（一）个人信息

王飞，教授&博导，天池英才特聘专家、泰山学者青年专家、山东省优青、国际先进材料学会会士、青岛市五一劳动奖章获得者、入选2024“全球前2%顶尖科学家榜单”，best365体育官网平台储能科学与工程系主任、水合物低碳能源团队负责人，山东省高等学校天然气水合物青创人才团队带头人，青岛市重点实验室副主任，青科大-大兴重工水合物低碳能源装备研发中心主任，青岛六十八中科学副校长。

邮箱：elliot_wang@qust.edu.cn / elliot_wang_@hotmail.com

网站：https://www.researchgate.net/profile/Fei_Wang94

微信公众号：青科水合物能源

（二）教育及工作经历

2006.9-2013.6，青岛大学，学士&硕士

2013.9-2016.6，中国科学院大学，化学工程，博士

2016.9-2018.8，中国科学院青岛生物能源与过程研究所，博士后

2018.9-至今，best365体育官网平台，教授&博导&团队负责人&储能科学与工程系主任

（三）研究方向

水合物低碳能源：二氧化碳捕集、天然气存储调峰、天然气提氦、煤层气/油田伴生气经济性开发，可再生能源制氢-液态有机储氢等。

（四）科研项目

国家级

（1）基于碳纳米管基质的天然气水合物微反应空间构建及作用机理研究，国家自然科学基金面上项目（21978142），2020.1-2023.12，61万，主持（结题）。

（2）天然气水合物纳米促进剂的制备及作用机理研究，国家自然科学基金青年基金（21706269），2018.1-2020.12，20万，主持（结题）。

省部级

（3）天然气水合物，山东省自然科学基金优秀青年基金（ZR2022YQ13），2023.1 -2025.12，50万，主持（在研）。

（4）水合物固态储氢，山东省泰山学者人才工程项目（tsqn202211159），2022.7-2025.6，75万，主持（在研）。

（5）山东省高等学校青创人才引育计划天然气水合物创新团队，2020.1-2022.12，200万，主持1/7（结题）。

（6）纳米球固载化表面活性剂对甲烷水合物促进作用研究，中国博士后基金（2017M612370），2017.8-2019.7，5万，主持（结题）。

（7）基于表面活性剂亲水性基团的甲烷水合物纳米促进剂的制备及作用机理研究，山东省自然科学基金博士基金（ZR2017BB048），2017.8-2019.12，8万，主持（结题）。

市厅级

（8）新型二氧化碳固态气肥制备技术示范与应用，青岛市科技惠民示范专项（24-1-8-xdny-18-nsh），2024.4-2026.3，60万，主持（在研）。

（9）低温、低成本、高效有机液态储氢技术研究，青岛市产教融合示范学科项目，60万，2023.1-2025.12，主持（在研）。

其他/横向

（10）基于水合物媒介的天然气储运调峰技术研究，best365体育官网平台人才引进启动经费，2018.9-2023.8，200万，主持（结题）。

（11）基于纳米球载体的天然气水合物纳米促进剂的制备及应用研究，中国科学院青岛生物能源与过程研究所优秀博士后奖励基金，2017.11-2019.10，20万，主持（结题）。

（12）青科大-大兴重工水合物低碳能源装备研发中心，横向，2024.7-2029.6，50万，主持（在研）。

（13）海水提溴实验验证，横向，2024.9-2.24.11，30万，主持（在研）

（14）水合物法固态天然气存储工艺开发，横向，2022.11-2023.10，15万，主持（结题）。

（五）学术论文

以第一/通讯作者发表SCI论文74篇，中科院1区论文45篇。

2025年度

（1）Chang Li, Kang Tan, Fangzheng Hua, Changxue Wang, Xiaolin Wang, Fei Wang*, Mengting Sun*. Methane hydrate formation promoted by eco-friendly hydrogels carrying with trace SDS. Fuel, 2025, 380, 133107. (IF: 7.4，大类1区)

2024年度

（2）Mengqi Liu, Honglin Yu, Daiming Liu, Guodong Zhang*, Fei Wang*. Methane dense storage in ZIF-8@cu under low pressure via adsorption-absorption synergy. Journal of Energy Storage, 2024, 103, 114400. (IF: 8.9, 大类2区)

（3）Xiaoming Wang, Li Li, Yan Lin, Jin Xu, Jiatao Zhao, Xiaoguang Zhang*, Fei Wang*, and Xiaolin Wang. Methane Hydrates Formed in a Porous Graphene Aerogel for Energy Storage. Crystal Growth & Design, 2024, 9223-9234. (IF: 3.2，小类1区)

（4）Honglin Yu, Mengqi Liu, Guodong Zhang*, Fei Wang*. Water-based Silicalite-1 porous liquid facilitates adsorption and absorption for CH4 capture. Chemical Engineering Journal, 2024, 499, 156453. (IF: 15.1, 大类1区)

（5）Mengqi Liu, Honglin Yu, Zhe Liu, Daiming Liu, Guodong Zhang*, Fei Wang*. Opening the Pandora box of hydrate-based adsorption-hydration natural gas technology in industrial application. Fuel, 2024, 376, 1332676. (IF: 7.4，大类1区)

（6）Xinran Sun, Daiming Liu*, Zhibing Xuan, Yongtao Zhang, Guodong Zhang, Chen Chen, Mengting Sun, Yan Lin, Jie Zhong, Fei Wang*. High-performance static formation of methane hydrate in fixed bed constructed by incorporating expanded graphite into polyimide foam. Chemical Engineering Journal, 2024, 493, 152777. (IF: 15.1, 大类1区)

（7）Honggang Yu, Chen Chen,* Fei Wang*. Kinetic Promotional Effect of Methane Hydrate Formation in the Presence of Leucine. Energy & Fuels, 2024, 38, 8641-8648. (IF: 5.3)

（8）Elaheh Sadeh, Abdolreza Farhadian*, Mina Maddah, Matvei E. Semenov, Abolfazl Mohammadi, Fei Wang*. Branched sulfonated promoter: Achieving high methane uptake and foam-free gas recovery for solidified gas storage. Chemical Engineering Journal, 2024, 487, 150674. (IF: 15.1, 大类1区)

（9）Yaning Kong, Honglin Yu, Mengqi Liu, Guodong Zhang*, Fei Wang*. Ultra-rapid formation of mixed H2/DIOX/THF hydrate under low driving force: Important insight for hydrate-based hydrogen storage. Applied Energy, 2024, 362, 123029. (IF: 11.2，大类1区)

（10）Xinqiao Tang, Jiatao Zhao, Yan He*, Fei Wang*. High-efficiency preparation of carbon nanotube catalysts via mono/bi-microemulsion nanoreactor. Colloids and Surfaces A, 2024, 687, 133503. (IF: 5.2，大类2区)

（11）Chang Li, Kang Tan, Fangzheng Hua, Changxue Wang, Mengting Sun*, Fei Wang*, Xiaolin Wang. Eco-friendly hydrogels serving as water carriers for improving methane hydrate formation and dissociation processes. Fuel, 2024, 362, 130854. (IF: 7.4，大类1区)

（12）Xinran Sun, Daiming Liu*, Yongtao Zhang, Guodong Zhang, Fei Wang*, and Xiaolin Wang. Methane hydrate formation enhanced by thermally expanded graphite with multi-sized pores. Chemical Engineering Journal, 2024, 474, 148280. (IF: 15.1, 大类1区)

（13）Zhiliang Tu, Li Li, Fei Wang*, Yongtao Zhang*. Review on separation of coalbed methane by hydrate method. Fuel, 2024, 358, 130224. (IF: 7.4，大类1区)

2023年度

（14）Dong Chen, Xiaoming Wang, Jiayi Zhang, Yan He, Yan Lin*, Fei Wang*. Inhibition on methane hydrate formation by polyacrylate superabsorbent hydrogel. Energy, 2023, 284, 129303. (IF: 9，大类1区)

（15）Lining Tan, Xinran Sun, Jintao Zhang, Chengchao Jin, Fei Wang* and Daiming Liu*. Aurivillius-layered Bi2WO6 nanoplates with CoOxcocatalyst as high-performance piezocatalyst for hydrogen evolution. Dalton Transactions, 2023, 52, 14210. (IF: 4, 小类2区)

（16）Yaning Kong, Fei Wang *, Guodong Zhang *, Xiaolin Wang. Enhanced formation kinetics of mixed H2/THF hydrate in the presence of nano promoters. Chemical Engineering Journal, 2023, 474, 145901. (IF: 15.1, 大类1区)

（17）Guodong Zhang, Penghui Song, Yaning Kong, Fei Wang*. The first trial of hydrate continuous production: Paving way on hydrate-based carbon capture and storage. Energy, 2023, 2023, 282, 128917. (IF: 9，大类1区)

（18）Guodong Zhang, Zhe Liu, YaningKong, Fei Wang*. Hydrate-based adsorption-hydration hybrid approach enhances methane storage in wet MIL-101(Cr)@AC under mild condition. Chemical Engineering Journal, 2023, 472, 145068. (IF: 15.1, 大类1区)

（19）Guodong Zhang, Runcheng Zhang, YaningKong, Fei Wang*. Complicated hydrate formation kinetics induced by ion specific effect in porous surface. Chemical Engineering Journal, 2023, 467, 143471. (IF: 15.1, 大类1区)

（20）Daiming Liu, Jintao Zhang, Lining Tan, Chengchao Jin*, Ming Li, Bingbing Chen, Guodong Zhang, Yongtao Zhang, Fei Wang*. Enhanced piezocatalytic hydrogen evolution performance of bismuth vanadate by the synergistic effect of facet engineering and cocatalyst engineering. Journal of Colloid and Interface Science, 2023, 646, 159-166 (IF: 9.9, 大类1区)

（21）Chen Chen, Fengze Ma, Xiaoming Wang, Li Li, Ying Miao, Yang Bai*, Yan He, Fei Wang*. Carbon nanotubes-based porous media constructed via 3D printing for methane hydrate formation. Fuel, 2023, 128645 (IF: 7.4，大类1区)

（22）Xiaolai Zhang, Jiatao Zhao, Chen Chen, Haoyu Yuan, Yonghao Zhang, Yan He, Fei Wang*. SDS-promoted methane hydrate growth in presence of a superhydrophobic substrate. Chemical Engineering Science, 2023, 276, 118761. (IF: 4.7, 大类2区)

（23）Chen Chen, Haoyu Yuan, Xiaoming Wang, Na Wang, Yan He, Fei Wang*. Magnetically separable 0D-2D Fe3O4-GO nanocomposite with high thermal diffusivity for methane hydrate formation. Chemical Engineering Journal, 2023, 465, 142832. (IF: 15.1, 大类1区)

（24）Xinru Liu, Xinqiao Tang, Yan He*, Fei Wang*. Microemulsion nanoreactor applied for the synthesis of iron-based catalysts for carbon nanotube formation. Colloids and Surfaces A, 2023, 666, 131325. (IF: 5.2，大类2区)

（25）Daiming Liu, Xinran Sun, Lining Tan, Jintao Zhang, Chengchao Jin, Fei Wang*. High-performance piezocatalytic hydrogen evolution by (Bi0.5Na0.5)TiO3 cubes decorated with cocatalysts. Ceramics International, 2023, 49, 20343-20350. (IF: 5.2，大类1区)

（26）Guodong Zhang, Zhe Liu, Daiming Liu, Yan Lin*, Fei Wang*. Hydrate-based adsorption-hydration hybrid approach enhances methane storage density in ZIF-8@AC. Chemical Engineering Journal, 2023, 455, 140503. (IF: 15.1, 大类1区)

（27）Chen Chen, Haoyu Yuan, Xiaoming Wang, Na Wang, Yan Lin, Yan He, Fei Wang*. Magnetic nanopromoter enables excellent kinetic promotion and cycling performance in methane hydrate formation. Chemical Engineering Journal, 2023, 452, 139318. (IF: 15.1, 大类1区)

2022年度

（28）Yongtao Zhang, Fulin Chen, Yan He, Fei Wang*. Enhanced CO2 hydrate formation via biopromoter coupled with initial stirring activation. Fuel, 2022, 330, 125713. (IF: 7.4，大类1区)

（29）Guodong Zhang, Xiaoyun Shi, Zhe Liu, Fei Wang*. The synergy of spiral agitation and nano-promoters significantly enhances hydrate formation under mild conditions. Chemical Engineering Journal, 2022, 450, 138354. (IF: 15.1, 大类1区)

（30）Lupeng Wu, Yi Zhong, Haoyu Yuan, Hui Liang, Fei Wang*, Le Gu*. Ultra-dispersive sulfonated graphene as water-based lubricant additives for enhancing tribological performance. Tribology International, 2022, 174, 107759. (IF: 6.2, 大类1区)

（31）Fei Wang ^#, Jintao Zhang ^#, Chengchao Jin, Xucheng Ke, Fei Fei Wang, Daiming Liu. Unveiling the effect of crystal facets on piezo-photocatalytic activity of BiVO4. Nano Energy, 2022, 101, 107573. (IF: 17.6, 大类1区)

（32）Chen Chen, Haoyu Yuan, Rongshan Bi, Na Wang, Yujiao Li, Yan He*, Fei Wang*. A novel conceptual design of LNG-sourced natural gas peak-shaving with gas hydrates as the medium. Energy, 2022, 253, 124169. (IF: 9，大类1区)

（33）Fei Wang, Fu-Peng Song, Chang Li, Meng-Ting Sun*. Promoted methane hydrate formation in -SO₃^--rich hydrogel clathrate. Fuel, 2022, 323, 124398. (IF: 7.4，大类1区)

（34）Chen Chen, Haoyu Yuan, Xiaoming Wang, Yan Lin, Yan He, Fei Wang*. Recyclable and high-efficiency methane hydrate formation promoter based on SDS-coated superparamagnetic nano-Fe₃O₄. Chemical Engineering Journal, 2022, 437, 135365. (IF: 15.1, 大类1区)

（35）Fei Wang, Fu-Peng Song, Chang Li, Meng-Ting Sun*. Preparation of hydrogel-based promoter for methane hydrate formation: Effects of -SO₃^- density on promotion efficiency. Energy & Fuels, 2022, 36, 2731-2738. (IF: 5.3)

（36）Dai-Ming Liu, Jin-Tao Zhang, Cheng-Chao Jin*, Bing-Bing Chen, Jing Hu, Ren Zhu and Fei Wang*. Insight into oxygen-vacancy regulation on piezocatalytic activity of (Bi1/2Na1/2)TiO3 crystallites: Experiments and first-principles calculations. Nano Energy, 2022, 95, 106975. (IF: 17.6, 大类1区)

（37）Guodong Zhang, Xiaoyun Shi, Fei Wang*. Enhanced hydrate formation under mild conditions using a novel spiral-agitated reactor. AIChE Journal, 2022, 68, e17617. (IF: 3.7)

（38）Guodong Zhang, Xiaoyun Shi, Fei Wang*. Methane Hydrate Production Using a Novel Spiral-agitated Reactor: Promotion of Hydrate Formation Kinetics. AIChE Journal, 2022, 68, e17423. (IF: 3.7)

2021年度

（39）Runcheng Zhang, Guodong Zhang*, Fei Wang*. Hydrate formation loaded by activated carbon bed in 3D printed containers. Energy & Fuels, 2021, 35, 15675-15683. (IF: 5.3)

（40）Yang Bai, Hongzheng Lu, Fengze Ma, Yan He*, Fei Wang*. Carbon nanotube-based nanopromoters for gas hydrate formation. Journal of Natural Gas Science and Engineering, 2021, 94, 104109. (IF: 5.258，大类2区)

（41）Fei Wang*, Amadeu K. Sum, Bei Liu. Editorial: Recent Advances in Promoters for Gas Hydrate Formation. Frontiers in Chemistry, 2021, 9, 708269. (IF: 5.5)

（42）Guodong Zhang, Runcheng Zhang, Fei Wang*. Fast formation kinetics of methane hydrates loaded by silver nanoparticle coated activated carbon (Ag-NP@AC). Chemical Engineering Journal, 2021, 417, 129206. (IF: 15.1, 大类1区)

（43）Daiming Liu, Chengchao Jin, Yongtao Zhang, Yan He, Fei Wang*. Integrated piezo-photocatalysis of electrospun Bi4Ti3O12 nanostructures by bi-harvesting visible light and ultrasonic energies. Ceramics International, 2021, 47, 7692-7699. (IF: 5.2，大类1区)

（44）Guodong Zhang; Bingjie Liu; Lu Xu; Runcheng Zhang; Yan He; Fei Wang*. How porous surfaces influence the nucleation and growth of methane hydrates. Fuel, 2021, 291, 120142. (IF: 7.4，大类1区).

（45）Guodong Zhang, Ruobing Niu, Xiaoyun Shi, Runcheng Zhang, Fei Wang*. Micro noncontact interaction between falling particles and plates in viscous fluids. Powder Technology, 2021, 381, 567-575. (IF: 5.2，大类2区)

（46）Meng-Ting Sun, Fu-Peng Song, Guo-Dong Zhang, Jing-Zhe Li, Fei Wang*. Polymeric superabsorbent hydrogel-based kinetic promotion for gas hydrate formation. Fuel, 2021, 288, 119676 (IF: 7.4，大类1区).

2020年度

（47）Guodong Zhang, Xiaoyun Shi, Runcheng Zhang, Kun Chao and Fei Wang*. Promotion of Activated Carbon on the Nucleation and Growth Kinetics of Methane Hydrates. Frontiers in Chemistry, 2020, 8, 526101. (IF: 5.5)

（48）Yong-Tao Zhang, Fu-Lin Chen, Shi-Jie Yu and Fei Wang*. Biopromoters for Gas Hydrate Formation: A Mini Review of Current Status. Frontiers in Chemistry, 2020, 8, 481. (IF: 5.5)

（49）Mengting Sun, Guodong Zhang and Fei Wang*. Graphene-based kinetic promotion to gas hydrate formation. Frontiers in Chemistry, 2020, 8, 514. (IF: 5.5)

（50）Yan Lin, Li Liu, Meng-Ting Sun, Chen Chen, Guo-Dong Zhang, Yan He, Fei Wang*. Rapid Formation of Methane Hydrates with Compact Agglomeration via Regulating the Hydrophilic Groups of Nanopromoters. AIChE Journal, 2020,66,e16296. (IF: 3.7)

（51）Guodong Zhang, Mengting Sun, Bingjie Liu, Fei Wang*. Adsorption-induced two-way nanoconvection enhances nucleation and growth kinetics of methane hydrates in confined porespace. Chemical Engineering Journal, 2020, 396, 121256. (IF: 15.1，大类1区)

（52）Meng-Ting Sun, Yu-Zhong Zhao, Zhi-Man Yang, Xiao-Shuang Shi, Lin Wang, Meng Dai, Fei Wang* and Rong-Bo Guo*. Methane Elimination Using Biofiltration Packed With Fly Ash Ceramsite as Support Material. Frontiers in Bioengineering and Biotechnology, 2020, 8, No. 351. (IF: 5.7)

（53）Daiming Liu, Chengchao Jin, Fukai Shan*, Junjing He, Fei Wang*. Synthesizing BaTiO3 Nanostructures to Explore Morphological Influence, Kinetics, and Mechanism of Piezocatalytic Dye Degradation. ACS Applied Materials & Interfaces, 2020, 12, 17443-17451. (IF: 9.5，大类2区)

2019年度

（54）Yan He, Meng-Ting Sun, Chen Chen, Guo-Dong Zhang, Kun Chao, Yan Lin, Fei Wang*. Surfactant-based Promotion to Gas Hydrate Formation for Energy Storage. Journal of Materials Chemistry A, 2019, 7, 21634-21661. (IF: 11.9，大类2区)

（55）Yuan-Mei Song, Fei Wang*, Sheng-Jun Luo*, Rong-Bo Guo*, Dongyan Xu. Methane hydrate formation improved by water-soluble carbon nanotubes via π-π conjugated molecules functionalization. Fuel, 2019, 243, 185-191. (IF: 7.4，大类1区).

（56）Meng-Ting Sun, Zhi-Man Yang, Xiao-Lei Fan, Fei Wang*, Rong-Bo Guo*, Dong-Yan Xu. Improved methane elimination by methane-oxidizing bacteria immobilized on modified oil shale semicoke. Science of the Total Environment, 2019, 655, 915-923. (IF: 9.8，大类1区)

 2018年度

（57）Yan He, Fei Wang*. Hydrate-based CO2 capture: kinetic improvement via graphene-carried -SO₃^-and Ag nanoparticles. Journal of Materials Chemistry A, 2018, 6, 22619-22625. (IF: 11.9，大类2区)

（58）Yuan-Mei Song^#，Fei Wang^#, Gang Guo, Shengjun Luo*, Rongbo Guo*. Energy-efficient storage of methane in the formed hydrates with metal nanoparticles-grafted carbon nanotubes as promoter. Applied Energy, 2018, 224, 175-183. (IF: 11.2，大类1区)

（59）Fei Wang^#, Yuan-Mei Song^#, Guoqiang Liu, Gang Guo, Shengjun Luo*, Rongbo Guo*. Rapid methane hydrate formation promoted by Ag&SDS-coated nanospheres for energy storage. Applied Energy, 2018, 213, 227-234. (IF: 11.2，大类1区)

（60）Gang Guo^#, Fei Wang^#, Guo-Qiang Liu, Sheng-Jun Luo, Rong-Bo Guo*. Calculation on the phase equilibrium and critical temperature of CH4/CO2. Process Safety and Environmental Protection. 2018, 113, 369-377. (IF: 7.8，大类2区)

 2017年度

（61）Fei Wang, Gang Guo, Shengjun Luo*, Rongbo Guo*. Grafting of nano-Ag particles on -SO₃^--coated nanopolymers for promoting methane hydrate formation. Journal of Materials Chemistry A, 2017, 5, 18486-18493. (IF: 11.9, 大类2区, 内封面论文)

（62）Fei Wang, Gang Guo, Shengjun Luo*, Rongbo Guo*. Preparation of -SO₃^--coated nanopromoters for methane hydrate formation: effects of the existence pattern of -SO₃^-groups on the promotion efficiency. Journal of Materials Chemistry A, 2017, 5, 2640-2648. (IF: 11.9，大类2区)

（63）Yuan-Mei Song^#, Fei Wang^#, Gang Guo, Shengjun Luo*, Rongbo Guo*. Amphiphilic-Polymer-Coated Carbon Nanotubes as Promoters for Methane Hydrate Formation. ACS Sustainable Chemistry & Engineering, 2017, 5, 9271-9278. (IF: 8.4, 大类1区)

（64）Fei Wang^#*, Han-Lin Meng^#, Gang Guo, Shengjun Luo*, Rongbo Guo*. Methane Hydrate Formation Promoted by -SO₃^--coated Graphene Oxide Nano-sheets. ACS Sustainable Chemistry & Engineering. 2017,5, 6597-6604.(IF: 8.4, 大类1区)

（65）Fei Wang, Gang Guo, Shengjun Luo*, Rongbo Guo*. Π-π conjugated molecule-based self-assembly of surfactants for promoting methane hydrate formation. ACS Sustainable Chemistry & Engineering,2017, 5, 1408-1415. (IF: 8.4，大类1区)

（66）Guo-Qiang Liu^#, Fei Wang^#, Sheng-Jun Luo, Dong-Yan Xu*, Rong-Bo Guo. Enhanced methane hydrate formation with SDS-coated Fe3O4 nanoparticles as promoters. Journal of Molecular Liquids, 2017, 230, 315-321. (IF: 6.0，小类1区)

2016年度

（67）Fei Wang, Guo-Qiang Liu, Han-Lin Meng, Gang Guo, Shengjun Luo*, Rongbo Guo*. Improved methane hydrate formation and dissociation with nanospheres-based fixed surfactants. ACS Sustainable Chemistry & Engineering, 2016, 4, 2107-2113. (IF: 8.4，大类1区)

（68）Fei Wang, Shan-Fei Fu, Gang Guo, Zhen-Zhen Jia, Sheng-Jun Luo*, Rong-Bo Guo*. Experimental study on hydrate-based CO₂ removal from CH₄/CO₂ mixture. Energy, 2016, 104, 76-84. (IF: 9，大类1区)

（69）Fei Wang, Gang Guo, Guo-Qiang Liu, Sheng-Jun Luo*, Rong-Bo Guo*. Effects of surfactant micelles and surfactant-coated nanospheres on methane hydrate growth pattern. Chemical Engineering Science, 2016, 144, 108-115. (IF: 4.7，大类2区)

 2015年度

（70）Fei Wang, Lin Wang, Chuanshui Wang, Gang Guo, Guoqiang Liu, Shengjun Luo*, Rongbo Guo*. Direction Controlled Methane Hydrate Growth. Crystal Growth & Design, 2015, 15, 5112-5117. (IF: 3.2，小类1区)

（71）Fei Wang, Zhen-Zhen Jia, Sheng-Jun Luo, Shan-Fei Fu, Lin Wang, Xiao-Shuang Shi, Chuan-Shui Wang, Rong-Bo Guo. Effects of different anionic surfactants on methane hydrate formation. Chemical Engineering Science, 2015, 137, 896-903. (IF: 4.7，大类2区)

（72）Fei Wang, Sheng-Jun Luo*, Shan-Fei Fu, Zhen-Zhen Jia, Meng Dai, Chuan-Shui Wang and Rong-Bo Guo*. Methane hydrate formation with surfactants fixed on the surface of polystyrene nanospheres. Journal of Materials Chemistry A,2015, 3, 8316-8323. (IF: 11.9，大类2区，JMCA Hot paper)

2014年度

（73）Fei Wang, KuanJun Fang. Effect of molecular structures of Gemini and polymerizable emulsifiers on cationic emulsion copolymerization of styrene and butyl acrylate. Colloid and Polymer Science, 2014, 292, 1449-1455. (IF: 2.4)

（74）Fei Wang, KuanJun Fang. Adsorption of cationic nanospheres on cotton fibers: the effect of emulsifiers used in the cationic emulsion polymerization. Colloid and Polymer Science, 2014, 292, 2375-2383. (IF: 2.4)

（六）专著

（1）Wang, F., Sum, A.K., Liu, B., Von Solms N., eds. Recent Advances in Promoters for Gas Hydrate Formation. Lausanne: Frontiers Media SA. 2021, Doi: 10.3389/978-2-88971-132-1.

（七）授权发明专利

（1）王飞，陈宸，张国栋，巢昆，孙梦婷. 一种以NGH为媒介的LNG调峰方法，发明专利，专利号：ZL201910790461.6，授权日期：2024.7.9.

（2）王飞，孙梦婷，李畅. 高效稳定的水凝胶基气体水合物促进剂的制备方法，发明专利，专利号：ZL202211334691.X，授权日期：2023.10.24.

（3）王飞，陈宸，苑浩渝. 一种连续式水合物法海水淡化装置及方法，发明专利，专利号：ZL202210578866.5，授权日期：2023.8.29.

（4）王飞，张永涛，陈福林. 一种喷淋式水合物连续反应装置，发明专利，专利号：ZL202110339614.2，授权日期：2022.6.24；

（5）王飞，孙梦婷，张国栋，陈宸. 一种具有稳定溶液分散性的二维纳米磁子制备方法，发明专利，专利号：ZL201911020600.3，授权日期：2021.8.10.

（6）王飞，张国栋. 一种伴生气回收处理装置和方法，发明专利，专利号：ZL202010730978.9，授权日期：2021.7.27；

（7）王飞，孙梦婷，张国栋，陈宸. 一种具有稳定溶液分散性的球形纳米磁子及其制备方法，发明专利，专利号：ZL201911020524.6，授权日期：2021.7.9.

（8）王飞，张国栋. 一种水合物生产-输运一体式连续反应装置，发明专利，专利号：ZL202010993795.6，授权日期：2021.3.12；

（9）王飞，何燕，刘丽，陈宸. 天然气水合物纳米促进剂及其制备方法，发明专利，专利号：ZL201811133374.5，授权日期：2021.1.19。

（八）奖励及荣誉

   （1）2024年入选新疆自治区天池英才特聘专家

   （2）2024年获中国化工学会科学技术奖基础研究成果奖二等奖（1/5）

   （3）2023年获青岛市“五一劳动奖章”

   （4）2023年获中国产学研合作创新成果奖-优秀奖（4/10）

   （5）2022年入选山东省泰山学者青年专家

   （6）2022年获国际Vebleo学会科学家奖（Vebleo Scientist Award）

   （7）2021年获中国可再生能源学会优秀青年科技人才

   （8）2021年获国际先进材料学会青年科学家奖（IAAM Young Scientist Medal）

   （9）2021年入选国际先进材料学会会士（IAAM Fellow）

   （10）2021年入选国际Vebleo学会会士（Vebleo Fellow）

   （11）2021年获第十届中国创新创业大赛江苏赛区优秀团队奖（1/5）

（九）学术兼职

（1）SCI 期刊Frontiers in Energy Research，Associate editor；

（2）SCI 期刊Frontiers in Chemistry，Guest editor；

（3）ESCI期刊Clean Energy，青年编委；

（4）高起点新刊Green Carbon，青年编委；

（5）核心期刊《中国海洋平台》编委会副主任委员；

（6）国家自然科学基金/博士后基金网评专家；

（7）中国可再生能源学会天然气水合物专委会委员；

（8）深圳市天然气水合物重点实验室学术委员会委员。