博士 校聘研究员 硕士研究生导师
单位:成都理工大学材料与化学化工学院
邮箱:gaohuan@cdut.edu.cn
基本情况:
高欢,男,1993年3月生,博士研究生学历。2021年6月毕业于中国地质大学(北京),获工学博士学位。2021年7月加入成都理工大学材料与化学化工学院,从事教学和科研工作。目前主要从事新能源材料、多孔材料及非金属矿物材料等研究工作。主持或参与国家自然科学基金、国家重点研发计划、四川省自然科学基金等项目,入选成都理工大学青年骨干教师计划,担任中国矿物岩石地球化学学会矿物岩石材料专业委员会委员、《矿物岩石》期刊青年编委, Processes期刊特约编辑。担任Composite Part B, Journal of Colloid And Interface Science, Construction and Building Materials, Journal of Building Engineering, Applied Thermal Engineering, Case Study in Construction materials等多个主流期刊审稿人。截至目前发表学术论文30余篇,获国家发明专利授权7项,实现成果转化1项。
欢迎有志于从事新能源材料及无机非金属矿物材料领域的同学加入课题组!
讲授课程:
本科生课程:新能源转换与控制技术、锂资源与锂材料、储能材料与技术,复合材料学等;
研究生课程:矿物材料学,矿物物理化学等。
主要科研项目:
1.成都理工大学,成都理工大学学科交叉项目,2023-01至2027-12,200万元,主研;
2.四川省科技厅,四川省自然科学基金青年基金项目,2023-01至2024-12,10万元,主持;
3.四川省重点实验室开放课题,一般项目,2022-10至2024-10,4万元,主持;
4.成都理工大学,成都理工大学课程教学改革项目,2023-08至2024-08,主持;
5.成都理工大学,成都理工大学青年骨干教师计划,2023-05至2025-04,主持;
6.四川省科技厅,四川省自然科学基金青年基金项目,2023-01至2024-12,10万元,主持;
7.四川省重点实验室开放课题,一般项目,2022-10至2024-10,4万元,主持;
8.成都理工大学,成都理工大学科研启动基金,10912-KYQD2021-08928,2021-07 至 2024-07,30万元,主持;
9.国家自然科学基金委员会,重点项目,41831288,2019-01-01至2023-12-31,297万元,参与;
10.科技部,国家重点研发计划,2017YFB0310702,2017-01 至 2021-06,97万元,参与;
11.教育部,中央高校基本科研优秀导师基金项目,2652019156,2020-01 至 2020-12,5万元,主持;
12.教育部,中央高校基本科研优秀导师基金项目,2652017398,2018-01 至 2018-12,5万元,主持。
主要学生获奖:
1. 2022级硕士生戴慧邢,国家奖学金(2025年);
2. 2023级硕士生冯润龙,研究生学业奖学金一等奖(2025);
3. 2021级吴纪凤,国家奖学金(2025年);
4. 2021级陈晓雯,国家奖学金(2025年)。
学生深造情况:
1. 2023级硕士生冯润龙,申博至南京航空航天大学;
2. 2020级薛思琪,保研至四川大学;
3. 2021级吴纪凤,保研至中科院上海硅酸盐研究所;
4. 2021级陈晓雯,保研至电子科技大学。
主要学术论文:
[1]Wu Jifeng, Gao Huan, Lei Shengjun, et al. (2026) Enhancement mechanism of ceramic conversion on the mechanical properties of basalt and waste glass-based geopolymer[J]. Ceramics International . (Q2. 学生一作)
[2]Xiong Yi, Gao Huan, Zhang Haomin, et al. (2026) Preparation and characterization of paraffin wax/montmorillonite composite phase change material and its application in tent fabric[J]. Materials Letters: 139851.(Q3. 学生一作)
[3]Yang Xin, Yang Qingwen, Dai Huixing, ... & Gao Huan. (2025). Preparation, characterization, and analysis of wollastonite-enhanced kaolinite-based porous geopolymer and its reinforcing mechanism. Construction and Building Materials, 503, 144536. (Q1. 学生一作)
[4]Gao Huan, Jiang Biaoxiu, Lei Shengjun, et al. (2025). Comparisons between basalt for continuous fiber and ordinary basalt[J]. Ceramics International. 51(1): 132-146.
[5]Dai Huixing, Gao Huan, Jiang Biaoxiu, Yang Qingwen, Li Xinjuan, Guo Xiaoping, Cheng Zhouyueyang, Xiong Yi, Li Xiang, Chen Xiaowen, Wu Jifeng, Wang Ling. Enhancement effect of basalt fiber on the foamy kaolinite-based composite thermal insulator [J]. Journal of Building Engineering, 2024, 95: 110144. (Q1. 学生一作)
[6]Lei Shengjun, Gao Huan, Feng Runlong, Dai Huixing, Bernardo Enrico, Zhang Haomin, Cheng Z houyueyang, Zhang Xianghui, Deng Miao, Li Pingfeng, Wang Ling. Effect of calcination temperature on the activity of basalt tailings for the lightweight geopolymer from microwave curing [J]. Materials Chemistry and Physics, 2024, 328: 129991.(Q2. 学生一作)
[7]Feng Runlong, Yang Qingwen, Dai Huixing, Deng Miao, Wang Huizhao, Hou Chunming, Cheng Zhouyueyang, Gao Huan. Effect of glass fiber on the mechanical and thermal insulation performances of kaolinite-based thermal insulator [J]. Case Studies in Construction Materials, 2024, 21: e03879.(Q2. 学生一作)
[8]Dai Huixing, Gao Huan, Yang Pan, Mo Jinzong, Zhang Haomin, Lei Shengjun, Wang Ling. Thermal insulation performance of rock wool reinforced kaolinite-based porous geopolymer[J]. Applied Clay Science, 2023, 246: 107176. (Q2. 学生一作)
[9]Lei Shengjun, Gao Huan, Dai Huixing, Bernardo Enrico, Zhang Haomin , Yang Qingwen, Zhang Xianghui, Wang Ling. (2023) Characteristics of lightweight geopolymers from microwave curing of basalt and waste glass powder mixtures[J]. Construction and Building Materials, 2023, 409: 133758. (Q1. 学生一作)
[10]Zhang Haomin, Gao Huan, Bernardo Enrico, Lei Shengjun, Wang Ling (2023).Thermal energy storage performance of hierarchical porous kaolinite geopolymer based shape-stabilized composite phase change materials. Ceramics International, 18 (49): 29808-29819. (Q2. 学生一作)
[11]Xue Siqi, Gao Huan, Zhang Haomin, Dai Huixing, Lei Shengjun, Ling Wang (2023). Characteristics of ox bone derived natural porous hydroxyapatite and its application in composite phase change materials. Inorganic Chemistry Communications, 156: 111251.(Q2. 学生一作)
[12] Gao Huan, Liao Libing, Liang Yufei, Tang Xiaowei., Liu Hao, Mei Lefu, Lv Guocheng, Wang Lijuan. (2021) Improvement of durability of porous perlite geopolymer-based thermal insulation material under hot and humid environment. Construction and Building Materials, 313: 125417. Q1.
[13] Gao Huan, Liu Hao, Liao Libing, Mei Lefu,Zhang Fan, Zhang Longhui, Li Sha, Lv Guocheng. (2020) A bifunctional hierarchical porous kaolinite geopolymer with good performance in thermal and sound insulation. Construction and Building Materials. 251: 118888. Q1.
[14] Gao Huan, Liao Libing, Liu Hao, Mei Lefu, Wang Zejie, Huang Danlan, Lv Guocheng, Zhu Guodian, Wang Chuxuan. (2020) Optimization of thermal insulation performance of porous geopolymers under the guidance of thermal conductivity calculation. Ceramics International. 10 (46): 16537-16547. Q2.
[15] Gao Huan, Liu Hao, Liao Libing, Mei Lefu, Lv Guocheng, Liang Liming, Zhu Guodian, Wang Zejie, Huang Danlan. (2019) Improvement of performance of foam perlite thermal insulation material by the design of a triple-hierarchical porous structure. Energy and Buildings. 200: 21-30. Q2.
[16] Gao Huan, Liu Hao, Liao Libing, Mei Lefu, Shuai Pengfei, Xi Ziyan, Lv Guocheng. (2019) A novel inorganic thermal insulation material utilizing perlite tailings. Energy and Buildings. 190: 25-33. Q2.
[17] Wang Zejie, Gao Huan, Liu Hao, Liao Libing, Mei Lefu, Lv Guocheng, Zhu Guodian, Huang Danlan. (2020) Inorganic thermal insulation material prepared from pitchstone. Journal of Building Engineering. 101745. Q1.
[18] Bin Jianxiong, Liu Haikun, Mei Lefu, Liang Liming, Gao Huan, Li Haoshuo, Liao Libing. (2019) Multi-color luminescence evolution and efficient energy transfer of scheelite-type LiCaGd (WO4)3: Ln3+ (Ln= Eu, Dy, Tb) phosphors. Ceramics International. 2 (45): 1837-1845. Q2.
