一、基本情况:
姓名:金波 性别:男
学历/学位:研究生/博士 职称:教授
导师资格:博士/硕士研究生导师 职务:副主任
学科(专业):应用化学/材料 研究方向:有机功能材料、含能材料
电子邮箱:jinbo0428@163.com
二、个人简历
2000年9月—2004年7月 本科毕业于江汉大学;
2004年9月—2007年6月 硕士毕业于西南科技大学
2008年9月—2011年6月 博士毕业于北京理工大学
2007年9月—2014年3月 西南科技大学材料科学与工程学院 讲师,副教授
2014年3月—至今 西南科技大学环境友好能源材料国家重点实验室 教授,副主任
三、教学工作
主要承担《有机化学》、《合成化学》、《含能材料》等本科、研究生的课程教学研究工作。
四、科研工作
1. 科研项目
[1] ******研究, 国防技术基础科研项目,280万,2023-2026,负责人;
[2] ******规律,中央军委科技委项目(173),220万,2023-2026,负责人;
[3] ******研究, 中央军委**6项目,65万,2022-2024,负责人;
[4] ******研究, 中央军委**6项目,48.6万,2022-2024,负责人;
[5] 光敏高氮金属配合物的设计构筑及其激光起爆特性研究,国家自然科学基金面上项目(22275151),54万,2023-2026,负责人;
[6] ******精准设计合成,中央军委科技委项目(173),170万,2021-2024,负责人;
[7] *****装置研制,国防技术基础科研项目,150万,2021-2024,负责人;
[8] 高能固体推进剂安全性调控机理及控制方法研究, 总装预研领域基金, 2019-2020, 50万,负责人
[9] 新型碳气凝胶铅/铜纳米金属复合物的构筑及其燃烧催化性能研究,四川省杰出青年科技人才计划,2019-2021,52万元,负责人
[10] 双四唑类含能金属有机框架的构筑及其对双基推进剂燃烧催化机理研究,国家自然科学基金面上项目(21875192),2019-2022,82万元,负责人
[11] 基于材料基因组*****研究, 国防基础科研核科学挑战专题(分承包课题), 2018-2020, 100万元,负责人
[12] *******的定值方法与装置研究, 国防技术基础项目, 2017-2019, 250万元,负责人
[13] 富勒烯基多功能燃烧催化剂的制备与应用研究, 总装预研领域基金重点项目,2017-2019, 200万元,负责人
[14] “*********的应用研究”, 国防基础科研项目(A3120133002), 2013-2014, 350万,负责人
[15] “富勒烯基核素促排剂的设计合成及构效关系研究”,国家自然科学基金青年基金(21301142), 2014-2016, 24万,负责人
[16] “富勒烯基新型保健食品抗氧化剂的合成研究”,四川省应用基础研究计划(2014JY0170), 2014-2016, 10万,负责人
2. 科研奖励
[1] 富勒烯批量制备及应用关键技术. 四川省科技进步奖二等奖, 2019年10月, 排名第1
[2] ************的制备技术. 国防科学技术进步奖二等奖, 2010年12月, 排名第2
[3] ************的应用技术. 国防科学技术进步奖三等奖, 2018年12月,排名第2
[4] 微波辅助超音速气流固相反应,绵阳市科学技术进步三等奖,2017年3月,排名第三(证书编号:2016-3-181)
3. 代表性论文
以第一作者/通讯作者发表学术论文200余篇,近期发表的代表性论文如下(*表示为通讯作者):
[1] Yong Song, Zhiyuan Jin, Jiawei Zhang, Bo Jin*, Rufang Peng*. Continuous, Solvent-Free, and Mechanochemical Synthesis of N-Acylhydrazone Derivatives by Spiral Gas-Solid Two-Phase Flow. ACS Sustainable Chemistry & Engineering. 2024, 12(4), 1427-1436.
[2] Yong Song, Zhiyuan Jin, Juan Zhang, Bo Jin*, Rufang Peng*. Spiral gas-solid two-phase flow continuous mechanochemical synthesis of salophen complexes and catalytic thermal decomposition of ammonium perchlorate. Dalton Transactions, 2024, 53(8), 3765-3776.
[3] Jie Xiong, Shuang Feng, Rufang Peng*, Bo Jin*. Effect of aziridino[60]fullerenes on thermal stability of nitrocellulose. Cellulose, 2024, 31(1), 235-246.
[4] Juan Zhang, Bo Jin*, Rufang Peng*. Construction of cobalt-nickel bimetallic coordination polymers and their catalytic thermal decomposition of ammonium perchlorate. Applied Surface Science. 2024, 647, 158970.
[5] Chengrong Wang, Xuemei Yu, Lisheng Fan, Wenqi Ge, Bing Fan, Qi Huang*, Rufang Peng, Bo Jin*. Ammonium salt and halogen co-functionalized fullerene for interfacial modification layer of inverted perovskite solar cells. Carbon, 2023, 215, 118398.
[6] Jiao Huang, Rufang Peng*, Bo Jin*. Premature thermal decomposition behavior of 3,4-dinitrofurazanfuroxan with certain types of nitrogen-rich compounds. Defence Technology. 2023, 26, 102-110.
[7] Xuemei Yu, Wenqi Ge, Lisheng Fan, Bing Fan, Rufang Peng, Bo Jin*. C60-CN: A bifunctional interface modification material for perovskite solar cells. Journal of Colloid and Interface Science, 2023, 650, 553-559.
[8] Yiyi Xiao, Hui Huang*, Xueyan Zhao, Pangangjing Zou, Liyuan Wei, Yu Liu, Bo Jin*, Rufang Peng, Shiliang Huang*. Surface-Induced Thermal Decomposition of Energetic Cocrystal CL-20/MTNP Based on In Situ Morphology and Crystal Structure Characterizations. Crystal Growth & Design, 2023, 23(9), 6393-6402.
[9] Jinhao Zhang, Zhiyuan Jin, Wenjia Hao, Zhicheng Guo, Ying Wang, Rufang Peng, Bo Jin*. N2H62+ Energetic Salts: A Promising Strategy for Increasing the Density and Balance Safety and Energy of Explosives. Crystal Growth & Design, 2023, 23(6), 4499-4505.
[10] Xuemei Yu, Wenqi Ge, Lisheng Fan, Rufang Peng, Bing Fan, Bo Jin*. Additive engineering of novel double-site passivator in perovskite solar cells. Carbon, 2023, 211, 118067.
[11] Jie Xiong, Shuang Feng, Rufang Peng, Bo Jin*. Stereoselective Synthesis of Nontethered trans-4 Bis(aziridino)[60]fullerene Derivatives. Chinese Journal of Chemistry, 2023, 41(18), 2282-2288.
[12] Tian Zheng*, Lisheng Fan, Jin Bo*, Rufang Peng*. Concise synthesis of low-cost fullerene derivatives as electron transport materials for efficient air-processed invert perovskite solar cells. Journal of Colloid and Interface Science, 2023, 642, 497-504.
[13] Yujie Yan, Bo Jin*, Rufang Peng. Gelatin-modified Mxene carbon aerogels for ammonium perchlorate-catalyzed thermal decomposition. Dalton Transactions, 2023, 52(48), 18380-18390.
[14] Jie Xiong, Bo Jin*, Xuemei Yu, Ling Liao, Rufang Peng. Synthesis, crystallographic characterization, and potential application of fullerene anisole derivatives as nitrocellulose stabilizer. Defence Technology. 2023, 24, 164-172.
[15] Jinhao Zhang, Zhicheng Guo, Yulan Song, Wenjia Hao, Rufang Peng, Bo Jin*. Hydrogen bond and 3D frameworks to reconcile the conflict between safety and detonation performance in energetic metal–organic frameworks. Chemical Engineering Journal, 2023, 453, 139762.
[16] Juan Zhang, Jun Zhao, Bo Jin*, Rufang Peng*. Gas–solid two-phase flow method for preparing trimesic acid series MOFs for catalytic thermal decomposition of ammonium perchlorate. Dalton Transactions, 2022, 51(46), 17620-17628.
[17] Jinsong Li, Zhiyuan Jin, Bo Jin*, Liqiong Luo, and Rufang Peng. Synthesis of CuII and CdII Metal–Organic Frameworks Based on 4,5-Bis(1-hydroxytetrazol-5-yl)-1,2,3-triazole and Their Effects as the Catalyst in Ammonium Perchlorate Thermal Decomposition. Inorganic Chemistry, 2022, 61(44), 17485–17493.
[18] Xuemei Yu, Qian Zhou, Tian Zheng, Rufang Peng, Bing Fan, Lisheng Fan, Bo Jin*. Interface engineering for achieving efficient and stable perovskite solar cells by Bphen-fullerene dimer. Chemical Engineering Journal, 2023, 452, 139412.
[19] Liqiong Luo, Wenjia Hao, Zhicheng Guo, Tao Huang, Quancheng Liu, Hu Deng, Rufang Peng, Bo Jin*. Controllable Structural Modulation: Assembling Variable Dimension Energetic Metal–Organic Frameworks via Free Protons. Inorganic Chemistry, 2022, 61(41), 16248-16255.
[20] Ping Zhao, Bo Jin, Qingchun Zhang, Rufang Peng. Graphitic-C3N4 quantum dots modified FeOOH for photo-Fenton degradation of organic pollutants. Applied Surface Science. 2022, 586, 152792.
[21] Wenjia Hao, Jinhao Zhang, Liqiong Luo, Quancheng Liu, Hu Deng, Juan Shen, Rufang Peng, Bo Jin*. Construction of Laser-Sensitive High-Energy Metal-Organic Frameworks Based on Hydroxyl-Functionalized Tetrazole. Crystal Growth & Design, 2022, 22(9), 5300-5306.
[22] Yang Zhao, Bo Jin*, Tian Zheng, Rufang Peng*. Anti-autocatalysis activity of tea polyphenols in nitrocellulose thermal decomposition. Cellulose, 2022, 29(17), 9089-9104.
[23] Tao Huang, Bo Jin*, Wenjia Hao, Jinhao Zhang, Liqiong Luo, Huan Peng, Chenjie Hou, Qingchun Zhang, Rufang Peng*. Combination of 3-Aminofurazan-4-carboxylic Acid and Transition Metals to Prepare Functional Energetic Catalysts for Catalyzing the Decomposition of Ammonium Perchlorate. Crystal Growth & Design, 2022, 22(10), 5802-5813.
[24] Yang Zhao, Bo Jin*, Tian Zheng, Rufang Peng*. Structure–activity relationship of thermal interaction between arylmalonamide[70]fullerocyclopropane stabilizer and nitrocellulose. Cellulose, 2022, 29(12), 6579-6593.
[25] Tian Zheng, Qian Zhou, Ting Yang, Yang Zhao, Bin Fan, Jin Bo*, Lisheng Fan, Rufang Peng*. Disulfide bond containing self-healing fullerene derivatized polyurethane as additive for achieving efficient and stable perovskite solar cells. Carbon, 2022, 196, 213-219.
[26] Wenjia Hao, Bo Jin*, Liqiong Luo, Quancheng Liu, Hu Deng, Tao Huang, Jinhao Zhang, Li Liu, Juan Shen, Peng Rufang. Novel solvent-free energetic 3D metal-organic frameworks and their laser response. Chemical Engineering Journal, 2022, 433, 134296.
[27] Xiaomin Song, Qi Huang*, Bo Jin*, Rufang Peng*. Fabrication and characterization of CL-20/PEI/GO composites with enhanced thermal stability and desensitization via electrostatic self-assembly[J]. Applied Surface Science, 2021, 558, 149933.
[28] Ling Liao, Bo Jin*, Zhicheng Guo, Fei Xian, Chenjie Hou, Rufang Peng*. Fullerene bisadduct stabilizers: The effect of different addition positions on inhibiting the autocatalytic decomposition of nitrocellulose absorbed nitroglycerin. Defence Technology. 2021, 17(6), 1944-1953.
[29] Tian Zheng, Bin Fan, Yang Zhao, Bo Jin*, Lisheng Fan*, Rufang Peng*. Rational Design of Anion-doped Perylene Diimide-Fullerene dimer as Effective Electron Transporting Material in Inverted Perovskite Solar Cells. Journal of Colloid and Interface Science, 2021, 598, 229–237
[30] Tian Zheng, Bin Fan, Yang Zhao, Bo Jin*, Lisheng Fan*, Rufang Peng*. Rational Design of Anion-doped Perylene Diimide-Fullerene dimer as Effective Electron Transporting Material in Inverted Perovskite Solar Cells. Chemical Engineering Journal, 2021, 423, 129730.
[31] Qian Zhou, Junjie Chen, Bo Jin*, Shijin Chu, Rufang Peng*. Modification of ZIF-8 on bacterial cellulose for an efficient selective capture of U(VI). Cellulose, 2021, 28:5241–5256.
[32] Qian Zhou, Bo Jin*, Shijin Chu, Rufang Peng. Farrow-derived layered porous carbon aerogel for AP catalytic thermal decomposition. Inorganic Chemistry Frontiers, 2021, 8, 2798–2808.
[33] Tian Zheng, Hang Zhou, Bin Fan, Yang Zhao, Bo Jin*, Lisheng Fan*, Rufang Peng*. Designing conductive fullerenes ionene polymers as efficient cathode interlayer to improve inverted perovskite solar cells efficiency and stability. Chemical Engineering Journal, 2021, 415, 128816.
[34] Qian Zhou, Bo Jin*, Ping Zhao, Shijin Chu, Rufang Peng. rGO/CNQDs/ZIF-67 composite aerogel for efficient extraction of uranium in wastewater. Chemical Engineering Journal, 2021, 419, 129622.
[35] Jinghao Zhang, Bo Jin*, Xiaoyi Li, et al. Synthesis, Characterization and Performance of Several Lead-free Energetic Metal-Organic Frameworks H2AzTO-Based for Catalyzing the Thermal Decomposition of Ammonium Perchlorate. Chemical Engineering Journal, 2021, 404, 126287.
[36] Jing Yan, Bo Jin*, Ping Zhao, et al. Facile fabrication of BiOCl nanoplates with high exposure {001} facets for efficient photocatalytic degradation of nitro explosives. Inorganic Chemistry Frontiers, 2021, 8(3), 777-786.
[37] Tian Zheng, Lisheng Fan, Bo Jin*,et al. Engineering of Electron Extraction and Defects Passivation via Anion Doped Conductive Fullerene Derivatives as Interlayers for Efficient Invert Perovskite Solar Cells. ACS Applied Materials & Interfaces, 2020, 12(22), 24747–24755.
[38] Liqiong Luo, Qiong Huang, Bo Jin*, et al. Study on the stability effect and mechanism of aniline-fullerene stabilizers on nitrocellulose based on the isothermal thermal decomposition. Polymer Degradation and Stability, 2020, 178, 109221.
[39] Congjun Wang, Juan Shen*, Rigui Chen, Fang Cao, Bo Jin*. Self-assembled BiOCl/Ti3C2Tx composites with efficient photo-induced charge separation activity for photocatalytic degradation of p-nitrophenol. Applied Surface Science. 2020, 519, 146175.
[40] Wenjia Hao, Bo Jin*, Jinhao Zhang, et al. Novel energetic metal–organic frameworks assembled from the energetic combination of furazan and tetrazole. Dalton Transactions, 2020, 49, 6295-6301
[41] Zhiliang Guo, Qingchun Zhang*, Zhi Cheng, Qiangqiang Liu, Jin Zuo, Bo Jin*, Rufang Peng*. Air-Flow Impacting Synthesis of Metal Organic Frameworks: A Continuous, Highly Efficient, Large-Scale Mechanochemical Synthetic Method. ACS Sustainable Chemistry & Engineering. 2020, 8(10), 4037-4043.
[42] Yang Zhao, Bo Jin*, Rufang Peng*, et al. Interaction of nitrocellulose with pentaacyloxyphenyl fullerene derivatives: autocatalytic inhibition in thermal decomposition of nitrocellulose. Cellulose. 2020, 27, 3611–3622.
[43] Guang Li, Bo Jin*, Zuohu Chai, et al. Synthesis and characterization of novel fulleropyrrolidines and their potential application as nitrocellulose-based propellant stabilizer. Polymer Degradation and Stability, 2020, 172, 109061.
[44] Yang Zhao, Bo Jin*, Rufang Peng*, et al. Novel fullerene-based stabilizer for scavenging nitroxide radicals and its behavior during thermal decomposition of nitrocellulose. Journal of Hazardous Materials, 2020, 191, 121857.
[45] Ling Ding, Bo Jin*, Zhicheng Guo, et al. Regioselective synthesis and crystallographic characterization of nontethered cis-1 and cis-2 bis(benzofuro) [60]fullerene derivatives. Organic Letters, 2019,21, 9924-9928.
[46] Qingchun Zhang*, Bo Jin*, Tian Zheng, et al. Hexadentate beta-dicarbonyl (bis-catecholamine) ligands for efficient uranyl cation decorporation: thermodynamic and antioxidant activity studies. Inorganic Chemistry, 2019, 58: 14626-14634.
[47] Liqiong Luo, Bo Jin*, Zuohu Chai, et al. Interaction and mechanism of nitrocellulose and N-methyl-4-nitroaniline by isothermal decomposition method. Cellulose, 2019, 26: 9021-9033.
[48] Jinghao Zhang, Bo Jin*, Rufang Peng, et al. Novel strategies for synthesizing energetic materials based on BTO with improved performances. Dalton Transactions, 2019, 48: 11848-11854.
[49] Jingwen Huang, Bo Jin*, Huiqiang Liu, et al. Controllable synthesis of fl ower-like MoSe2 3D microspheres for highly efficient visible-light photocatalytic degradation of nitro-aromatic explosives. Journal of Materials Chemistry A, 2018, 6, 11424 - 11434
[50] Yiteng Yan, Wei Gao, Bo Jin*, et al. Palladium-catalyzed Reaction of [60]Fullerene with Aroyl Compounds via Enolate-mediated sp2 C-H Bond Activation and Hydroxylation. Journal of Organic Chemistry, 2018, 83, 672-683.
4. 授权专利
[1] 金波, 彭汝芳, 赵杨, 张青春, 黄琪. 对烷氧基富勒烯及其制备方法和用途. 专利号: ZL201910389371.6 授权时间: 2022年4月.
[2] 金波, 彭汝芳, 丁玲, 张青春, 黄琪. 苯并吠喃富勒烯[60]衍生物及其制备方法和用途. 专利号: ZL201910406598.7 授权时间: 2022年4月.
[3] 金波, 彭汝芳, 柴作虎, 张青春, 黄琪. 富勒烯苯胺类衍生物及其制备方法和用途. 专利号: ZL201910389369.9 授权时间: 2022年4月.
[4] 金波, 彭汝芳, 赵杨, 张青春, 黄琪. 富勒烯酚酯类衍生物及其制备方法和用途. 专利号: ZL201910392460.6 授权时间: 2022年8月.
[5] 金波, 彭汝芳, 肖李鹏程, 唐涛, 张青春, 黄琪. 富勒烯吡咯烷苯胺类衍生物及其制备方法和用途. 专利号: ZL201910389370.1 授权时间: 2023年3月.
[6] 金波, 楚士晋, 彭汝芳, 陶静静, 张青春, 黄琪. 一种用于小型量热仪的微型氧弹. 专利号: ZL 202011632296.0 授权时间: 2022年10月.
[7] 金波;罗利琼;沈娟;彭汝芳. 无溶剂3D含能金属有机框架材料及其应用. 专利号: ZL202210206907.8 授权时间: 2023年1月.
[8] 金波;罗利琼;沈娟;彭汝芳. 无溶剂含能配合物[Pb3(BTT)2]n及其制备方法和应用. 专利号: ZL202210256991.4 授权时间: 2023年6月.
[9] 金波, 彭汝芳, 沈娟, 夏云霞, 董海山, 楚士晋. 聚乙烯醇缩芳香醛接枝聚叠氮缩水甘油醚及其制备方法和用途. 专利号:ZL201110083741.7 授权时间: 2013年6月.
[10] 金波, 彭汝芳, 沈娟, 夏云霞, 董海山, 楚士晋. 聚叠氮乙酸乙烯酯及其制备方法和用途. 专利号: ZL201110083746.X授权时间: 2012年12月.
[11] 金波, 彭汝芳,赵凤起, 徐司雨, 刘强强, 楚士晋. 富勒烯衣康酸金属盐衍生物及其制备方法和用途. 专利号: ZL201210326941.5授权时间: 2014年9月.
[12] 金波, 彭汝芳, 沈娟, 楚士晋. 富勒烯环丙烷衍生物的合成方法. 专利号:ZL201310308624.5 授权时间: 2015年7月.
[13] 金波, 彭汝芳, 沈娟, 楚士晋. 富勒烯吡咯烷衍生物的合成方法. 专利号:ZL201310309229.9 授权时间: 2015年9月.
[14] 金波, 彭汝芳, 关会娟, 叶少飞, 楚士晋. 氨基富勒烯的制备方法. 专利号:ZL201410495019.8 授权时间: 2016年8月.
[15] 金波, 彭汝芳, 黄婷,楚士晋. 富勒烯聚叠氮缩水甘油醚及其制备方法与应用. 专利号:ZL201410490754.x 授权时间: 2017年5月.
[16] 金波, 彭汝芳, 龚文林,楚士晋. 富勒烯聚缩水甘油醚硝酸酯及其制备方法与应用. 专利号:ZL201410490751.6 授权时间: 2017年2月.
五、荣誉及获奖
[1] 重庆市兵工学会首届高能青年科技奖,2020年12月
[2] 绵阳市第十批有突出贡献的中青年拔尖人才,2017年7月
[3] 四川省学术与技术带头人后备人选,2018年
[4] 四川省杰出青年科技人才,2018年
[5] 西南科技大学优秀共产党员(2012年; 2019年)
[6] 西南科技大学优秀教师(2016年; 2018年)
[7] 西南科技大学优秀本科毕业论文指导教师(2021年; 2023年)
[8] 西南科技大学优秀研究生毕业论文指导教师(2021年; 2023年)