方文军 照片

方文军

教授

所属大学: 浙江大学

所属学院: 化学系

邮箱:
fwjun@zju.edu.cn

个人主页:
https://person.zju.edu.cn/0094016

个人简介

1989、1994和1999年分别获浙江大学理学学士、硕士和博士学位。1998年8月晋升副教授,2003年12月晋升教授。2005年10月至2006年10月日本北海道大学学术研究员。2009.7-2017.8化学系副系主任。2013-2017教育部高等学校实验教学指导委员会委员,浙江省高等学校实验教学指导委员会委员。 现为浙江大学求是特聘教授,化学系博士生导师。 兼任国家重大科技工程专项专家组成员,中国化学会燃烧化学专业委员会副主任委员,中国化学会化学热力学与热分析专业委员会委员,中国化学会全国化学推进剂学术会议学术委员会委员等。主要面向国家战略需求,致力于推动化学新成果新方法在先进液体推进剂研制中的应用,组织带领团队承担国家重大科技工程专项任务,在吸热型碳氢燃料的清洁化、抗氧化、超临界换热、催化裂解和结焦抑制等方面取得系列创新成果。主持1项国家自然科学基金重大科研仪器研制项目,完成5项国家自然科学基金面上项目、11项国家重大科技工程专项和863项目等科研课题。先后获过国家教委科技进步奖、浙江省教委科技进步奖,合作获过浙江省科学技术奖、宁波市科技进步奖等。 兼任浙江省高等学校大学化学课程教学指导委员会主任委员。浙江省大学生化学竞赛专家委员会主任委员。曾获浙江省省级优秀教师、宝钢优秀教师奖、浙江大学永平杰出教学贡献奖等荣誉称号。先后获浙江省教学成果二等奖、特等奖,国家教学成果二等奖等。领衔普通化学(H)获2021年教育部课程思政示范课程、课程思政教学名师和团队;浙江省课程思政示范课程、课程思政示范基层教学组织等。2022年入选浙江省一流本科课程,2023年入选国家一流本科课程。 出版著作 1. 浙江省化学会编著,决胜化学奥林匹克,化学工业出版社,2021年9月,参编 2. 徐端钧,方文军,聂晶晶,沈宏,普通化学(第七版),教材,高等教育出版社,2020年2月 3. 龚钰秋,何巧红主编,新编高中化学竞赛培优教程(专题讲座)上、下册, 浙江大学出版社,2019年8月,参编 4. 浙江大学普通化学类课程组编,方文军、邵东贝、秦敏锐、何桂金,普通化学实验(第四版),教材,高等教育出版社,2019年4月 5. 陈林根,方文军,工程化学基础(ISBN 7-04-016087-0),高等教育出版社,2005年5月 6. 郑豪,方文军,新编普通化学实验(ISBN 7-03-014544-5),科学出版社,2005年6月 7. 雷群芳,方文军,王国平, 物理化学学习指导与考研指导(ISBN 7-308-03479-8/O.298),浙江大学出版社,2003年11月 8. 参加编写,雷群芳主编,中级化学实验,科学出版社,2005年6月 9. 参加编写,胡英主编,物理化学参考(ISBN 7-04-011902-1),量热学,p.45-58,高等教育出版社,2003年8月

研究领域

航空航天推进剂化学 纳米流体 燃料化学和油田化学

1.航空航天推进剂化学:新型高能量密度液体推进剂及其添加组分的合成制备和应用技术。 2.生物热化学:结合量热和光谱分析等技术研究药物酶促代谢、生物分子的相互作用。 3.界面化学:超疏水固体界面; 4.石油开采和加工用精细化学品。

近期论文

近5年发表学术论文 1. 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 317 (2022) 123533. 2. 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, Chemical Thermodynamics and Thermal Analysis, 6 (2022) 100047. 3. Hujun Xie, Fangfang Ni, Jian Gao, Chengzhi Liu, Jieyu Shi, Gerui Ren, Shiyi Tian, Qunfang Lei, Wenjun Fang, Preparation of zein-lecithin-EGCG complex nanoparticles stabilized peppermint oil emulsions: Physicochemical properties, stability and intelligent sensory analysis, Food Chemistry 383 (2022) 132453. 4. Di Wu, Fan Fei, Qi Zhang, Xia Wang, Yiwei Gong, Xiaojie Chen, Yuyi Zheng, Bei Tan, Cenglin Xu, Hujun Xie, Wenjun Fang, Zhong Chen, Yi Wang, Nanoengineered on-demand drug delivery system improves efficacy of pharmacotherapy for epilepsy, Science Advances, 8, eabm3381 (2022) 5. 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. Chemical Engineering Journal, 2021, 425: 128059. 6. 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. 7. Pengfei Jiang, Yitong Dai, Tong Du, Yongsheng Guo, and 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. Journal of Chemical & Engineering Data, 2021, 66(10): 3834–3843. 8. Xuerui Chen, Bingbing Liu, Rongliang Tong, Shiping Ding, Jian Wu, Qunfang Lei, Wenjun Fang*. Improved Stability and Targeted Cytotoxicity of Epigallocatechin-3-Gallate Palmitate for Anticancer Therapy. Langmuir, 2021, 37(2): 969–977. 9. Chengzhi Liu, Haoxin Ye, Jian Kuang, Gerui Ren, Qing Shen, Hujun Xie, Qunfang Lei,Wenjun Fang. Investigation of Interfacial Composition and Thermodynamic Stability of 14-n-14/Alcohol/Oil/Water Microemulsions by Dilution Method. Journal of Molecular Liquids, 2021, 336: 116333. 10. Hehe Qian , Jianzhou Wu , Yongsheng Guo and Wenjun Fang*. PdAgPt Corner-Satellite Nanocrystals in Well-Controlled Morphologies and the Structure-Related Electrocatalytic Properties[J]. Nanomaterials, 2021, 11(2): 340. 11. Hehe Qian, Jianzhou Wu, Yongsheng Guo, and Wenjun Fang*. Unveiling the Influence of Inherent Parameters of AgPt and AgPtAu Octahedra upon Formic Acid Electrooxidation[J]. The Journal of Physical Chemistry C, 2021, 125(31): 16984–16994. 12. Du T, Dai Y, Wang P, Guo Y, Fang W, Zhao S. 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. Journal of Chemical & Engineering Data. 2021; 66 (4): 1665-1675. 13. Wu P, Zhang L, Zhao S, Wang C, Guo Y, Fang W. Density and Viscosity of the Ternary System Pinane + n-Dodecane + Methyl Laurate and Corresponding Binary Systems at T = 293.15–333.15 K. Journal of Chemical & Engineering Data. 2021; 66(7): 2706-2716. 14. Yan S, He G, Ye D, Guo Y. and Fang W. Amphiphilic hyperbranched polyethyleneimine for highly efficient oil–water separation. Journal of Materials Chemistry A, 2020;8(5): 2412-2423. 15. Mi J, Ye D, Dai Y, Xie H, Wu D, Sun H, Guo Y, Fang W. Strategically designed macromolecules as additives for high energy-density hydrocarbon fuels. Fuel 2020; 270: 117433. 16. Wu D, Zhou J, Chen X, Chen Y, Hou S, Qian H, Fang W. Mesoporous polydopamine with built-in plasmonic core: Traceable and NIR triggered delivery of functional proteins. Biomaterials. 2020; 238: 119847. 17. Dai Y, Zhao W, Xie H., Guo Y, Fang W. Pyrolysis kinetics and mechanism of ethylcyclohexane. Journal of Analytical and Applied Pyrolysis. 2020; 145: 104723. 18. Zhao X, Mi J, Dai Y, He G, Guo Y, and Fang W. Density and Viscosity Measurements on the Ternary System of exo-Tetrahydrodicyclopentadiene (1) + n-Decane (2) + iso-Butanol (3) and Corresponding Binary Systems, Journal of Chemical & Engineering Data. 2020; 65(5): 2527-2539. 19. Wu D, Chen X, Zhou J, Chen Y, Wan T, Wang Y, Lin A, Ruan Y, Chen Z, Song X, Fang W. A synergistic optical strategy for enhanced deep-tumor penetration and therapy in the second near-infrared window. Materials Horizons. 2020; 7(11): 2929-35. 20. Qin X, Yang S, Chen Y, Qin X, Zhao J, Fang W, Luo D. Thermal Conductivity and Stability of Hydrocarbon-Based Nanofluids with Palladium Nanoparticles Dispersed by Modified Hyperbranched Polyglycerol. ACS Omega. 2020 Nov 23. 21. Wu J, Chen X, Fan J, Guo Y, Fang W. Control of Reduction Kinetics to Form Palladium Nanocubes Enables Tunable Concavity. Chemistry of Materials. 2020 May 22. 22. Qin X, Chen Y, Yang S, Qin X, Zhao J, Fang W. Correction to “Density, Viscosity, and Refractive Index for Binary Mixtures of Three Adamantane Derivatives with n-Nonane or i-Undecane at T= 293.15–343.15 K and Atmospheric Pressure”. Journal of Chemical & Engineering Data. 2020; 65(10): 5068-70. 23. Zhao W, Dai Y, Cheng X, Xu S, Guo Y, Fang W. All-Silicon Zeolite Supported Pt Nanoparticles for Green on-Board Inert Gas Generation System. Combustion Science and Technology. 2020; 6: 1-4. 24. Ye D, Mi J, Bai S, Zhang L, Guo Y, Fang W. Thermal cracking of jet propellant-10 with the addition of a core-shell macroinitiator. Fuel 2019; 254: 115667. 25. Ye D, Zhao L, Bai S, Guo Y, Fang W. New Strategy for High-Performance Integrated Catalysts for Cracking Hydrocarbon Fuels. ACS applied materials & interfaces 2019; 11(43): 40078-90. 26. Wu D, Chen Y, Hou S, Fang W, Duan H. Intracellular and Cellular Detection by SERS-Active Plasmonic Nanostructures. Chembiochem 2019; 20(19): 2432-41. 27. Wu X, Chen X, Jin S, He G, Guo Y, Fang W. Highly stable macroinitiator/platinum/hydrocarbon nanofluids for efficient thermal management in hypersonic aircraft from synergistic catalysis. Energy Conversion and Management 2019; 198. 28. Wu X, Ye D, Jin S, He G, Guo Y, Fang W. Cracking of platinum/hydrocarbon nanofluids with hyperbranched polymer as stabilizer and initiator. Fuel 2019; 255. 29. Lu X, Xie H, Lei Q, Fang W. A combined experimental and theoretical study on the structures, interactions and volumetric properties of guanidinium-based ionic liquid mixtures. Physical Chemistry Chemical Physics 2019; 21(32): 17720-8. 30. Dai Y, Zhao W, Xie H, Guo Y, Fang W. Pyrolysis Kinetics and Mechanism of Ethylcyclohexane. J Anal Appl Pyrolysis 2019: 104723. 31. Cai M, Liu Z, Sun H, Guo Y, Fang W. 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. Physics and Chemistry of Liquids 2019; 57(4): 491-503. 32. Chen X, Jin S, Dai Y, Wu J, Guo Y, Lei Q, et al. Densities and Viscosities for the Ternary System of Decalin plus Methylcyclohexane plus Cyclopentanol and Corresponding Binaries at T=293.15 to 343.15 K. Journal of Chemical and Engineering Data 2019; 64(4):1414-24. 33. Jin S, Wu X, Dai Y, Guo Y, Fang W. Densities and Viscosities for the Ternary System of exo-Tetrahydrodicyclopentadiene (1) + Methylcyclohexane (2) + Cyclopropanemethanol (3) and Its Binaries at T=293.15 to 333.15 K. Journal of Chemical and Engineering Data 2018; 63(9): 3534-44. 34. Lu X, Xie H, Lei Q, Fang W. Densities and viscosities of binary mixtures of 2,2-diethyl-1,1,3,3-tetramethylguanidinium bis(trifluoromethylsulfonyl)imide with methanol and ethanol. Journal of Chemical Thermodynamics 2019; 136: 44-53. 35. Zhao L, Ye D, Guo Y, Fang W. Density and Viscosity of Ternary Mixture of Cyclopentanol plus exo-Tetrahydrodicyclopentadiene+1,3-Dimethyladamantane. Journal of Chemical and Engineering Data 2019; 64(6): 2558-67. 36. Zhao W, Dai Y, Sun H, Guo Y, Fang W. Densities and Viscosities for the Ternary Mixtures of exo-Tetrahydrodicyclopentadiene (1) + Isopropylcyclohexane (2) + Methyl Laurate (3) and Corresponding Binaries. Journal of Chemical and Engineering Data 2019; 64(9): 4013-23. 37. Liu Z, Cai M, Xu S, Guo Y, Fang W. Densities and Viscosities for the Ternary System of 1,2,3,4-Tetrahydronaphthalene plus Isopropylcyclohexane plus Cyclopropanemethanol and Corresponding Binaries at T=293.15 to 343.15 K. Journal of Chemical and Engineering Data 2018; 63(12): 4596-605. 38. Chen X, Shi Z, Tong R, Ding S, Wang X, Wu J, et al. Derivative of Epigallocatechin-3-gallatea Encapsulated in ZIF-8 with Polyethylene Glycol-Folic Acid Modification for Target and pH-Responsive Drug Release in Anticancer Research. Acs Biomaterials Science & Engineering 2018; 4(12): 4183-92. 39. Wu J, Qian H, Lu L, Fan J, Guo Y, Fang W. Influence of Reduction Kinetics on the Preparation of Well-Defined Cubic Palladium Nanocrystals. Inorganic Chemistry 2018; 57(14): 8128-36. 40. Zhang L, Ying H, Yan S, Zhan N, Guo Y, Fang W. Hyperbranched poly(amido amine) demulsifiers with ethylenediamine/1,3-propanediamine as an initiator for oil-in-water emulsions with microdroplets. Fuel 2018; 226: 381-8. 41. Shi Z, Chen X, Zhang L, Ding S, Wang X, Lei Q, et al. FA-PEG decorated MOF nanoparticles as a targeted drug delivery system for controlled release of an autophagy inhibitor. Biomaterials Science 2018; 6(10). 42. Zhang L, Ying H, Yan S, Zhan N, Guo Y, Fang W. Hyperbranched poly(amido amine) as an effective demulsifier for oil-in-water emulsions of microdroplets. Fuel 2018; 211:197-205. 43. Dai Y, Zhao W, Sun H, Guo Y, Fang W. 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. Journal of Chemical and Engineering Data 2018; 63(11): 4052-60.