杜艾 教授博导

邮箱:duai@tongji.edu.cn

联系方式:021-65982762-4

个人简历
教育经历:

2007-2010 bet356体育在线官方网站 凝聚态物理专业 理学博士

2005-2007 bet356体育在线官方网站 材料物理与化学专业 硕士研究生
2001-2005 西南交通大学 材料科学与工程专业 工学学士
工作经历:

2023-至今 bet356体育在线官方网站 教授

2013-2022 bet356体育在线官方网站 副教授

2012-2013 bet356体育在线官方网站物理系 讲师
2010-2012 bet356体育在线官方网站材料学院 师资博士后
教学情况
主要承担《普通物理(C)》、《普通物理(D)》、《普通物理(B)》和《近代物理实验》等课程的教学工作。热爱教学工作,非常关心学生。精心组织教学内容,喜欢在课堂上介绍高水平期刊上最新的前沿知识,力求讲述和材料生动有趣。教学方法上主张基础和兴趣并重,一方面重视物理思想来源和公式推导过程,另一方面喜欢用案例和类比激发学生思考,希望在学习知识之余,能提高学生们的逻辑思维能力和对科学或科普的兴趣。授课以来,专家平均学期评分9.48分,学生评教9.86分,指导本科生开展研究性学习,发表物理实验类论文多篇,指导小学期、毕业设计和各类本科科研创新活动多项。2012-2013学年第二学期入选督导推荐课堂教学有特色的课程(白皮书),2014年参加bet356体育在线官方网站青年教师讲课比赛并获得三等奖和最佳教学设计奖,2016年参加全国高等学校物理基础课程青年教师讲课比赛获得上海赛区一等奖,2020年获得bet356体育在线官方网站青年教师讲课竞赛一等奖,并获得上海市高校青年教师教学竞赛优秀奖。
研究方向
主要研究方向包括新型气凝胶的制备、溶胶-凝胶理论以及气凝胶在物理工程中的应用。近期感兴趣的方向为气凝胶的3D打印与溶胶凝胶墨水技术、仿生结构气凝胶材料与器件、气凝胶与电磁波、声波、强激光与超高速粒子等物质之间的相互作用等。在国内外期刊上发表论文140余篇,其中与气凝胶相关的100余篇, H因子为25,H10因子为68(谷歌学术)。积极进行对外学术交流,国内报告约20次,其中大会报告1次,邀请报告9次;赴国外参加国际会议9次,其中做邀请报告3次。在中国材料大会、中国溶胶凝胶大会等会议上多次担任分会场主持。期刊Advanced Composites & Hybrid Materials副主编,Engineered Science副主编,ES Materials & Manufacturing执行主编,中国材料大会副秘书长(2023年),中国材料大会超材料与多功能材料分会主席(2019-2023),12th Advanced Materials World Congress (AMC,瑞典斯德哥尔摩) 分会主席,2nd Sino-German Workshop on New Materials (Aerogel) Development组委会主席,第一届(英国纽卡斯尔)与第二届(西班牙圣塞巴斯蒂安)International Conference on Aerogel Inspired Materials国际会议国际委员会成员,第四届气凝胶材料国际学术研讨会副秘书长。主持纵向项目10余项,作为科研骨干参与了多项国家级科研项目的科研工作。
奖励荣誉
获奖:2020年获得bet356体育在线官方网站青年教师讲课竞赛一等奖;

2020年按获得上海市高校青年教师教学竞赛优秀奖;

2016年获得全国高等学校物理基础课程青年教师讲课比赛(上海市赛区)一等奖;
2016年获得bet356体育在线官方网站“传承.感恩”科创青年奖教金;
2016年获得bet356体育在线官方网站“师德师风优秀教师”提名奖;
2015年获得黑龙江省科学技术奖(自然)二等奖,排名第4;
2014年获得bet356体育在线官方网站青年教师讲课竞赛三等奖;
2014年获得bet356体育在线官方网站青年教师讲课竞赛“最佳教学设计奖”;
2011年获得教育部自然科学奖二等奖(排名第6)。

荣誉:2015年被评为2013-2014年度bet356体育在线官方网站“青年岗位能手”称号。
学术兼职

Advanced Composites and Hybrid Materials期刊 副主编;

Engineered Science期刊 副主编;

ES Materials & Manufacturing期刊 执行编辑;

International Association of Advanced MaterialsSweden) 会士;

2023年 中国材料大会 大会副秘书长;

2023年 2nd Sino-German Workshop on New Materials (Aerogel) Development 组委会主席;

2023年 2nd International Conference on Aerogel Inspired Materials 国际委员会委员;

2023年 第四届气凝胶材料国际学术研讨会 副秘书长;

2019-2023 中国材料大会 分会主席;

2022 12th Advanced Materials World Congress (AMC,瑞典斯德哥尔摩) 分会主席;

2019年 1st International Conference on Aerogel Inspired Materials 国际委员会委员;

中国硅酸盐学会溶胶凝胶分会 常务理事;

中国材料研究学会超材料分会 理事;

中国材料研究学会极端条件材料与器件分会 委员;

中国核学会核靶专业委员会 委员;

上海市物理学会青年工作委员会 委员;

上海市真空学会 理事;

bet356体育在线官方网站中青年知识分子联谊会 常务副会长;
普陀区中青年知识分子联谊会 副会长。


主要论著

部分研究成果如下:

1. Einstein’s tea leaf paradox induced localized aggregation of nanoparticles and their conversion to gold aerogels, Science Advances 2023, 9, eadi9108.

2. Resveratrol-silica aerogel nanodrug complex system enhances the treatment of sports osteoarthritis by activating SIRT-1, Advanced Composites and Hybrid Materials 2023, 6, 3.

3. Direct 3D print polyimide aerogels for synergy management of thermal insulation, gas permeability and light absorption, Journal of Materials Chemistry A 2023, 11, 21272-21284.

4. Smart strategies for light and thermal management in high‐efficiency solar steam generation, Solar RRL 2023, 7, 2201128.

5. A facile and versatile post-treatment method to efficiently functionalize 3D-printed carbon aerogels via introducing tailored metal elements, ACS Applied Energy Materials 2022, 5, 11970-11976.

6. A simple strategy for constructing hierarchical composite electrodes of PPy‐posttreated 3d‐printed carbon aerogel with ultrahigh areal capacitance over 8000 mF cm–2, Advanced Materials Technologies 2022, 7, 2101325.

7. MXene aerogel-based phase change film for synergistic thermal management inspired by antifreeze beetles, Cell Reports Physical Science 2022, 3, 100815.

8. Over 11 kg m–2 h–1 evaporation rate achieved by cooling metal–organic framework foam with pine needle-like hierarchical structures to subambient temperature, ACS Applied Materials & Interfaces 2022, 14 (8), 10257-1026.

9. Interfacial polymerized copolymers of aniline and phenylenediamine with tunable magnetoresistance and negative permittivity, Materials Today Physics 2021, 21, 100502.

10. Slow-sound propagation in aerogel-inspired hybrid structure with backbone and dangling branch, Advanced Composites and Hybrid Materials 2021, 4, 248-256.

11. Biomimetic ultra‐black sponge derived from loofah and Co‐MOF for long‐term solar‐powered vapor generation and desalination, Solar RRL 2021, 5, 2000817.

12. Epsilon‐negative carbon aerogels with state transition from dielectric to degenerate semiconductor, Advanced Electronic Materials 2021, 7, 2000877.

13. Ultra‐black pinecone for efficient solar steam generation under omnidirectional illumination, Advanced Sustainable Systems 2021, 5, 2000244.

14. Versatile direct writing of aerogel-based sol–gel inks, Langmuir 2021, 37, 2129-2139.

15. Morphology analysis of tracks in the aerogels impacted by hypervelocity irregular particles, High Power Laser Science and Engineering 2021, 9, e14.

16. Artificial Trees Inspired by Monstera for Highly Efficient Solar Steam Generation in Both Normal and Weak Light Environments, Advanced Functional Materials 2020, 30 (48), 2005513.

17. Intrinsic negative TCR of superblack carbon aerogel films and their ultrabroad band response from UV to microwave, Carbon 2020, 161, 590-598.

18. Ultra-black carbon@ silica core-shell aerogels with controllable electrical conductivities, Advanced Composites and Hybrid Materials 2019, 2, 743-752.

19. Enhanced photothermal conversion by hot-electron effect in ultrablack carbon aerogel for solar steam generation, ACS Applied Materials & Interfaces 2019, 11, 42057-42065.

20. Simple deceleration mechanism confirmed in the terminal hypervelocity impacted tracks in SiO2 aerogel, Icarus 2019, 317: 365-372.

21. Multifunctional silica nanotube aerogels inspired by polar bear hair for light management and thermal insulation, Chemistry of Materials 2018, 30 (19): 6849-6857.

22. Continuous adjustment of fractal dimension of silica aerogels, Journal of Non-Crystalline Solids 2018, 499: 159-166.

23. Temperature dependence of dynamic mechanical behaviors in low density MTMS-derived silica aerogel, Journal of Porous Materials 2018, 25 (4): 1229-1235.

24. Nanostructured resorcinol-formaldehyde ink for 3D direct writing, Journal of Materials Research 2018, 33 (14): 2052-2061.

25. Hot electrons coupling-enhanced photocatalysis of super black carbon aerogels/titanium oxide composite, 2018, MRS Communications 8 (2): 521-526.

26. Carbon aerogels towards new candidates for double negative metamaterials of low density, Carbon 2018, 129: 598-606.

27. Graphene-templated carbon aerogels combining with ultra-high electrical conductivity and ultra-low thermal conductivity, Microporous and Mesoporous Materials 2017, 253: 71-79.

28. Free-standing coating patterns fabricated by ultraviolet contact lithography using photosensitive sol-gel coatings, Optical Materials 2017, 69: 265-273.

29. Self-supporting silica aerogel thin films with high flexibility, Thin Solid Films 2017, 628, 81-87.

30. A finite-volume fast diffusion-limited aggregation model for predicting the coagulation rate of mixed low-ionized system, AIP Advances 2017, 7 (3): 035017.

31. Preparation and optimization of aerogel flyer-plates with graded density, Materials & Design 2016, 110: 225-232.

32. A new approach for preparation of free-standing nano-porous SiO2 films with a large area, Journal of Sol-Gel Science and Technology 2016, 80 (2): 267-276.

33. Super black material from low-density carbon aerogels with subwavelength structures, ACS Nano 2016, 10 (10): 9123-9128.

34. Freestanding titanium metallic aerogel, Materials & Design 2016, 97, 93-97.

35. A special material or a new state of matter: a review and reconsideration of the aerogel, Materials 2013, 6, 941-968.