi Zefeng, Jiang Linhua. A bionic mineral precipitation method to improve the mechanical and vegetative properties of ecological concrete[J]. Construction and Building Materials, 2025, 476: 141294. (SCI; IF: 8.0; A类期刊; 共同通讯)
[15] Chu Hongqiang, Chen Weiling, Fang Yi*, Liang Yunchao, Long Baolin, Zhang Fengchen, Li Wenwei*, Jiang Linhua. Effect of CuSO4 content and pH on the mechanical properties and antibacterial ability of copper-plated cement-based material[J]. Cement and Concrete Composites, 2025, 155: 105848. (SCI; IF: 13.1; A类期刊; 共同通讯)
[16] Wang Chao, Xie Guoshuai*, Cao Yuanzhang, Liu Jianping, Huang Yakang, Ning Quanji, Fang Yi*. Effect of tuff powder on the performance of low heat Portland cement-based materials[J]. Construction and Building Materials, 2023, 409: 134055. (SCI; IF: 8.0; A类期刊; 共同通讯)
[17] Qian Xin, Yang Heng, Wang Jialai, Fang Yi*, Li Mengxiao. Eco-friendly treatment of carbon nanofibers in cementitious materials for better performance[J]. Case Studies in Construction Materials, 2022, 16: e01126. (SCI; IF: 6.6; B类期刊; 独立通讯)
[18] Qian Xin, Wang Jialai*, Wang Liang, Fang Yi*, Chen Peiyuan, Li Mengxiao. A clean dispersant for nano-silica to enhance the performance of cement mortars[J]. Journal of Cleaner Production, 2022, 371: 133647. (SCI; IF: 10.0; A类期刊; 共同通讯)
[19] Qian Xin, Li Mengxiao, Wang Jialai*, Wang Liang, Chen Peiyuan, Fang Yi*, Wang Xiaodong, Yang Fan. A bio-inspired, plant-derived admixture for metakaolin blended cement mortars[J]. Construction and Building Materials, 2022, 354: 129185. (SCI; IF: 8.0; A类期刊; 共同通讯)
[20] Chen Peiyuan, Zhang Liheng, Wang Yonghui, Fang Yi*, Zhang Feng, Xu Ying. Environmentally friendly utilization of coal gangue as aggregates for shotcrete used in the construction of coal mine tunnel[J]. Case Studies in Construction Materials, 2021, 15: e00751. (SCI; IF: 6.6; B类期刊; 独立通讯)
学术会议
[1]方毅. “Enhancing the CO2 Capture and Mechanical Performance of Concrete via Bio-Regulated Carbonation”, 2025年水泥混凝土技术国际会议(ICCCT 2025), 中国青岛, 2025-11-08至2025-11-09 (会议报告)
[2]方毅, 王家来. “基于天然产物单宁酸的水泥基材料性能增强及机理研究”, 第五届全国固废处理与生态材料学术与技术交流会, 中国南京, 2023-10-20至2023-10-22 (会议报告)
学术服务
期刊审稿人
• Cement and Concrete Research
• Construction and Building Material
• Journal of Building Engineering
• npj Materials Sustainability
• Journal of Building Engineering
热诚欢迎有志青年加入研究团队!
联系方式:
Email: yifang@hhu.edu.cn
通讯地址:江苏省南京市江宁区佛城西路8号乐学楼805