1997.9-2003.3 浙江大学化学专业 获理学博士； 2003.3-2005.3 浙江大学材料科学与工程学科博士后； 2005.7- 浙江大学化学系副教授; 2007.4- 浙江大学化学系硕士生导师； 2014.6- 浙江大学化学系博士生导师； 专利成果 [1] 一种复合抗氧化剂及其制备方法和应用, 发明专利, 中国, CN 114410355 B, 2023-03-24. [2] 一种用于评价催化剂催化性能的装置, 发明专利, 中国, CN 107941986 B, 2020-05-29. [3] Pt M‑ZSM‑5分子筛在飞行器燃油箱惰化防爆中的应用, 发明专利, 中国, CN 107913728 B, 2020-03-31. [4] 一种纳米催化剂在含水乳状碳氢燃料中原位催化重整的应用, 发明专利, 中国, CN 116924330 B, 2024-08-16. [5] 一种改善燃料氧化性能的抗氧剂及其应用, 发明专利, 中国, CN 115449410 B, 2024-08-16. [6] 利用双功能超支化型表面活性剂对油水两相体系乳化/破乳的方法, 发明专利, 中国, CN 115584279 B, 2023-11-17. [7] 利用双亲性超支化聚缩水甘油醚对乳状液进行破乳的方法, 发明专利, 中国, CN 115595173 B, 2023-11-17. [8] 一种改善燃料氧化与裂解性能的功能性大分子及应用, 发明专利, 中国, CN 114605657 B, 2023-04-07. [9] 一种双亲性超支化聚合物及其制备和应用, 发明专利, 中国, CN109503833 B, 2021-06-25. [10] 一种对水包油型乳状液进行破乳的方法（超支化聚酰胺胺型）, 发明专利, 中国, CN109364530 B, 2020-11-24. [11] 一种受阻酚改性的聚乙烯亚胺类大分子抗氧剂及应用, 发明专利, 中国, CN 110358084 B, 2020-11-10,. [12] 一种双亲性超支化聚合物及其制备和应用（超支化聚乙烯亚胺型）, 发明专利, 中国, CN 109517169 B, 2020-03-31. [13] 利用双亲性超支化聚酰胺胺对水包油型乳状液进行破乳的方法, 发明专利, 中国, CN 109575280 B, 2020-03-17. [14] 一种对水包油型乳状液进行破乳的方法（超支化聚乙烯亚胺型）, 发明专利, 中国, CN 109370635 B, 2019-11-08. [15] 利用双亲性超支化聚乙烯亚胺对水包油型乳状液进行破乳的方法, 发明专利, 中国, CN 109294618 B, 2019-10-18. [16] 以二亚乙基三胺为起始剂的超支化聚合物的制备方法及应用, 发明专利, 中国, CN 106565967 B, 2019-10-15. [17] 以丙二胺为起始剂的超支化聚合物的制备方法及应用, 发明专利, 中国, CN 106565968 B, 2019-10-15. [18] 烃类原料蒸汽热裂解的方法, 发明专利, 中国, CN 107814675 A，2018-03-20. [19] 具有高热沉的碳氢燃料组合物，发明专利, 中国, CN 104059697 B，2016-01-20. [20] 一种1,4-二甲基-1-烷基哌嗪离子液体、制备方法及其应用，发明专利, 中国, CN 103709123 B，2015-05-20. [21] 一种1-乙基-4-烷基哌嗪离子液体、制备方法及其应用，发明专利, 中国, CN 103772300 B，2015-04-29. [22] 间杯芳烃包合纳米镍催化剂及其制备，发明专利, 中国, CN 101856627 B，2011-11-23.

高能量密度液体推进剂化学 超分子-金属氢化物主客体识别体系设计 催化裂解、催化燃烧研究

[1] Shu Yan, Pengfei Jiang, Xinghong Zhang, Yitong Dai, Bin Sun, Yongsheng Guo*, Wenjun Fang*，Advancing oil-water separation: Design and efficiency of amphiphilic hyperbranched demulsifiers, J. Colloid Interf Sci., 2025, 677, 583. [2] Yitong Dai, Dan Li, Peilun Wang, Yongsheng Guo*, Ji Mi, Wenjun Fang, A calixarene antioxidant C-undecylcalix[4]resorcinarene for endothermic hydrocarbon fuels, Fuel, 2024, 357, 129852. [3] Yitong Dai, Chongkun Shao, Xinyang Chen, Shu Yan, Yongsheng Guo*, Ji Mi*, Wenjun Fang, Calixarene-capped platinum nanofluid for pseudohomogeneous catalytic cracking and heat sink enhancement of ethylcyclohexane, ACS Appl. Nano Mater. 2024, 7, 976. [4] Shu Yan, Pengfei Jiang, Xinghong Zhang, Yongsheng Guo*, Wenjun Fang*，Cryogenic efficient phase separation of oil–water emulsions with amphiphilic hyperbranched poly(amido-amine)，J. Mater. Chem. A，2023，11，14145. [5] Ji Mi, Cui Ye, Yongsheng Guo*, Wenjun Fang*, Strategical design of bridged vanillic Schiff-bases as jet fuel antioxidants, Fuel, 2023, 351, 128834. [6] Ji Mi, Pengfei Jiang, Yitong Dai, Yiran Zhang, Chongkun Shao, Hujun Xie, Yongsheng Guo*, Wenjun Fang*, Mechanistic study on oxidative degradation and deposition of exo-tetrahydrodicyclopentadiene, Fuel, 2022, 317, 123533. [7] Panxi Wu, Yitong Dai, Tong Du, Xuejiao Chen, shujun Zhao, Yongsheng Guo*, Wenjun Fang, The pyrolysis kinetics and heat exchange performance of biomass hydrocarbon pinane, Fuel, 2022, 317, 123453. [8] Dan Li*, Yitong Dai, Xuejiao Chen, Xuena Zhang, Danwei Yue, Jingying Wang, Yongsheng Guo*, Stability and catalytic activity of hyperbranched polyglycerol stabilized gold nanofluids, J. Mol. Liq., 2022, 354, 118848. [9] Jianzhou Wu, Xiaoyi Chen, Jie Fan*, Yongsheng Guo*, Wenjun Fang*, Control of Reduction Kinetics to Form Palladium Nanocubes Enables Tunable Concavity, Chem. Mater., 2020, 32, 4591. [10] Yitong Dai, Wenqi Zhao, Hujun Xie, Yongsheng Guo*, Wenjun Fang，Pyrolysis kinetics and mechanism of ethylcyclohexane, J. Anal. Appl. Pyrol., 2020, 145, 104723. [11] Dan Li*, Yitong Dai, Xuejiao Chen, Yongsheng Guo*，Stability and Thermophysical Properties of Reduced Graphene Oxide-Gold Hybrid Nanofluids，Russ J Phys Chem A，2024，98，1607. [12] 杨昱欣，雷全，陈鑫阳，戴怿童，方文军，郭永胜*，杯芳烃抗氧剂在高密度碳氢燃料JP-10中的抗氧化性能研究，燃料化学学报，2024，52，873. [13] Ji Mi, Xinyang Chen, Panxi Wu, Yitong Dai*, Yongsheng Guo*, Wenjun Fang, Low-temperature thermal oxidation of biomass jet fuel pinane, Stain Energ Fuels, 2023, 7, 5374. [14] Pengfei Jiang, Ji Mi, Chongkun Shao, Yitong Dai, Shu Yan, Yongsheng Guo*, Wenjun Fang*, Strategically Designed Hyperbranched Polyglycerol as an Efficient Integrated Additive for Hydrocarbon Fuels, J. Phys. Chem. C, 2023, 127，14645. [15] Peilun Wang, Ji Mi, Pengfei Jiang, Yitong Dai*, Yongsheng Guo*, Wenjun Fang, Densities and Viscosities for the Ternary Mixtures of n‑Undecane (1) + Butylcyclohexane (2) + 1‑Pentanol (3) and Corresponding Binaries at T = (293.15 to 333.15) K, J. Chem. Eng. Data, 2023, 68, 925. [16] Derui Jin, Ji Mi, Yongsheng Guo*, Yitong Dai*, Wenjun Fang, Evaporation and Autoignition Characteristics of JP-10 Droplets with Hyperbranched Polyester as Additive, Energies, 2023, 16, 3333. [17] 吴盼茜, 雷全, 张思怡, 戴怿童, 方文军, 郭永胜*, 吸热型碳氢燃料热稳定添加剂研究进展, 石油学报（石油加工）, 2022, 38, 2. [18] Panxi Wu, Lifeng Zhang, Shujun Zhao, Chenchen Wang, Yongsheng Guo*, Wenjun Fang, Density and Viscosity of the Ternary System Pinane + n‑Dodecane + Methyl Laurate and Corresponding Binary Systems at T = 293.15−333.15 K, J. Chem. Eng. Data, 2021, 66, 2706. [19] Wenqi Zhao, Yitong Dai, Xinxin Cheng, Sanshu Xu, Yongsheng Guo*, Wenjun Fang, All-Silicon Zeolite Supported Pt Nanoparticles for Green On-Board Inert Gas Generation System, Combust. Sci. Technol., 2021, 193, 2009. [20] Tong Du, Yitong Dai, Peilun Wang, Yongsheng Guo*, Wenjun Fang, Shujun Zhao, Densities and Viscosities of the Ternary System exo-Tetrahydrodicyclopentadiene (1) + n‑Decane (2) + 1,2,3,4- Tetrahydronaphthalene (3) and the Corresponding Binary Systems at T = (293.15−333.15) K, J. Chem. Eng. Data, 2021, 66, 1665. [21] Quan Lei, Yitong Dai, Panxi Wu, Wenjun Fang, Yongsheng Guo*, Densities and Viscosities for the Ternary System of Isopropylcyclohexane (1) + n‑Tridecane (2) + n‑Butanol (3) and Corresponding Binaries at T = 293.15 to 333.15 K, J. Chem. Eng. Data, 2020, 65, 3977. [22] Wenqi Zhao, Yitong Dai, Haiyun Sun, Yongsheng Guo*, Wenjun Fang, Densities and Viscosities for the Ternary Mixtures of exo-Tetrahydrodicyclopentadiene (1) + Isopropylcyclohexane (2) + Methyl Laurate (3) and Corresponding Binaries, J. Chem. Eng. Data, 2019, 64, 4013. [23] Mengsha Cai, Zhaoshan Liu, Haiyun Sun, Yongsheng Guo*, Wenjun Fang, Densities and viscosities for the ternary system of cyclopropanemethanol (1)+2, 2, 4-trimethylpentane (2) + decalin (3) and corresponding binaries at T=293.15-323.15 K, Phys. Chem. Liq., 2019, 57, 491. [24] Zhaoshan Liu, Mengsha Cai, Sanshu Xu, Yongsheng Guo*, Wenjun Fang, Densities and Viscosities for the Ternary System of 1,2,3,4-Tetrahydronaphthalene + Isopropylcyclohexane + Cyclopropanemethanol and Corresponding Binaries at T = (293.15 to 343.15) K, J. Chem. Eng. Data, 2018, 63, 4596-4605. [25] Jianzhou Wu, Hehe Qian, Linfang Lu, Jie Fan, Yongsheng Guo*, Wenjun Fang*, Influence of Reduction Kinetics on the Preparation of Well-Defined Cubic Palladium Nanocrystals, Inorg. Chem., 2018, 57, 8128−8136. [26] Yitong Dai, Wenqi Zhao, Haiyun Sun, Yongsheng Guo*, Wenjun Fang, Densities and Viscosities of Ternary System n‑Dodecane (1) + Bicyclohexyl (2) + n‑Butanol (3) and Corresponding Binaries at T = (293.15 to 333.15) K, J. Chem. Eng. Data, 2018, 63, 4052−4060. [27] 方文军，叶虞滢，戴怿童，糜基，张一冉，邵崇坤，郭永胜，面向吸热型碳氢燃料结焦抑制的冷却通道研究进展，推进技术，2024.7.15. [28] Chenyang Yao, Ji Mi, Pengfei Jiang, Cui Ye, Yitong Dai*, Yongsheng Guo, Wenjun Fang*, Densities and Viscosities of the Ternary Mixtures of Decalin (1) + n‑Hexadecane (2) + 1‑Butanol (3) and Corresponding Binary Systems., J. Chem. Eng. Data, 2023, 68, 869. [29] Guijin He*, Shun Li, Xiaolin Zhao, Jianmeng Cen, Kaige Wang, Yongsheng Guo, Wenjun Fang*, Thermal decomposition behaviors of an amphiphilic macroinitiator DSHPG for hydrocarbon fuel, Chem. Thermodyn. Therm. Anal., 2022, 6, 100047. [30] 白帅帅，糜 基，姚晨阳，蒋朋飞，郭永胜，方文军*, 高能量密度碳氢燃料JP-10的热裂解研究进展, 石油学报（石油加工）, 2022, 38, 4. [31] Ji Mi, Shuaishuai Bai, Lu Zhao, Guijin He, Yongsheng Guo, Hujun Xie*, Wenjun Fang*, A polyester-based initiation strategy for achieving high-efficient cracking of hydrocarbon fuels, Chem. Eng. J., 2021, 425, 128059. [32] Shun Li, Yongsheng Guo, Wenjun Fang*, Guijin He*, A sulfur-rich segmental hyperbranched polymer as a coking inhibitor for endothermic hydrocarbon fuels, Fuel, 2021, 287, 119477. [33] Pengfei Jiang, Yitong Dai, Tong Du, Yongsheng Guo, Wenjun Fang*, Densities and Viscosities for the Ternary Mixture of n‑Undecane (1) + Methyl Decanoate (2) + n‑Butanol (3) and Corresponding Binaries from T = 293.15 to 333.15 K and at Atmospheric Pressure, J. Chem. Eng. Data, 2021, 66, 3834. [34] Hehe Qian, Jianzhou Wu, Yongsheng Guo, Wenjun Fang*, PdAgPt Corner-Satellite Nanocrystals in Well-Controlled Morphologies and the Structure-Related Electrocatalytic Properties, Nanomaterials, 2021, 11, 340. [35] Shu Yan, Guijin He, Dengfeng Ye, Yongsheng Guo, Wenjun Fang *, Amphiphilic hyperbranched polyethyleneimine for highly efficient oil–water separation, J. Mater. Chem. A, 2020, 8, 2412. [36] Hehe Qian, Jianzhou Wu, Yongsheng Guo, Wenjun Fang*, Unveiling the Influence of Inherent Parameters of AgPt and AgPtAu Octahedra upon Formic Acid Electrooxidation, J. Phys. Chem. C, 2021, 125, 16984. [37 Ji Mi, Dengfeng Ye, Yitong Dai, Hujun Xie, Di Wu, Haiyun Sun, Yongsheng Guo, Wenjun Fang *, Strategically designed macromolecules as additives for high energy-density hydrocarbon fuels, Fuel, 2020, 270, 117433. [38] Xiaolin Zhao, Ji Mi, Yitong Dai, Guijin He, Yongsheng Guo, and Wenjun Fang*, Density and Viscosity Measurements on the Ternary System of exo-Tetrahydrodicyclopentadiene (1) + n‑Decane (2) + Iso-Butanol (3) and Corresponding Binary Systems, J. Chem. Eng. Data, 2020, 65, 2527. [39] 吴熙, 何桂金, 郭永胜, 方文军*, 超支化聚合物稳定的 JP⁃10 基铂纳米流体燃料的制备与催化燃烧性能, 含能材料，2020, 28(5).