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姓名：盛浩强

职称：副教授

联系方式：上海大学宝山校区东区17号楼320室，shenghaoqiang@shu.edu.cn

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标题：个人简介、研究方向

个人简介

博士，毕业于上海交通大学，入选上海市“超级博士后”人才激励计划，现任上海大学材料学院副教授。诚邀有科研热情和探索精神的同学加入，一同以自强不息之志，行道济天下之任。

研究方向

人工智能驱动能源材料设计；极端工况高超声速飞行器功能材料智能设计。

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标题：主要科研项目、代表性论文、授权发明专利、学术兼职、荣誉奖励

主要科研项目

1．国家自然科学基金青年基金项目，52206162，2023.1-2025.12，主持，纵向（30万元）

2．中国博士后科学基金面上资助，2022M722067，2023.1-2024.12，主持，纵向（8万元）

3．上海市“超级博后”激励计划，2022342，2023.1-2024.12，主持，纵向（30万元）

4．四川省科技创新苗子工程培育项目，MZGC20240044，2024.9-2025.8，主持，纵向（2万元）

5．国家自然科学基金重大研究计划集成项目，91941301，2020.1-2023.12，参与，纵向（1500万元）

6．国家自然科学基金面上基金项目，12272234，2023.1-2026.12，参与，纵向（56万元）

7．四川省青年科技创新研究团队项目，2020JDTD0033，2020.1-2022.12，参与，纵向（91万元）

代表性论文

36．Haoqiang Sheng, Xiaobin Huang, Xiangzhao Wang, Zemin Ji, Wenbin Hu, Shiyu Xu Xiaofei Li, Hong Liu, 24-hour atmospheric water harvesting for green hydrogen production using a durable organic aerogel, Cell Reports Sustainability, (2026), 3: 100574. .

35．Haoqiang Sheng, Bin Yu, Xiaobin Huang, Yuan Ji, Wenbin Hu, Xiangzhao Wang, Zeming Ji, Hong Liu, Combustion enhancement of sustainable aviation fuel containing ethanol in aero jet engine combustors by regulating the intrinsic characteristics of the fuel, Renewable Energy, (2024), 237: 121731. JCR, TOP, Q1, IF=9.

34．Haoqiang Sheng, Xiaobin Huang, Yuan Ji, Jie Zhang, Wenbin Hu, Zeming Ji, Xiangzhao Wang, Miaoshen He, Hong Liu, Expansion ignition limit of hydrocarbon fuels based on the controllable free radical relay combustion under extreme conditions, Acta Astronautica, (2024), 223: 373-383. JCR, TOP, Q1, IF=3.1.

33．Haoqiang Sheng, Xiaobin Huang, Zeming Ji, Xiangzhao Wang, Wenbin Hu, Yuan Ji, Bo Zhang, Hong Liu, In-situ heteroatoms stabilization of zero-dimensional boron nanospheres for high-energy nanofluid fuels combustion enhancement, Energy, (2024), 304: 132149. JCR, TOP, Q1, IF=9.

32．Haoqiang Sheng, Xiaobin Huang, Wenbin Hu, Yuan Ji, Junming Chen, Mingyun Xie, Miaoshen He, Hong Liu, Stability and combustion performance enhancement of ethanol/kerosene fuel by carbonized poly[cyclotriphosphazene-co-(4,4′-sulfonyldiphenol)] nanotubes via biomimetic hydrogen bonding strategy, Energy, (2023), 282: 128765. JCR, Q1, IF=9.

31．Haoqiang Sheng, Yuan Ji, Xiaobin Huang, Zhengchuang Zhao,Wenbin Hu, Junming Chen, Hong Liu, A free radical relay combustion approach to scramjet ignition at a low Mach number, Energy, (2022), 247: 123539. JCR, Q1, IF=9.

30．Haoqiang Sheng, Xiaobin Huang, Yuan Ji, Zhengchuang. Zhao,Wenbin Hu, Junming Chen, Zemin Ji, Xiangzhao Wang, Hong Liu, Soot emission reduction in n-hexadecane/cycloalkane mixtures combustion with the addition of Borane-dimethyl sulfide, Fuel, (2022), 321: 124098. JCR, Q1, IF=7.4.

29．Haoqiang Sheng, Xiaobin Huang, Yuan Ji, Zhengchuang Zhao, Zhijia Chen, Hong Liu, Synergistic promotion of multi-component kerosene low-temperature ignition with addition of radical activator, International Journal of Hydrogen Energy, (2020), 46 (53): 27207-27220. JCR, Q1, IF=7.2.

28．Haoqiang Sheng, Xiaobin Huang, Zhijia Chen, Zhengchuang Zhao, Hong Liu, Low-temperature hypergolic ignition of 1-octene with low ignition delay time, Journal of Physical Chemistry A, (2020), 125 (1): 423-434. JCR, Q2, IF=2.9.

27．Haoqiang Sheng, Xiaobin Huang, Zhengchuang Zhao, Zhijia Chen, Hong Liu, Efficient homogeneous radical activation of n-hexadecane by Borane-dimethyl sulfide based on dynamic inductive effect for low-temperature ignition, Fuel Processing Technology, (2020), 213:106653. JCR, Q1, IF=7.5

26．Haoqiang Sheng, Xiaojun Wang, Zhigang Pan, Xu Chen, Thermodynamics and kinetics of one-step curing process for vinyl ester-unsaturated polyester resin in low shrinkage, Journal of Thermal Analysis and Calorimetry, (2017), 130: 823-833. JCR, Q1, IF=4.4.

25．Haoqiang Sheng, Xiaobin Huang, Hong Liu, Synergistic compound additives for n-hexadecane improving low-temperature ignition performance, China National Symposium on Combustion, Xiamen, 2020, 204661.（会议）

24．盛浩强，黄小彬，刘洪，碳氢燃料自由基接力燃烧与极端工况点火，第二届中国航空学会研究生论坛，西安，2021.（优秀论文）

23. Shiyu Xu, Weiwei Men, Lixin Xuan, Xiaobin Huang, Haoqiang Sheng, Wenbin Hu, Hong Liu, Robust multiscale‐nanoconfinement photothermal slippery polyurea coatings: Enabling efficient anti‐ and de‐icing under weak solar irradiance,  Advanced Functional Materials, (2026), 2529233. JCR, Q1, IF=18.5.

22. Wenbin Hu, Haoqiang Sheng, Weiwei Zhao, Xiaofei Li, Shiyu Xu, Xiaobin Huang, Hong Liu, Spectrally engineered hierarchical nanocomposite enabling full-spectrum solar-thermal conversion and dynamic anti-/de-icing in harsh environments, Small, (2026), 22: 10191. JCR, Q1, IF=12.5.

21. Xiangzhao Wang, Xiaobin Huang, Zemin Ji, Linchuan Tian, Haoqiang Sheng, Shiyu Xu, Hong Liu, Dynamic icephobic coating based on organic-inorganic covalently cross-linked epoxy composites for unmanned aerial vehicles, Composites Part B-Engineering, (2026), 311: 113249. JCR, Q1, IF=14.2.

20．Zemin Ji, Xiaobin Huang, Xiangzhao Wang, Haoqiang Sheng, Shiyu Xu, Mechanical sintered solid/liquid interpenetrating conductive network for aircraft icing protection and real-time temperature monitoring, Composites Part A-Applied Science and Manufacturing, (2025), 199: 109237. JCR, Q1, IF=8.1.

19．Zemin Ji, Xiaobin Huang, Xiangzhao Wang, Haoqiang Sheng, Linchuan Tian, Shiyu Xu, Hong Liu, Local mechanical sintered thermal liquid bridge for anti-/de-icing surface with thermal management and temperature warning, Chemical Engineering Journal, (2025), 512: 162337. JCR, Q1, IF=13.2.

18．Shiyu Xu, Xiaobin Huang, Haoqiang Sheng, Xiangzhao Wang, Wenbin Hu, Zemin Ji,and Hong Liu, Advanced slippery coatings featuring ternary photothermal traps for superior anti/de-icing and anti/de-frosting efficiency in extreme dynamic cold environment, Advanced Functional Materials, (2025), 2505439. JCR, Q1, IF=18.5.

17．Xiangzhao Wang, Xiaobin Huang, Linchuan Tian, Zemin Ji, Haoqiang Sheng, Shiyu Xu Xiaofei, Li, Hong Liu, Hyperbranched vanillin-based composite coating: achieve efficient icephobicity in high humidity and dynamic environments, Advanced Functional Materials, (2024), 2415952. JCR, Q1, IF=18.5.

16．Xiangzhao Wang, Xiaobin Huang, Zemin Ji, Haoqiang Sheng, An anti-extreme-environment self-healing vanillin-based icephobic coating with UV-shielding performance and recyclability, European Polymer Journal, (2024), 251: 113261. JCR, Q1, IF=5.8.

15．Zemin Ji, Xiaobin Huang, Haoqiang Sheng, Xiangzhao Wang, Cell membrane-inspired self-assembly corrosion resistant liquid metal composite coating with photothermal/electrothermal anti-icing/de-icing performance, Progress in Organic Coatings, (2024), 191: 108464. JCR, Q1, IF=6.5.

14．Xiangzhao Wang, Xiaobin Huang, Zemin Ji, Haoqiang Sheng, Hong Liu, Planting multiwalled carbon nanotubes onto epoxidized soybean oil-based vitrimer to construct a biobased photothermal superhydrophobic coating with self-healing and closed-loop recyclability for anti/deicing, ACS Sustainable Chemistry and Engineering, (2024), 12: 7147-7157. JCR, Q1, IF=7.1.

13. Yuan Ji, Miaosheng He, Xiaobin Huang, Haoqiang Sheng, Wei Wang, Mingyun Xie, Hong Liu, On space-time diversity in shock train self-excited oscillation mode during wide-range evolution in a scramjet isolator, AIP Advances, (2024), 11: 115206.  JCR, Q4, IF=1.4.

12．Xiangzhao Wang, Xiaobin Huang, Zemin Ji, Wenbin Hu, Haoqiang Sheng, Xiaofei Li, Nanoparticle-free, recyclable, and photothermal-responsive castor-oil-based shape memory polyurethane with regulatable mechanical properties and antibacterial activity, Industrial Crops and Products, (2023), 206:117628. JCR, Q1, IF=5.6.

11．Zemin Ji, Xiaobin Huang, Haoqiang Sheng, Xiangzhao Wang, Wenbin Hu, Hong Liu, Neuron-like thermal silica bridge between boron nitride nanosheets with hard-soft composite structure to enhance thermal conductivity and anti-icing properties on CFRP, Composites Part A-Applied Science and Manufacturing, (2023), 175:107806. JCR, Q1, IF=8.1.

10．Xiangzhao Wang, Xiaobin Huang, Zemin Ji, Wenbin Hu, Haoqiang Sheng, Xiaofei Li, Self-healing icephobic coating with UV shielding and removability based on biobased epoxy and reversible disulfide bonds, Polymer, (2023), 283: 126274. JCR, Q2, IF=4.1.

9．Yuan Ji, Miaosheng He, Xiaobin Huang, Haoqiang Sheng, Wei Wang, Mingyun Xie, Hong Liu, Influence of the rising rate of backpressure on the upstream motion characteristics of the shock train in a scramjet isolator, Physics of Fluids, (2023), 35: 041708. JCR, Q1, IF=4.1.

8．Junming Chen, Longquan Liu, Liang Shan, Haoqiang Sheng, Dongjie Jiang, Wenjun Xu, Thermal control performance of phase change material combined with ultra-light hollow metallic microlattice for microsatellites, Applied Thermal Engineering, (2023), 227: 120374. JCR, Q1, IF=6.1.

7．Zhao Zhengchuang, Huang Xiaobin, Xie Mingyun, Sheng Haoqiang, Hu Wenbin, Chen Junming, Liu Hong, Combustion enhancement and soot reduction of kerosene-based fuel under engine-relevant conditions enabled by fuel reactivity modulation, Fuel, (2023), 338: 127340. JCR, Q1, IF=7.4.

6．Xiangzhao Wang, Xiaobin Huang, Wenbin Hu, Zemin Ji, Haoqiang Sheng, Hong Liu, Fluorine-free, highly transparent, chemically durable and low ice adhesion icephobic coatings from biobased epoxy and polydimethylsiloxane, Journal of Applied Polymer Science, (2023), 140: 53456. JCR, Q2, IF=2.7.

5．Junming Chen, Xiaobin Huang, Yongzhu He, Longquan Liu, Haoqiang Sheng, Wenbin Hu, Zhengchuang Zhao, Jinxuan He, Synergistic effect of polyphosphazene nanotubes and graphene on enhancing ablative resistance of ethylene propylene diene monomer insulation composites, Journal of Applied Polymer Science, (2022), 139: 52834. JCR, Q2, IF=2.7.

4．Zhengchuang Zhao, Xiaobin Huang, Haoqiang Sheng, Hong Liu, On promoted combustion stability of kerosene/ethanol blends at wide low temperatures: Fuel reactivity improvement and Leidenfrost effect suppression, Fuel, (2022), 315: 123221. JCR, Q1, IF=7.4.

3．Junming Chen, Longquan Liu, Wenjun Xu, Xiaobin Huang, Haoqiang Sheng, Design and analysis of a hollow metallic microlattice active cooling system for microsatellites, Nanomaterials, (2022), 12: 1485. JCR, Q2, IF=4.4.

2．Zhengchuang Zhao, Xiaobin Huang, Haoqiang Sheng, Zhijia Chen, Hong Liu, Enhanced low-temperature stable combustion of hydrocarbon with suppressing the Leidenfrost effect, International Journal of Heat and Mass Transfer, (2022), 185: 122413. JCR, Q1, IF=5.0.

1．Zhengchuang Zhao, Xiaobin Huang, Haoqiang Sheng, Zhijia Chen, Hong Liu, Promoted stable combustion of alcohol-based fuel accompanied by inhibition of Leidenfrost effect in a wide temperature range, Energy, (2021), 234: 121248. JCR, Q1, IF=9.0.

授权发明专利

13．刘洪，盛浩强，孔维梁，用于冰风洞模拟的高空水的制备方法；专利号：ZL202411525969.0。

12．黄小彬，盛浩强，刘洪，张斌，一种改进环烷烃碳氢燃料及其低压燃烧促进方法；专利号：ZL202110416536.1。

11．黄小彬，盛浩强，刘洪，基于光谱仪的消光法碳烟产率测量系统及测量方法；专利号：ZL202210615044.X。

10．黄小彬，盛浩强，刘洪，张斌，一种改性正十六烷碳氢燃料以及调控方法；专利号：ZL202110416520.0。

9．黄小彬，盛浩强，刘洪，可持续航空燃料纳米流体燃料及其实现方法；专利号：ZL202211245083.1。

8．盛浩强，黄小彬，刘洪，基于塔形结构混合的液态碳氢燃料层流火焰燃烧装置；专利号：ZL202210499451.9。

7．刘洪，黄小彬，吉泽民，盛浩强，基于原位生长的三维导热防冰电热涂层及其制备方法；专利号：ZL202210465045.0。

6．黄小彬，盛浩强，刘洪，一种抑制环烷烃碳氢燃料燃烧过程中碳烟生成的方法；专利号：ZL202111430488.8。

5．黄小彬，盛浩强，刘洪，籍元，一种基于两组份液体燃料混合反应的喷注系统；专利号：ZL202110697198.3。

4．黄小彬，刘洪，盛浩强，李小飞，环烷烃碳氢燃料的低温点火特性的调控方法；专利号：ZL202110242611.7。

3．黄小彬，盛浩强，李小飞，刘洪，用于低马赫数起动的超燃冲压发动机的煤油基燃料的实现方法；专利号：ZL202110248042.7。

2．黄小彬，刘洪，盛浩强，张斌，何淼生，一种基于原子载体液态碳氢燃料在低温自点火的调节方法；专利号：ZL202010440487.0。

1．黄小彬，刘洪，盛浩强，一种基于动态诱导效应活化液态碳氢燃料在低温燃烧的方法；专利号：ZL201911318969.2。

学术兼职

中国航空学会会员；《Energy Materials》青年编委；《Energy》、《Fuel》、《中国科学技术科学》等学术期刊审稿人；

荣誉奖励

7.  2022年入选上海市“超级博士后”激励计划

6.  2022年获上海市优秀毕业生

5.  2021年获研究生国家奖学金

4.  2021年获第二届中国航空学会研究生论坛优秀论文

3.  2018年获江苏分析测试科学技术奖三等奖

2.  2017年获研究生国家奖学金

1.  2012年获国家奖学金

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