严启龙


的个人主页 http://teacher.nwpu.edu.cn/qlyan

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基本信息 The basic information

严启龙

航天学院

博士研究生毕业

理学博士

教授

航空宇航科学-航空宇航推进理论与工程

工作经历 Work Experience

2017.2-至今: 西北工业大学,航天学院,教授,博士生导师

2015.6–2017.1: 以色列特拉维夫大学,化学工程学院博士后

2008.4–2011.9: 中国兵器第204所,固体火箭动力技术研究部,工程师

教育教学 Education And Teaching

(1)本科生课程:主讲专业选修课《航天推进化学基础》、主讲专业必修课《Structural Characterization》(玛丽女王工程学院)、留学生专业课《火箭推进(英)》、专业选修课《航天动力前沿讲座》等

(2)研究生课程:主讲硕士生核心专业必修课《含能材料与推进剂》、主讲硕士生专业选修课《推进剂燃烧热化学》、辅讲博士生专业基础课《燃烧化学》

招生信息 Admission Information

(1) 研究生招生:主要招收航空宇航推进理论与工程方向或材料化学方向的硕士和博士研究生,具体招生指标以学院公布为准,欢迎广大有志青年踊跃报名。

(2) 博士后招聘:依据不同项目招聘钝感含能材料制备与表征、固体推进剂的催化热分解及燃烧性能实验及模拟、含能离子液体的催化点火及燃烧、新型多功能含能材料的制备与表征等方向的博士后。

荣誉获奖 Awards Information

(1)2014年4月,获得留学基金委“优秀自费留学生奖”

(2)2015年7月,获得以色列特拉维夫大学纳米科学中心优秀博士后奖学金

(3)2020年10月,获得西工大“吴亚军”优秀教师特等奖

科学研究 Scientific Research

主要研究方向

(1)高能材料的表界面改性及应用

(2)钝感纳米金属基含能材料的制备及应用

(3)推进剂热反应活性及催化燃烧特性

(4)自燃型离子液体催化点火及燃烧机理

(5)电控推进剂(燃料)的创制及应用


部分在研主持课题

(1)自然基金重点项目(NSAF)U2030202,基于组分界面结构调控的PBX力热性能协同增强及机理研究,2021/01-2024/12,在研,320万人民币,主持

(2)自然基金面上项目,51776176,石墨烯基含能配位聚合物对复合推进剂热分解及燃烧的催化机理,2018/01-2021/12,在研,60万人民币,主持

(3)军委科技委173重点项目(原973)分承研,XX202001,XX改性高能材料钝感化机理研究,2021/1-2023/12,在研,510万人民币,主持

(4)军委科技委173重点项目(原973)分承研,XX高能推进剂装药技术,2021/10-2023/12,在研,100万人民币,主持

(5)中组部人才基金,高能钝感火箭燃料的设计制备及燃烧性能研究,2017/06-2022/6,在研,400万人民币,主持

学术成果 Academic Achievements

近五年代表论文

(1) S.-L. Yang, S.-Z. Wang, B.L. Zuo, X.L. Fu, X. Fan, Q.-L. Yan*, Fabrication and Combustion Behavior of High Volumetric Energy Density Core-shell Si/Ta -based Nano-energetic Composites, J Alloys Compounds, 2021, 161443. https://doi.org/10.1016/j.jallcom.2021.161443.  (中科院2区,IF=5.3) 

(2) Z.-H. Xue, X.-X. Zhang, B. Huang, J. Cheng, K. Wang, Z. Yang, Q.-L. Yan*, Assembling of Hybrid Nano-sized HMX/ANPyO Cocrystals Intercalated with 2D High Nitrogen Materials, Cryst. Growth Des. 2021, https://doi.org/10.1021/acs.cgd.1c00386. (中科院2区,IF=5.1) 

(3) Q.-L. Yan*, Luigi T. DeLuca, Urgent demand for high energy insensitive propellants with controllable burn rates, Energet Mater Frontiers, 2021, 2(1), 1-2. https://doi.org/10.1016/j.enmf.2021.03.004. 

(4) S.-Z. Wang, J.-Y. Lyu, W. He, P.J. Liu, Q.-L. Yan*, Thermal decomposition and combustion behavior of ion conductive PEO-PAN based energetic composites, Combust Flame 2021, 230, 111421. https://doi.org/10.1016/j.combustflame.2021.111421. (中科院1区,IF=4.5) 

(5) M. Yu, Z. Zhu, H.-P. Li, Q.-L. Yan*, Advanced preparation and processing techniques for high energy fuel AlH3, Chem Eng J, 2021, 421, 129753. https://doi.org/10.1016/j.cej.2021.129753.  (中科院1区,IF=13.3) 

(6) B.B. Huang, Z.H. Xue, X.L. Fu, Q.-L. Yan*, Advanced crystalline energetic materials modified by coating/intercalation techniques, Chem Eng J, 2021, 417, 128044. https://doi.org/10.1016/j.cej.2020.128044.  (中科院1区,IF=13.3) 

(7) X.-X. Zhang, Z. Yang b, F.-D. Nie, Q.-L. Yan*, Recent Advances on Recrystallization Engineering of Energetic Compounds, Energet Mater Frontier, 2021, https://doi.org/10.1016/j.enmf.2020.12.004.    

(8) L. Tan, X. Lu, N. Liu , Q.-L. Yan*, Further enhancing thermal stability of thermostable energetic derivatives of dibenzotetraazapentene by PDA/GO coating, Appl Surf Sci 2021, 543, 148825. https://doi.org/10.1016/j.apsusc.2020.148825.  (中科院1区,IF=7.2) 

(9) X.-X. Zhang, Z.-H. Xue, Z.K.P. Wang, S.W. Chen, Z.J. Yang, Q.-L. Yan*, Hybrid RDX crystals assembled under constraint of 2D materials with largely reduced sensitivity and improved energy density, J Hazard Mater, 2020, 398, 5, 122842. https://doi.org/10.1016/j.jhazmat.2020.122842.   (中科院1区, IF=9.3) 

(10) D.-Y. Tang, Z.-M. Fan, G.C. Yang, Y.-L. Wang, P.-J. Liu*, Q.-L. Yan*,Combustion performance of composite propellants containing core-shell Al@M(IO3)x metastable composites, Combust Flame  2020219, 1–11. https://doi.org/10.1016/j.combustflame.2020.04.027.  (中科院1区, IF=4.5) 

(11) W. He, J.-Y. Lyu, D.-Y. Tang, G.-Q. He*, P.-J. Liu*, Q.-L. Yan*, Control the combustion behavior of solid propellants by using core-shell Al-based composites, Combust Flame 2020 221, 441–452. https://doi.org/10.1016/j.combustflame.2020.07.006.  (中科院1区, IF=4.5) 

(12) 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 J2020, 390, 124565. https://doi.org/10.1016/j.cej.2020.124565.   (中科院1区, IF=13.3) 

(13)  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. https://doi.org/10.1016/j.cej.2020.124320.   (中科院1区, IF=13.3) 

(14)  S.W. Chen, D.-Y. Tang, X.-X. Zhang, J.-Y. Lyu, W. He, P. Liu, Q.-L. Yan*, Enhancing the combustion performances of metastable Al@PVDF/AP nanocomposites by doping of graphene oxide, Engineering, 202061019–1027. https://doi.org/10.1016/j.eng.2020.02.014.  (中科院1区, IF=6.2) 

(15) 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, 2020124 (9), pp.5182-5195. https://doi.org/10.1021/acs.jpcc.9b11070.   (中科院2区, IF=4.5) 

(16)  K. Wang, T. Liu, Y. Jin, S. Huang, N. Petrutik, D. Shem-Tov, Q.-L. Yan*, M. Gozin*, Q.H. Zhang*, Tandem-action ferrocenyl iodocuprates promoting low temperature hypergolic ignitions of "green" EIL–H2O2 bipropellants, J. Mater. Chem. A, 2020, 8, 14661-14670. https://doi.org/10.1039/D0TA04620E.  (中科院1区,IF=11.3)  

(17)   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. https://doi.org/10.1016/j.cej.2019.123369.  (中科院1区, IF=13.3) 

(18)   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 J2020, 383, 123146. https://doi.org/10.1016/j.cej.2019.123146.  (中科院1区, IF=13.3,ESI高被引

(19)  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. https://10.1016/j.cej.2019.122623.  (中科院1区, IF=13.3,ESI高被引

(20)   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. https://doi.org/10.1016/j.cej.2019.122747.  (中科院1区, IF=13.3) 

(21)  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区,IF=7.7)  

(22)  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区,IF=11.3)  

(23)  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区,IF=13.3,ESI高被引)  

(24)   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区,IF=13.3,ESI高被引)

(25)   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区,IF=8.7)    

(26) 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区,已选为封面文章,IF=11.3) 

(27)  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区, IF=13.3)  

(28) 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区,IF=23.8, 特邀综述)

(29) 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区,IF=13.3)   


专著、章节与教材

[1]  Q.-L. Yan, M. Gozin, P.-J. Liu, G.-Q. He, Chapter 3: Insensitive Energetic Materials Containing Two-Dimensional Nanostructures as Building Blocks, October 2018, DOI: 10.1016/B978-0-12-813908 -0.00003-4, In book: Nanomaterials in Rocket Propulsion Systems, 81-111, Publisher: Elsevier. WOS:000470056400004.

[2] 严启龙,聂福德,杨志剑,高聚物粘结炸药及其性能,国防工业出版社,2020.6,ISBN 978-7-118-12056-1.

[3]  Meiram Atamanov, Jie-Yao Lyu, Xiang Lyu, Q.-L. Yan*, Recent Achievements and Future Challenges on the Modeling Study of AP-based Propellants, 2020, In: Pang W., DeLuca L., Gromov A., Cumming A. (eds) Innovative Energetic Materials: Properties, Combustion Performance and Application. Springer, Singapore, https://doi.org/10.1007/978-981-15-4831-4_10, Print ISBN 978-981-15-4830-7, ISBN, 978-981-15-4831-4.

[4]  Q.-L. Yan, G.-Q. He, P.-J. Liu, M. Gozin, Nanomaterials in Rocket Propulsion Systems, ISBN: 9780128139097, 9780128139080, 30th October 2018. Publisher: Elsevier.


受理授权专利

(1) XXX高燃速改性双基推进剂,ZL201110014267.2,2014-7-16;(GF专利,已授权)

(2) CL-20超细化处理方法,ZL201110014442.8,2014-7-16;(发明专利,已授权)

(3) XXX改性双基推进剂,ZL201418003494.X,2014-7-25;(GF专利,已授权)

(4) XXX混合溶液配置方法,ZL201418004452.8,2014-9-10;(GF专利,已授权)

(5) 石墨烯基碳酰肼金属配合物晶体含能材料及其制备方法, 2017, ZL201710104307.X (发明专利,已授权).

(6) 一种掺杂改性硝铵炸药晶体的制备方法, 2018, ZL201810242628.0 (发明专利,已授权).

(7) 金属有机框架材料改性纳米金属颗粒的制备方法, 2018, ZL201811365411.5 (发明专利,已授权)

(8) 二维材料限域掺杂条件下HMX/ANPyO共晶的制备方法, 2020,ZL2020111350856 (发明专利,已授权); 

(9) 一种聚基于多巴胺界面调控硝胺炸药改性铝粉及制备方法,2019,CN201910020312.1 (发明专利,已受理)

(10) 聚合物基复合含能材料包覆改性纳米金属颗粒的制备方法,2019,CN201910671433.2 (发明专利,已受理)

(11) 一种晶格插层诱导FOX-7炸药致密化的方法,2019,201910712383.8 (发明专利,已受理)

(12) 一种触发式含能材料气相产物收集系统与方法,2020,CN201910716172.1 (发明专利,已受理)

(13) 一种多巴胺改性石墨烯钝感化掺杂硝胺氧化剂的制备方法,2020, 202010101184.6 (发明专利,已受理)

(14) 基于硝胺氧化剂包覆铝粉的复合固体推进剂及制备方法,2020,201911231169.7(发明专利,已受理)

(15) 含碘酸盐包覆铝粉的四组元复合推进剂及其制备方法,2020,201911312356.8 (发明专利,已受理)

(16) 一种石墨烯增韧二维高氮材料掺杂硝胺氧化剂及制备方法,2021,CN202011177470.7 (已受理);申请公布号:CN112266312A.

(17) 一种聚氧化乙烯基离子导电型推进剂及制备方法, 2021,CN202011198344.X (已受理), 公布号:CN112299933A.

(18) 基于含能复合物原位增强Ta/Si燃烧合成多孔结构的方法, 2021,CN202110184848.4 (已受理), 公布号:CN112875705A

综合介绍 General Introduction

严启龙同志系湖南华容人,中共党员,教授,博士生导师。2008年4月在兵器科学研究院获得含能材料专业硕士学位,并留兵器204所参加工作。2011年9月留学捷克,2015年5月获得“军事化学与烟火技术”专业博士学位。2015年7月前往以色列特拉维夫大学纳米科学中心从事做博士后研究工作。2017年2月到西工大工作,入选国家青年人才计划。目前,担任航天学院“航空宇航推进理论与工程”学科负责人,兼任中国工程物理研究院化工材料研究所客座教授、“火炸药燃烧”和“航天化学动力技术”两个国家级重点实验室学术委员会委员、陕西宇航学会动力技术委员会委员等;《火炸药学报》、《含能材料》、《固体火箭技术》、《Energetic Mater Frontier》和《FirePhysChem》等期刊编委。主要从事新型低易损性固体推进剂用钝感含能材料制备及性能等方面研究工作。已出版专著2部、受理授权专利14项,发表学术论文140余篇,论文共被引2800余次,ESI高被引5篇,H指数为28。


团队信息 Team Information

教师

     陈书文(副研究员,美国阿克隆大学博士,西工大博士后)

     聂洪奇(副教授,美国新泽西理工大学博士,新加坡南洋理工大学博士后)

博士后

     刘俊鹏(哈尔滨工程大学博士,2021年9月进站)

博士生

     2018级:齐晓飞(与刘佩进联合培养);

     2019级:杨素兰;

     2020级:蔚明辉、许睿轩、Justin Quansah;

     2021级:张雪雪Qazi Wasiullah;

硕士生

     2019级:薛智华、黄彬彬、王帅中(与刘佩进联合培养);

     2020级:孟珂娟、张皓瑞、徐家兴(与吕翔联合培养);

     2021级:王子康平、熊坤宇、刘睿;

访问学生

     Sabrina Hanafi(阿尔及利亚军事技术大学博士生,2019.3-2019.6)

Alumni

    2020年:唐得云(硕士毕业生,中国工程物理研究院攻博)

    2021年:陈书文(博士后出站,西工大副研究员),Atmantov Meiram (博士后出站,哈萨克国立大学助理教授);

                  何伟(博士毕业生,四川大学副教授)、吕杰尧(硕士毕业生,新加坡国立大学全奖攻博)、张雪雪(硕士毕业生,本课题组攻博)