嚴啟龍,男,博士,西北工業大學航天學院教授。
基本介紹
- 中文名:嚴啟龍
- 學位/學歷:博士
- 職業:教師
- 專業方向:航空宇航科學-航空宇航推進理論與工程
- 任職院校:西北工業大學
個人經歷,主講課程,研究方向,學術成果,榮譽獎項,
工作經歷 Work Experience
2017.2-至今: 西北工業大學,航天學院,教授,博士生導師
2015.6–2017.1: 以色列特拉維夫大學,化學譽兆她工程學院,博士後
2008.4–2011.9: 中國兵器第四研究院,固體火箭動力技術研究所,工程師
(1)本科生課程:本科生專業基礎課《航天推進理論基礎》(推進劑及熱化學部分)、本科生專業必修課《Structural Characterization》(瑪麗女王工程學院)、留學生專業課《Rocket Propulsion Technology》(Propellants and Thermochemistry)、專業選修課《航天動力前沿講座》(含能材料與推進劑方向)等
(2)研究生課程:主講碩士生核心專業必修課《含能材料與推進劑》、主講碩士生專業選修課《推進劑燃燒熱化學》、協助博士生專業煉墓嬸轎基礎課《燃燒化學》
(1)高能材料的表界面改性及套用
(2)鈍感納米金屬基含能材料的製備及套用背厚束
(3)推進劑熱反應活性及催化燃燒特性
(4)自燃型離子液體催化點火及燃燒機理
(5)XX特種推進劑(燃料)的創製及套用
部分在研主持課題
(1) 自然基金面上項目,51776176,石去套墨烯基含能配位聚合物對複合推進劑熱分解及燃燒的催化機理,2018/01-2021/12,在研,60萬人民幣,主持
(2) 軍委裝發部科研訂購局“十三五”裝備戀櫃連烏預研領域基金,61407200204,高能固體推進劑安全性調控機理及控制方法研究,2019/01-2020/12,在研,50萬人民幣,主持
(3) 軍委科技委前沿探索H863課題,XXX20190103,XX特種推進劑的創製及燃燒機理研究,2018/10-2020/07,在研,300萬人囑影重民幣,主持
(4)科工局XX重大專項子課題,XXX耐熱含能分子的熱穩定物理化學機制,2019/10-2021/10,在研,80萬人民幣,主持
(5)中組部人才基金,高能鈍感火箭燃料的設計製備及燃燒性能研究,2017/06-2022/6,在研,400萬人民幣,主持
(6)軍委裝備發展部科研訂購局“十三五”裝備預研基金-共用技術,41420060201,新型高能燃料嬸烏騙合成與套用技術,2017/09-2020/09,在研,200萬人民幣,分承研-主持
近五年代表論文
(1) Z.-H. Xue, X.-X. Zhang, B.-B. Huang, X. Bai, L.-Y. Zhu, S. Chen, Q.-L. Yan*, The structural diversity of hybrid qy-HMX crystals with constraint of 2D dopants and the resulted changes in thermal reactivity, Chem Eng J, 2020, 390, 124565. DOI: 10.1016/j.cej.2020.124565 (中科院1區, IF=10.9)
(2) Lyu, J.-Y., Yu, J.-H., Tang, D.-Y., He, W., Tao, B.-W., Guo, X., Q.-L. Yan*, Unexpected burning rate independence of composite propellants on the pressure by fine interfacial control of fuel/oxidizer, Chem Eng J, 2020, 388, 124320. DOI: 10.1016/j.cej.2020.124320 (中科院1區, IF=10.9)
(3) B. Huang, Z. Xue, S. Chen, J. Chen, X. Li, K.Z. Xu, Q.-L. Yan*, Stabilization of ε-CL-20 crystals by a minor interfacial doping of polydopamine-coated graphene oxide, Appl Surf Sci, 2020, 510, 145454. DOI: 10.1016/j.apsusc.2020.145454(中科院1區, IF=5.9)
(4) S. Hanafi, D. Trache, W. He, W.-X. Xie, A. Mezroua, Q.-L. Yan*, Thermostable Energetic Coordination Polymers Based on Functionalized GO and Their Catalytic Effects on the Decomposition of AP and RDX, J Phys Chem C, 2020, 124 (9), pp. 5182-5195. DOI: 10.1021/acs.jpcc.9b11070 (中科院2區, IF=4.5)
(5) C. Huang, Z. Yang, Y.C. Li, B.H. Zheng, Q.-L. Yan, L. Guan, G. Luo, S.B. Li, F. Nie, Incorporation of high explosives into nano-aluminum based microspheres to improve reactivity, Chem Eng J, 2020, 383, 123110.
(6) D.-Y. Tang, J.-Y. Lyu, W. He, J. Chen, G.C. Yang, P.-J. Liu, Q.-L. Yan*,Metastable Intermixed Core-shell Al@M(IO3)x Nanocomposites with Improved Combustion Efficiency by Using Tannic Acid as a Functional Interfacial Layer, Chem Eng J, 2020, 384, 123369. (中科院1區, IF=10.9)
(7) W. He, Z.H. Li, S.W. Chen, G.C. Yang, Z.-J. Yang, Z.Q. Guo, P.-J. Liu, Q.-L. Yan*, Energetic Metastable n-Al@PVDF/EMOF Composite Nanofibers with Improved Combustion Performances, Chem Eng J, 2020, 383, 123146.(中科院1區, IF=10.9)
(8) W. He, W. Ao, G.C. Yang, Z.-J. Yang, Z.Q. Guo, P.-J. Liu*, Q.-L. Yan*, Metastable Energetic Nanocomposites of MOF-activated Aluminum Featured with Multi-Level Energy Releases, Chem Eng J, 2020, 381, 122623..(中科院1區, IF=10.9)
(9) D.-Y. Tang, S.-W. Chen, X.-L. Liu, W. He, G.C. Yang, P.J. Liu*, M. Gozin*, Q.-L. Yan*, Controlled Reactivity of Metastable n-Al@Bi(IO3)3 by Employment of Tea Polyphenols as an Interfacial Layer, Chem Eng J, 2020, 381, 122747..(中科院1區, IF=10.9)
(10) S.-W. Chen, W. He, C.-J. Luo, T. An, J. Chen, Y. Yang, P.-J. Liu, Q.-L. Yan*, Thermal Behavior of Graphene Oxide and its Stabilization Effects on Transition Metal Complexes of Triaminoguanidine, J Hazard Mater, 2019, 368, 404–411. (中科院1區,IF=7.7)
(11) Q.-L. Yan*, Z. Yang, X. Zhang, J. Lyu, W. He, S. Huang, P. Liu, C. Zhang, Q. Zhang, G. He and F. Nie, High Density Assembling of Energetic Molecules under Constraint of Defected 2D Materials, J Mater Chem A,2019, 7, 17806-17814. (中科院1區,IF=10.7)
(12) W. He, B.-W. Tao, B. Z.-J. Yang, G.C. Yang, X. Guo, P.-J. Liu, Q.-L. Yan*, Mussel-Inspired Polydopamine-directed Crystal Growth of Core-shell n-Al@PDA@CuO Metastable Intermixed Composites, Chem Eng J, 2019, 369, 1093–1101. (中科院1區,IF=10.9)
(13) J.-Y. Lyu, S. Chen, W. He, X.-X. Zhang, D.-Y. Tang, P.-J. Liu, Q.-L. Yan*, Fabrication of High-Performance Graphene Oxide doped PVDF/CuO/Al Nanocomposites via Electrospinning, Chem Eng J, 2019, 368,129–137. (中科院1區,IF=10.9)
(14) W. He, P.-J. Liu, F.-Y. Gong, B.W. Tao, J. Gu, Z.-J. Yang, Q.-L. Yan*, Tuning the Reactivity of Metastable Intermixed Composite n-Al/PTFE by Polydopamine Interfacial Control, ACS Appl Mater Interfaces, 2018, 10(38), 32849-32858. (中科院1區,IF=8.7)
(15) A.K. Chinnam, N. Petrutik, K.-C. Wang, A. Shlomovich, O. Shamis, D. Shem Tov, M. Suceska, Q.-L. Yan*, R. Dobrovetsky, M. Gozin*, Effects of closo-Icosahedral Periodoborane Salts on Hypergolic Reaction of 70% H2O2 with Energetic Ionic Liquid. J Mater Chem A, 2018, 6(41), 19989-19997. (中科院1區,已選為封面文章,IF=10.7)
(16) A.K. Chinnam, A. Shlomovich, O. Shamis, N. Petrutika, D. Kumara, K. Wanga, E.P. Komaralab, D. Shemtova, M. Suceska, Q.-L. Yan*, M. Gozin*. Combustion of Energetic Iodine-rich Coordination Polymer-Engineering of New Biocidal Materials. Chem Eng J, 2018, 350, 1084-1091. (中科院1區, IF=10.9)
(17) W. He, P.J. Liu, G.Q. He, M. Gozin, Q.-L. Yan*, Highly Reactive Metastable Intermixed Composites (MICs): Preparations and Characterizations. Adv Mater, 2018, 30(41), 1706293. (中科院1區,IF=23.8, 特邀綜述)
(18) Q.-L. Yan*, P.-J. Liu, A. F. He, et al. Photosensitive but mechanically insensitive graphene oxide-carbohydrazide-metal hybrid crystalline energetic nanomaterials. Chem Eng J. 2018, 338(15) 240-247. (中科院1區,IF=10.9)
(19) Q.-L. Yan*, A. Cohen, A. K. Chinnam, N. Petrutik, A. Shlomovich, L. Burstein, M. Gozin*, Layered 2D Triaminoguanidine-Glyoxal Polymer and Its Transition Metal Complexes, as Novel Insensitive Energetic Nanomaterials, J Mater Chem A, 2016, 4, 18401-18408. (中科院1區, IF=10.7)
(20) Q.-L. Yan*, F.-Q. Zhao*, Kenneth K. Kuo, X.-H. Zhang, S. Zeman, Luigi T. DeLuca, Catalytic Effects of Nano Additives on Decomposition and Combustion of RDX-, HMX-, and AP-Based Energetic Compositions, Prog Energ Combust Sci, 2016, 57, 75–136. (中科院1區, IF=29., 特邀綜述)
(21) Q.-L. Yan, A. Cohen, N. Petrutik, A. Shlomovich, J.-G. Zhang, M. Gozin*, Formation of Highly Thermostable Copper-Containing Energetic Coordination Polymers Based on Oxidized Triaminoguanidine, ACS Appl. Mater. Interfaces, 2016, 8,33, 21674–21682. (中科院1區, IF=8.7)
(22) Cohen, Y.-Z. Yang, Q.-L. Yan*, et al., Highly Thermostable and Insensitive Energetic Hybrid Coordination Polymers Based on Graphene Oxide-Cu(II) Complex, Chem Mater, 2016, 28 (17), 6118–6126. (中科院1區, IF=10.2)
(23) Q.-L. Yan, N. Petrutik, A. Shlomovich, L. Burstein, S.-P. Pang, M. Gozin*, Coordination Nanomaterials Based on Functionalized Graphene Oxides, J Mater Chem A 108(10), 2016, 111-117.(中科院1區, IF=10.7)
(24) Q.-L. Yan, W. A. Trzciński, S. Cudzilo, J. Paszula, T. Eugen, M. Liviu, R. Traian, M. Gozin* , Thermobaric effects formed by aluminium foils enveloping cylindrical charges, Combust Flame, 2016, 166(1),148-157. (中科院1區, IF=4.1)
(25) Q.-L. Yan, M. Gozin*, F.-Q. Zhao, A. Cohen, S.-P. Pang, High energetic compositions based on functionalized carbon nanomaterials, Nanoscale, 2016, 8, 4799-851. (中科院1區, IF=7.2, ESI高被引)
受理授權專利
(1) XXX高燃速改性雙基推進劑,ZL201110014267.2,2014-7-16;(GF專利,已授權)
(2) CL-20超細化處理方法,ZL201110014442.8,2014-7-16;(發明專利,已授權)
(3) XXX改性雙基推進劑,ZL201418003494.X,2014-7-25;(GF專利,已授權)
(4) XXX混合溶液配置方法,ZL201418004452.8,2014-9-10;(GF專利,已授權)
(5) 石墨烯基碳醯肼金屬配合物晶體含能材料及其製備方法, 2017, ZL201710104307.X (發明專利,已授權).
(6) 一種摻雜改性硝銨炸藥晶體的製備方法, 2018, CN201810242628.0 (發明專利,已受理).
(7) 金屬有機框架材料改性納米金屬顆粒的製備方法, 2018, CN201811365411.5 (發明專利,已受理)
(8) 一種聚基於多巴胺界面調控硝胺炸藥改性鋁粉及製備方法,2019,CN201910020312.1 (發明專利,已受理)
(9) 聚合物基複合含能材料包覆改性納米金屬顆粒的製備方法,2019,CN201910671433.2 (發明專利,已受理)
(1)2014年4月,獲得留學基金委“優秀自費留學生獎”;
(2)2015年5月,獲得捷克帕爾杜比采大學 “優秀博士論文獎”;
(3)2015年7月,獲得以色列特拉維夫大學納米科學中心優秀博士後獎學金
(2) Lyu, J.-Y., Yu, J.-H., Tang, D.-Y., He, W., Tao, B.-W., Guo, X., Q.-L. Yan*, Unexpected burning rate independence of composite propellants on the pressure by fine interfacial control of fuel/oxidizer, Chem Eng J, 2020, 388, 124320. DOI: 10.1016/j.cej.2020.124320 (中科院1區, IF=10.9)
(3) B. Huang, Z. Xue, S. Chen, J. Chen, X. Li, K.Z. Xu, Q.-L. Yan*, Stabilization of ε-CL-20 crystals by a minor interfacial doping of polydopamine-coated graphene oxide, Appl Surf Sci, 2020, 510, 145454. DOI: 10.1016/j.apsusc.2020.145454(中科院1區, IF=5.9)
(4) S. Hanafi, D. Trache, W. He, W.-X. Xie, A. Mezroua, Q.-L. Yan*, Thermostable Energetic Coordination Polymers Based on Functionalized GO and Their Catalytic Effects on the Decomposition of AP and RDX, J Phys Chem C, 2020, 124 (9), pp. 5182-5195. DOI: 10.1021/acs.jpcc.9b11070 (中科院2區, IF=4.5)
(5) C. Huang, Z. Yang, Y.C. Li, B.H. Zheng, Q.-L. Yan, L. Guan, G. Luo, S.B. Li, F. Nie, Incorporation of high explosives into nano-aluminum based microspheres to improve reactivity, Chem Eng J, 2020, 383, 123110.
(6) D.-Y. Tang, J.-Y. Lyu, W. He, J. Chen, G.C. Yang, P.-J. Liu, Q.-L. Yan*,Metastable Intermixed Core-shell Al@M(IO3)x Nanocomposites with Improved Combustion Efficiency by Using Tannic Acid as a Functional Interfacial Layer, Chem Eng J, 2020, 384, 123369. (中科院1區, IF=10.9)
(7) W. He, Z.H. Li, S.W. Chen, G.C. Yang, Z.-J. Yang, Z.Q. Guo, P.-J. Liu, Q.-L. Yan*, Energetic Metastable n-Al@PVDF/EMOF Composite Nanofibers with Improved Combustion Performances, Chem Eng J, 2020, 383, 123146.(中科院1區, IF=10.9)
(8) W. He, W. Ao, G.C. Yang, Z.-J. Yang, Z.Q. Guo, P.-J. Liu*, Q.-L. Yan*, Metastable Energetic Nanocomposites of MOF-activated Aluminum Featured with Multi-Level Energy Releases, Chem Eng J, 2020, 381, 122623..(中科院1區, IF=10.9)
(9) D.-Y. Tang, S.-W. Chen, X.-L. Liu, W. He, G.C. Yang, P.J. Liu*, M. Gozin*, Q.-L. Yan*, Controlled Reactivity of Metastable n-Al@Bi(IO3)3 by Employment of Tea Polyphenols as an Interfacial Layer, Chem Eng J, 2020, 381, 122747..(中科院1區, IF=10.9)
(10) S.-W. Chen, W. He, C.-J. Luo, T. An, J. Chen, Y. Yang, P.-J. Liu, Q.-L. Yan*, Thermal Behavior of Graphene Oxide and its Stabilization Effects on Transition Metal Complexes of Triaminoguanidine, J Hazard Mater, 2019, 368, 404–411. (中科院1區,IF=7.7)
(11) Q.-L. Yan*, Z. Yang, X. Zhang, J. Lyu, W. He, S. Huang, P. Liu, C. Zhang, Q. Zhang, G. He and F. Nie, High Density Assembling of Energetic Molecules under Constraint of Defected 2D Materials, J Mater Chem A,2019, 7, 17806-17814. (中科院1區,IF=10.7)
(12) W. He, B.-W. Tao, B. Z.-J. Yang, G.C. Yang, X. Guo, P.-J. Liu, Q.-L. Yan*, Mussel-Inspired Polydopamine-directed Crystal Growth of Core-shell n-Al@PDA@CuO Metastable Intermixed Composites, Chem Eng J, 2019, 369, 1093–1101. (中科院1區,IF=10.9)
(13) J.-Y. Lyu, S. Chen, W. He, X.-X. Zhang, D.-Y. Tang, P.-J. Liu, Q.-L. Yan*, Fabrication of High-Performance Graphene Oxide doped PVDF/CuO/Al Nanocomposites via Electrospinning, Chem Eng J, 2019, 368,129–137. (中科院1區,IF=10.9)
(14) W. He, P.-J. Liu, F.-Y. Gong, B.W. Tao, J. Gu, Z.-J. Yang, Q.-L. Yan*, Tuning the Reactivity of Metastable Intermixed Composite n-Al/PTFE by Polydopamine Interfacial Control, ACS Appl Mater Interfaces, 2018, 10(38), 32849-32858. (中科院1區,IF=8.7)
(15) A.K. Chinnam, N. Petrutik, K.-C. Wang, A. Shlomovich, O. Shamis, D. Shem Tov, M. Suceska, Q.-L. Yan*, R. Dobrovetsky, M. Gozin*, Effects of closo-Icosahedral Periodoborane Salts on Hypergolic Reaction of 70% H2O2 with Energetic Ionic Liquid. J Mater Chem A, 2018, 6(41), 19989-19997. (中科院1區,已選為封面文章,IF=10.7)
(16) A.K. Chinnam, A. Shlomovich, O. Shamis, N. Petrutika, D. Kumara, K. Wanga, E.P. Komaralab, D. Shemtova, M. Suceska, Q.-L. Yan*, M. Gozin*. Combustion of Energetic Iodine-rich Coordination Polymer-Engineering of New Biocidal Materials. Chem Eng J, 2018, 350, 1084-1091. (中科院1區, IF=10.9)
(17) W. He, P.J. Liu, G.Q. He, M. Gozin, Q.-L. Yan*, Highly Reactive Metastable Intermixed Composites (MICs): Preparations and Characterizations. Adv Mater, 2018, 30(41), 1706293. (中科院1區,IF=23.8, 特邀綜述)
(18) Q.-L. Yan*, P.-J. Liu, A. F. He, et al. Photosensitive but mechanically insensitive graphene oxide-carbohydrazide-metal hybrid crystalline energetic nanomaterials. Chem Eng J. 2018, 338(15) 240-247. (中科院1區,IF=10.9)
(19) Q.-L. Yan*, A. Cohen, A. K. Chinnam, N. Petrutik, A. Shlomovich, L. Burstein, M. Gozin*, Layered 2D Triaminoguanidine-Glyoxal Polymer and Its Transition Metal Complexes, as Novel Insensitive Energetic Nanomaterials, J Mater Chem A, 2016, 4, 18401-18408. (中科院1區, IF=10.7)
(20) Q.-L. Yan*, F.-Q. Zhao*, Kenneth K. Kuo, X.-H. Zhang, S. Zeman, Luigi T. DeLuca, Catalytic Effects of Nano Additives on Decomposition and Combustion of RDX-, HMX-, and AP-Based Energetic Compositions, Prog Energ Combust Sci, 2016, 57, 75–136. (中科院1區, IF=29., 特邀綜述)
(21) Q.-L. Yan, A. Cohen, N. Petrutik, A. Shlomovich, J.-G. Zhang, M. Gozin*, Formation of Highly Thermostable Copper-Containing Energetic Coordination Polymers Based on Oxidized Triaminoguanidine, ACS Appl. Mater. Interfaces, 2016, 8,33, 21674–21682. (中科院1區, IF=8.7)
(22) Cohen, Y.-Z. Yang, Q.-L. Yan*, et al., Highly Thermostable and Insensitive Energetic Hybrid Coordination Polymers Based on Graphene Oxide-Cu(II) Complex, Chem Mater, 2016, 28 (17), 6118–6126. (中科院1區, IF=10.2)
(23) Q.-L. Yan, N. Petrutik, A. Shlomovich, L. Burstein, S.-P. Pang, M. Gozin*, Coordination Nanomaterials Based on Functionalized Graphene Oxides, J Mater Chem A 108(10), 2016, 111-117.(中科院1區, IF=10.7)
(24) Q.-L. Yan, W. A. Trzciński, S. Cudzilo, J. Paszula, T. Eugen, M. Liviu, R. Traian, M. Gozin* , Thermobaric effects formed by aluminium foils enveloping cylindrical charges, Combust Flame, 2016, 166(1),148-157. (中科院1區, IF=4.1)
(25) Q.-L. Yan, M. Gozin*, F.-Q. Zhao, A. Cohen, S.-P. Pang, High energetic compositions based on functionalized carbon nanomaterials, Nanoscale, 2016, 8, 4799-851. (中科院1區, IF=7.2, ESI高被引)
受理授權專利
(1) XXX高燃速改性雙基推進劑,ZL201110014267.2,2014-7-16;(GF專利,已授權)
(2) CL-20超細化處理方法,ZL201110014442.8,2014-7-16;(發明專利,已授權)
(3) XXX改性雙基推進劑,ZL201418003494.X,2014-7-25;(GF專利,已授權)
(4) XXX混合溶液配置方法,ZL201418004452.8,2014-9-10;(GF專利,已授權)
(5) 石墨烯基碳醯肼金屬配合物晶體含能材料及其製備方法, 2017, ZL201710104307.X (發明專利,已授權).
(6) 一種摻雜改性硝銨炸藥晶體的製備方法, 2018, CN201810242628.0 (發明專利,已受理).
(7) 金屬有機框架材料改性納米金屬顆粒的製備方法, 2018, CN201811365411.5 (發明專利,已受理)
(8) 一種聚基於多巴胺界面調控硝胺炸藥改性鋁粉及製備方法,2019,CN201910020312.1 (發明專利,已受理)
(9) 聚合物基複合含能材料包覆改性納米金屬顆粒的製備方法,2019,CN201910671433.2 (發明專利,已受理)
榮譽獎項
(1)2014年4月,獲得留學基金委“優秀自費留學生獎”;
(2)2015年5月,獲得捷克帕爾杜比采大學 “優秀博士論文獎”;
(3)2015年7月,獲得以色列特拉維夫大學納米科學中心優秀博士後獎學金