刘利彬

发布时间:2024-03-19作者:出处:责任编辑:liulibin

   

刘利彬博士,教授,博士生导师

办公室   化工楼 C213

实验室   化工楼 C208

联系方式   Email: lbliu@qlu.edu.cn

教育背景:

20068-20108月,韩国延世大学,化学系,化学博士学位,导师:Myongsoo Lee教授

20029-20067月,中科院长春应用化学研究所,高分子化学与物理专业,硕士学位,导师:韩艳春研究员

19989-20027月,聊城大学,化学化工学院,学士学位 

工作履历:

20181-至今,56net亚洲必嬴,必赢56net在线登录,教授

20143-20153月,香港理工大学,纺织及制衣学系,访问学者,合作导师郑子剑教授

20113-201712月,56net亚洲必嬴,必赢56net在线登录,副教授

20098-201012月,韩国首尔国立大学,化学系,博士后,合作导师Myongsoo Lee教授

20076-20079月,美国佐治亚理工学院,材料科学与工程系,合作导师Vladimir VTsukruk教授

研究领域:

1.高性能固态电解质,特别是抗冻水凝胶固态电解质及其在超级电容器应用

2.特殊润湿性涂层,主要涉及超疏水涂层、超双疏涂层、油水分离等 

承担项目:

1.基于Langmuir-Blodgett 技术构筑聚氨酯/银纳米复合薄膜及其导电性研究,国家自然科学基金(21204044),负责人

2AgI)交联的聚氨酯薄膜的制备及其导电性研究, 山东省优秀中青年科研奖励基金 (BS2012CL028),负责人

3.导电性聚氨酯薄膜的研究及开发,济南市留学回国创业基金,负责人

4.利用静电纺丝制各油水分离薄膜及其自修复性能研究,山东省优青,负责人

5.可自修复电子/离子导电基质的制备及其在电化学储能器件中的应用,山东省基金面上项目,负责人

6.济南市科研带头人工作室,负责人

7.山东省青创人才引育计划动力锂电池研究团队,负责人

8.青岛重工******防腐涂层研究,负责人

9.世纪阳光******功能纸研究,负责人

10.聚电解质式受限区域构建抗冻水凝胶固态电解质及其在超级电容器中的应用,山东省自然科学重点项目,负责人

11.用于挥发性有机物气体在线监测的气敏膨胀型传感器监测系统研发,山东省重点研发计划,负责人

学术成果:

 发表论文

2024年

[65] Huawei Su, Qingqing Guo, Congde Qiao, Xingxiang Ji, Ligang Gai, and Libin Liu*,Lignin-Alkali Metal Ion Self-Catalytic System Initiated Rapid Polymerization of Hydrogel Electrolyte with High Strength and Anti-Freezing Ability,Adv. Funct. Mater. 2024, 2316274.(IF=19.000)

2023年

[64] Chaofan Sun, Xinyu Bu, Tingting Yang, Congde Qiao, Xingxiang Ji, Furong Tao, Ligang Gai,and Libin Liu*,Degradable Waterborne Polyurethane with Flame Retardancy and High Mechanical Strength via Synergy of Hydrogen Bonds,ACS Appl. Polym. Mater. 2023, 5, 5360−5369.(IF=5.000)

[63] Xueya Liu, Furong Tao*, Yan Tian, Xuelin Li, Juan Yang, Songxin Liu, Wufang Yang,Libin Liu*,A flexible and transparent superhydrophobic coating on cotton fabrics with high mechanical and chemical stability for underwater insulation,Progress in Organic Coatings 2023,185, 107890.(IF=6.600)

[62] Xinyu Bu, Hailong Zhang, Furong Tao, Yongchao Xiong*, Libin Liu*,A transparent superhydrophobic film with excellent self-cleaning and UV resistance for photovoltaic panels,Progress in Organic Coatings 2023,183, 107790.(IF=6.600)

[61] Xinyu Bu , Chaofan Sun , Congde Qiao , Xiang Gao , Yaning Zhang , Xingxiang Ji , Furong Tao ,

Ligang Gai, Libin Liu*,A bio-inspired slippery coating with mechanochemical robustness for anti-ice and anti-corrosion,Applied Surface Science 2023,639, 158143.(IF=6.700)

2022

[60] Hailong Zhang, Xinyu Bu, Wanbo Li, Miaomiao Cui, Xingxiang Ji, Furong Tao,Ligang Gai, Haihui Jiang, Libin Liu,* and Zuankai Wang*,A Skin-Inspired Design Integrating Mechano–Chemical–Thermal Robustness into Superhydrophobic Coatings,Adv. Mater. 2022, 2203792 (封面文章).(IF=29.400)

[59] Xinyu Bu, Hailong Zhang, Chaofan Sun, Xingxiang Ji, Furong Tao, Ligang Gai,Haihui Jiang, and Libin Liu*,One-Step Spraying Fabrication of Superomniphobic Coatings with Anti-Flame, Anti-Corrosive, and Mechanochemically Durable Ability, Adv. Mater. Interfaces 2022, 9, 2201321.(IF=5.400)

[58] Weigang Sun, Zhen Xu, Congde Qiao, Bingxi Lv, Ligang Gai, Xingxiang Ji, Haihui Jiang,and Libin Liu*,Antifreezing Proton Zwitterionic Hydrogel Electrolyte via Ionic Hopping and Grotthuss Transport Mechanism toward Solid Supercapacitor Working at −50 °C, Adv. Sci. 2022, 9, 2201679.(IF=15.100)

[57] Xueya Liu, Yingqin Wei, Furong Tao*, Xue Zhang, Ligang Gai, Libin Liu*,All-water-based superhydrophobic coating with reversible wettability for oil-water separation and wastewater purification,Progress in Organic Coatings 2022,165,106726.(IF=6.600)

[56] Weigang Sun, Jianbo Yang, Xingxiang Ji, Haihui Jiang, Ligang Gai, Xuelin Li*, Libin Liu*,

Antifreezing zwitterionic hydrogel electrolyte with high conductivity at subzero temperature for flexible sensor and supercapacitor, Sustainable Materials and Technologies 2022,32,e00437.(IF=9.600)

2021

[55] J. Ren, F. Tao, X. Lu, H. Zhang, L. Gai, L. B. Liu*, H. Jiang,* Biomass-based superhydrophobic coating with tunable colors and excellent robustness, Carbohydrate Polymers 2021,270,118401.(IF=7.182)

[54] Z. Zhou, Y. Xu, C. Qiao, L. B. Liu*, Y. Jia,* A novel low-cost gas sensor for CO2 detection using polymer-coated fiber Bragg grating, Sensors & Actuators: B. Chemical 2021, 332, 129482. (IF=7.100)

[53] J. Yang, Z. Xu, J. Wang, L. Gai, X. Ji, H. Jiang, and L. B. Liu*, Antifreezing Zwitterionic Hydrogel Electrolyte with High Conductivity of 12.6 mS cm−1 at −40 °C through Hydrated Lithium Ion Hopping Migration, Adv. Funct. Mater. 2021, 31, 2009438. (Selected as Back Cover, IF=16.836)

[52] J. Wang, X. Li, J. Yang, W. Sun, Q. Ban, L. Gai, Y. Gong, Z. Xu,* and L. B. Liu*, Flame-Retardant, Highly Conductive, and Low-Temperature-Resistant Organic Gel Electrolyte for High-Performance All-Solid Supercapacitors, ChemSusChem 2021, 14, 2056–2066. (IF=7.962)

2020

[51] D. Song, J. Zheng, * L. B. Liu, H. Alsulami, M.  A. Kutbi, J. Xu and M. Zhang*, Templated synthesis of nickel nanoparticles embedded in a carbon layer within silica capsules, Dalton Trans., 2020, 49, 2570–2577.

[50] Q. Niu, J. Zheng, * L. B. Liu, J. Xu, H. Alsulami, M. A. Kutbic and M. Zhang *, Nanostructured MnO2 nanosheets grown on nickel foam: an efficient and readily recyclable 3D artificial oxidase for the colorimetric detection of ascorbic acid, New J. Chem., 2020, 44, 11959—11964.

[49] Q. Niu, M. Zhang, * L. B. Liu, J. Zheng, Q. Fang and J. Xu, A facile synthesis of one-dimensional hierarchical magnetic metal silicate microtubes with enhanced adsorption performance, Dalton Trans., 2020, 49, 11120–11128.

[48] Q. Niu, M. Zhang, L. B. Liu, J. Zheng, Q. Fang and J. Xu, A facile template method to fabricate strongly coupled 1D sandwich-like C@Fe3O4@C/Ni coaxial microtubes with enhanced catalytic performance, CrystEngComm, 2020, 22, 5302–5309.

[47] Y. Ling, T. Cao, L. B. Liu, J. Xu, J. Zheng, J. Li and M. Zhang *, Fabrication of noble metal nanoparticles decorated on one dimensional hierarchical polypyrrole@MoS2 microtubes, J. Mater. Chem. B, 2020, 8, 7801—7811.

[46] J. Hu, M. Zhang,* L. B. Liu, J. Zheng, H. Alsulami, M. A. Kutbi, and J. Xu, Structural Evolution of Cu2O‑Derived Hybrids Comprised of Copper Cores, a Silica Interlayer, and Carbon as the Outlayer, Inorg. Chem. 2020, 59, 9356−9363.

[45] Y. Shi, M. Zhang,*, L. B. Liu, X. Bai, H. Yuan, H. Alsulamic, M. A. Kutbic, J. Yang,* Fabrication of hierarchical MnxOy@SiO2@C-Ni nanowires for enhanced catalytic performance, Colloids and Surfaces A 2020, 586, 124211.

[44] M. Zhang,⁎, L. Ding, J. Zheng, L. B. Liu*, H. Alsulamic, M. A. Kutbic, J. Xu, Surface modification of carbon fibers with hydrophilic Fe3O4 nanoparticles for nickel-based multifunctional composites, Applied Surface Science 2020, 509, 145348.

[43] M. Zhang, * Y. Ling, L. B. Liu*, J. Xu, J. Li and Q. Fang*, Carbon supported PdNi alloy nanoparticles on SiO2 nanocages with enhanced catalytic performance, Inorg. Chem. Front., 2020, 7, 3081–3091.

[42] H. Zhang, J. Yang, T. Li, X. Ji, Z. Xu*, Y. Zhu and L. B. Liu*, Alkyl Chain Grafted-Reduced

Graphene Oxide Membrane for Effective Separation of Water/Alcohol Miscible Mixtures, Frontiers in Chemistry, 2020, 8, 598562.

[41] H. Zhang, X. Ji, L. B. Liu*, J. Ren, F. Tao, C. Qiao, Versatile, mechanochemically robust, sprayed superomniphobic coating enabling low surface tension and high viscous organic liquid bouncing, Chemical Engineering Journal 2020, 402, 126160. (IF=10.652)

[40] J. Yang, X. Ji, L. B. Liu*, Y. Xiang, Y. Zhu, One step fabrication of graphene/polypyrrole/Ag composite electrode towards compressible supercapacitor, Journal of Alloys and Compounds 2020, 820, 153081.

[39] J. Yang, Y. Du, X. Li, C. Qiao, H. Jiang, J. Zheng, C. Lin,* and L. B. Liu*, Fatigue-Resistant, Notch-Insensitive Zwitterionic Polymer Hydrogels with High Self-Healing Ability, ChemPlusChem 2020, 85, 2158–2165.

[38] J. Wang, Q. Zhang, X. Ji, and L. B. Liu*, Highly Stretchable, Compressible, Adhesive, Conductive Self-healing Composite Hydrogels with Sensor Capacity, Chinese J. Polym. Sci. 2020, 38, 1221–1229.

[37] C. Pan, J. Wang, X. Ji and L. B. Liu*, Stretchable, compressible, self-healable carbon nanotube mechanically enhanced composite hydrogels with high strain sensitivity, J. Mater. Chem. C, 2020, 8, 1933—1942. (Selected as Frontal Cover, IF=7.059)

[36] J. Ren, F. Tao,* L. B. Liu, X. Wang, Y. Cui, A novel TiO2@stearic acid/chitosan coating with reversible wettability for controllable oil/water and emulsions separation, Carbohydrate Polymers 2020, 232, 115807. (IF=7.182)

2019

[35] N. Wang, M. Zhang, L. B. Liu, J. Zheng, J. Xu, T. Hayat and N. S. Alharbi, Space-confined pyrolysis for fabrication of peacods-like Fe3O4@C-Ni nanostructures for catalysis and protein adsorption, Nanotechnology 2019, 30, 415602.

[34] N. Wang, Q. Wen, L. B. Liu, J. Xu, J. Zheng, M. Yue, A. M. Asiri, H. M. Marwanid and M. Zhang, One dimensional hierarchical nanoflakes with nickel-immobilization for high performance catalysis and histidine-rich protein adsorption, Dalton Trans., 2019, 48, 11308–11316.

[33] H. Zhang, G. Guo, L. B. Liu*, F. Tao, J. Ren, L. Zheng, Journal of Saudi Chemical Society 2019, 23, 1007–1015.

[32] D. Li, Z. Xu, X. Ji, L. B. Liu*, G. Gai, J. Yang and J. Wang, Deep insight into ionic transport in polyampholyte gel electrolytes towards high performance solid supercapacitors, J. Mater. Chem. A, 2019, 7, 16414–16424. (IF=11.301)

[31] G. Gai, L. B. Liu*, C.-H. Li, R. K. Bose, D. Li, N. Guo, and B. Kong, A Tough Metal-Coordinated Elastomer: A Fatigue-Resistant, Notch-Insensitive Material with an Excellent Self-Healing Capacity, ChemPlusChem 2019, 84, 432–440.

2018

[30] 邢亚男,刘利彬* ,朱国富,徐元朴, 超疏水超疏油涂层的制备及其性质, 56net亚洲必嬴学报, 2018, 32, 21.

[29] Q. Zhang, L. B. Liu*, C. Pan, and D. Li, Review of recent achievements in self-healing conductive materials and their applications, J Mater Sci 2018, 53:27–46.(高被引论文)

[28] Q. Zhang, L. B. Liu*, C. Pan, D. Li and G. Gai, Thermally sensitive, adhesive, injectable, multiwalled carbon nanotube covalently reinforced polymer conductors with self-healing capabilities, J. Mater. Chem. C, 2018, 6, 1746—1752.

[27] Y. Du, D. Li , L. B. Liu*, and G. Gai, Recent Achievements of Self-Healing Graphene/Polymer Composites, Polymers 2018, 10, 114.

[26] G. Guo, L. B. Liu*, Q. Zhang, C. Pan and Q. Zou, Solution-processable, durable, scalable, fluorine grafted graphene-based superhydrophobic coating for highly efficient oil/water separation under harsh environment, New J. Chem., 2018, 42, 3819—3827.

[25]Y. Du, L. B. Liu*, Y. Xiang, Q. Zhang, Enhanced electrochemical capacitance and oil-absorbability of N-doped graphene aerogel by using amino-functionalized silica as template and doping agent, Journal of Power Sources 2018, 379, 240–248.

2017

[24] C. Pan, L. B. Liu*, and G. Gai, Recent Progress of Graphene-Containing Polymer Hydrogels: Preparations, Properties, and Applications, Macromol. Mater. Eng. 2017, 302, 1700184.

[23] C. Pan, L. B. Liu*, Q. Chen, Q. Zhang, and G. Guo, Tough, Stretchable, Compressive Novel Polymer/Graphene Oxide Nanocomposite Hydrogels with Excellent Self-Healing Performance, ACS Appl. Mater. Interfaces 2017, 9, 38052-38061.

[22] G. Guo, L. B. Liu*, Z. Dang and W. Fang, Recent Progress of Polyurethane-Based Materials for Oil/Water Separation, Nano, 2017, 4, 1730001.

[21] W. Fang, L. B. Liu*, and G. Guo, Tunable Wettability of Electrospun Polyurethane/Silica Composite Membranes for Effective Separation of Water-in-Oil and Oil-in-Water Emulsions, Chem. Eur. J. 2017, 23, 11253 – 11260. (Selected as Cover)

2016

[20] Y. Xiang, L. B. Liu*, Z. Dang and T. Li, Progressof Graphene-based Hydrogel, Materials Science Forum 2016, 852, 714-719.

[20]Y. Xiang, L. B. Liu*, T. Li, Z. Dang, Compressible, amphiphilic graphene-based aerogel using a molecular glue to link graphene sheets and coated-polymer layers, Materials and Design 2016, 110, 839–848.

[20] X. Wu, L. B. Liu*, W. Fang, C. Qiao, T. Li, Effect of hard segment architecture on shape memory properties of polycaprolactone-based polyurethane containing azobenzene, J Mater Sci 2016, 51:2727–2738 2729.

[19] Q. Huang, L. Liu, D. Wang, J. Liu, Z. Huang and Z. Zheng, One-step electrospinning of carbon nanowebs on metallic textiles for high-capacitance supercapacitor fabrics, J. Mater. Chem. A, 2016, 4, 6802–6808.

[18] W. Fang, L. B. Liu*, T. Li, Z. Dang, C. Qiao, J. Xu and Y. Wang, Electrospun N-Substituted Polyurethane Membranes with Self-Healing Ability for Self-Cleaning and Oil/Water Separation, Chem. Eur. J. 2016, 22, 878 – 883.

[17] 党钊,刘利彬,向宇,方文元, 超疏水-超亲油材料在油水分离中的研究进展, 化工进展,201625,216

[16] Z. Dang, L. B. Liu*, Y. Li, Y. Xiang and G. Guo, In Situ and Ex Situ pH-Responsive Coatings with Switchable Wettability for Controllable Oil/Water Separation, ACS Appl. Mater. Interfaces 2016, 8, 31281−31288.

2015

[15] L. B. Liu, Y. Yu, C. Yan, K. Li & Z. Zheng, Wearable energy-dense and power-dense supercapacitor yarns enabled by scalable graphene–metallic textile composite electrodes, Nature Communications 2015, 6:7260

[14]J. Liu, L. B. Liu*, X. Wu, X. Zhang and T. Li*, Environmentally friendly synthesis of graphene–silver composites with surface-enhanced Raman scattering and antibacterial activity via reduction with L-ascorbic acid/water vapor, New J. Chem., 2015, 39, 5272—5281.

[13]T. Li, Y. Ding, L. B. Liu*, J. Liu, W. Fang, Y. Xiang and T. Li, Facile fabrication of multifunctional perfluoroalkyl functionalized graphene hydrogel via a synchronous reduction and grafting strategy, J. Mater. Chem. A, 2015, 3, 21744–21753.

2014

[12] L. B. Liu*, X. Wu, T. Li, Novel polymer electrolytes based on cationic polyurethane with different alkyl chain length, Journal of Power Sources 2014, 249, 397-404.

2013

[11] Y. Wang, L. B. Liu*, C. Qiao, T. Li, Stimuli-Responsive Films Based on N-Substituted Polyurethane with Different Alkyl Length, Aust. J. Chem. 2013, 66, 1361–1369.

2006-2012

[10] L. B. Liu, T. D. Li, M. Lee, Chiral assemblies of achiral rigid-flexible molecules at the air/water interface induced by Silver(I) coordination ChemPhysChem 2012, 13, 578-582.

[9]  L. B. Liu, H.-J. Kim, M. Lee, Langmuir-Blodgett assembly of Bent-shaped rigid amphiphiles into spiral ringsSoft Matter2011, 7, 91-95.

[8]  L. B. Liu, J.-K. Kim, M. Lee, Mesocale surface patterning of laterally-grafted rod amphiphile: ring and fiberChemPhysChem2010, 11, 706-712.

[7]  L. B. Liu, D.-J. Hong, M. Lee, Chiral assembly form achiral rod-coil molecules triggered by compression at the air-water interface Langmuir2009, 25, 5061-5067.

[6]  L. B. Liu,J.-K. Kim, R. Gunnawidjaja, V. V. Tsukruk, M. Lee, Toroid morphology by ABC-type amphiphilic rod-coil molecules at the air-water Interface  Langmuir2008, 24, 12340-12346.

[5]  L. B. Liu,J.-K. Kim, M. Lee, Interfacial organization of Y-shaped rod-coil molecules packed into cylindrical nanoarchitecturesChemPhysChem2008, 9, 1585-1592.

[4]  L. B. Liu, K.-S. Moon, R. Gunnawidjaja, E. Lee, V. V. Tsukruk, M. Lee, Molecular reorganization of paired assemblies of T-shaped rod-coil amphiphilic molecule at the air-water Interface Langmuir2008, 24, 3930-3936.

[3]  L. B. Liu, X. Gao, Y. Cong, B. Li, Y. Han, Multiple morphologies and their transformation of a polystyrene-b-poly(4-vinylpyridine) block copolymer by controlling the polymer-solvent Interaction Macromol. Rapid Commun. 2006, 27, 260-265.

[2]  Z. Huang, L. B. Liu, E. Lee, M. Lee, Self-assembly of Dumbbell-shaped rod amphiphiles based on dodeca-p-phenylene Bull. Korean Chem. Soc. 2008, 29, 1485-1490.

[1]  W. Huang, J. Li, L. Xue, R. Xing, S. Luan, C. Luo, L. B. Liu, Y. Han,Complex aggregates of spherical colloids via modified micromolding in capillaries Colloids and Surfaces A: Physicochem. Eng. Aspects 2006, 278, 144-148.

 

   授权专利

1. 通过静电纺丝技术制备含氟的N-取代聚氨酯超疏水超疏油薄膜的方法, ZL201410589362.9,发名人:刘利彬,党钊等。

2. 三维网络结构石墨烯-银复合材料的绿色制备方法,ZL201410667164.X,发明人:刘利彬,刘健等。

3.偶氮聚氨酯多孔材料的制备方法,ZL201410232427.4,发明人:刘利彬,吴希文等。

4. 一种可自修复的油水分离材料及其制备方法,ZL20I510340074.4,发明人:刘利彬,方文元等。

5.疏水亲油-亲水水下疏油薄膜及其调控方法、制备工艺与应用,ZL201610450786.6,发明人:刘利彬,方文元等。

6. 一种基于化学还原法的石墨烯可压缩气凝胶及其制备方法、应用,ZL20I610242043.X,发明人:刘利彬,方文元等。

7. pH响应性的二维薄膜和三维海绵油水分离材料的制备及油水分离的应用,ZL201610548449.0,发明人:刘利彬,党钊等

8. pH控制由超双疏至超疏水-超亲油转变的材料及制备方法,ZL201611192129.2,发明人:刘利彬,党钊等

9.一种碳烷基链改性石墨烯薄膜及其制备方法、应用,ZL201610357310.8,发明人:刘利彬,李婷等

10.一种基于水热还原法的石墨烯可压缩气凝胶及其制备方法、应用,ZL201610240554.8,发明人:刘利彬,向宇等

11.一种以SiO2-NH2同时作为模板和氮掺杂剂制备氮掺杂石墨烯气凝胶的方法,ZL201710543423.1,发明人:刘利彬,杜永旭等

12. 由金属配位作用的具有韧性、耐疲劳性、对切口不敏感性、优异自修复性能的弹性体,ZL201811168686.X,发明人:刘利彬,盖广杰等

13.坚固,耐用,可量产的氟接枝石墨烯基超疏水涂层在恶劣环境下有效的油水分离,ZL2017104272545,发明人:刘利彬,郭改兰等

14.一种自修复聚氨酯离子导电体制备及应用,ZL201910543573.1,发明人:刘利彬,盖广杰等

15.具有良好性能的两性凝胶聚合物电解质及其制备应用,ZL201910176144.5,发明人:刘利彬,李冬等

16.高导电、可拉伸压缩、可修复的两性离子凝胶聚合物电解质及其制备、应用,ZL2019113506245,发明人:刘利彬,孙伟刚等

17.一种可压缩石墨烯气凝胶及其超级电容器的制备方法、应用,ZL2017105968262,发明人:刘利彬,向宇等

18.具有优异机械性能及化学稳定性的涂层的制备,ZL2019113487719,发明人:刘利彬,张海龙等

19. 具有优异性能的超疏水超疏油涂层的制备及应用,ZL201911348754.5,发明人:刘利彬,张海龙等

20. 一种超双疏涂层的制备及其应用,ZL201911350713X,发明人:刘利彬,张海龙等

21.一种超疏水超疏油阻燃隔热涂层及其制备方法,ZL202210097269.0,发明人:刘利彬,卜鑫瑜等

22.一种基于凝胶聚合物电解质的超级电容器及其制备方法,ZL202110227304.1,发明人:刘利彬,王济君等

23.一种凝胶聚合物电解质的制备方法和超级电容器应用,ZL202110227310.7,发明人:刘利彬,王济君等

24.可拉伸、可压缩、抗冻有机水凝胶电解质、制备方法及应用,ZL202110947371.0,发明人:刘利彬,王济君等

25.可拉伸、可压缩、抗冻有机水凝胶电解质基超级电容器及其制备方法,ZL202110947372.5,发明人:刘利彬,王济君等

26.抗冻固态电解质及制备方法、在电容器中的应用,ZL202010082547.6,发明人:刘利彬,杨健波等

27.一种防冻两性离子水凝胶电解质及其制备方法,ZL202011419403.1,发明人:刘利彬,杨健波等

28.阻燃、超耐磨、超疏水的三层涂层及其制备与应用,ZL202110602742.1,发明人:刘利彬,张海龙等

29. 耐磨、稳定的阻燃超疏水超疏油涂层及其制备与应用,ZL202210009950.5,发明人:刘利彬,张海龙等

30.一种PolyAS电解质基超级电容器及其制备方法,ZL202210484238.0,发明人:刘利彬,孙伟刚等

31.基于离子跃迁和Grotthuss传输机制的抗冻两性离子水凝胶电解质,ZL202210484239.5,发明人:刘利彬,孙伟刚等

32. SUPERCAPACITOR CONTAINING ANTIFREEZING ZWITTERION HYDROGEL ELECTROLYTE AND PREPARATION METHOD THEREOFUS 11,710,604 B2,美国专利,发明人:刘利彬,杨健波等

33.一种防冻两性离子水凝胶电解质及其应用,ZL202011419388.0,发明人:刘利彬,杨健波等

34.一种机械化学稳定性的MSC防腐超滑涂层及防腐方法,ZL202211701207.2,发明人:刘利彬,卜鑫瑜等

35. 一种机械化学稳定性的防冰超滑涂层及其制备方法,ZL 202211699961.7,发明人:刘利彬,张海龙等

 

奖励和荣誉

2023年,获得中国化工学会科技进步一等奖

2023年,获得中国发明协会创新创业一等奖

2023年,获得山东省新旧动能转换高价值专利培育大赛三等奖

2022年,获得中国技术市场协会金桥奖

2022年,被山东省人民政府授予“山东省留学人员回国创业奖”称号

2020年,获得山东省自然科学二等奖(第一位)

2020年,被聘为山东省知识产权智库专家

2019年,被评选为山东省科普专家人才库工程技术类专家

2019年,获得“56net亚洲必嬴优秀研究生指导教师”荣誉称号

2019年,获第十五届济南市优秀自然科学学术成果一等奖,第十五届自然科学优秀人才奖

2018年,指导研究生获得山东省创新成果奖三等奖

2017年,被聘为山东省首届创新创业教育导师

2016年,获得山东省高等学校科学技术奖一等奖(第一位)

2016年,获得第十一届济南市青年科技奖

2009年,获得中国教育部颁发的“国家优秀自费留学生奖学金”

2008年,2009年两次获得韩国政府BrainKorea (BK) 21奖学金

 

学生获奖情况

2023年,指导研究生获得山东省优秀硕士论文

2023年,指导本科生、研究生获得第十八届“挑战杯”大赛山东省金奖、国家三等奖

2023年,指导本科生、研究生中国国际大学生创新大赛金奖

2023年,指导本科生、研究生获得第八届中国国际“互联网+”大赛山东省金奖

2022年,指导本科生、研究生获得第八届中国国际“互联网+”大赛国家铜奖

2022年,指导本科生、研究生获得第八届中国国际“互联网+”大赛山东省金奖

2021年,指导研究生两人获得“山东省优秀毕业生”称号

2020年,指导研究生获得山东省优秀成果奖三等奖

2018年,指导研究生获得56net亚洲必嬴科技创新大赛一等奖,山东省科技创新大赛三等奖

2016年,指导本科生获56net亚洲必嬴优秀学士论文

2015年,2016年,指导研究生获得“国家奖学金”

2015年,指导本科生获得山东省创新创业大赛二等奖

2014年,指导本科毕业论文获56net亚洲必嬴优秀学士论文

2013年,指导本科生、研究生获山东省“挑战杯”大学生创业竞赛三等奖

2012年,指导本科毕业论文获山东轻工业学院优秀学士论文

 

教学及社会兼职:

 

主要讲授《高分子科学教程》韩哲文主编

        《高等有机化学》魏荣宝主编

        《精细化学品化学》周立国段洪东刘伟主编

         《皮肤生理学》

         《功能高分子材料》焦剑姚军燕

社会兼职:

中国高分子专家智库委员会常务委员

中国能源学会专家组委员、山东省知识产权智库专家

中国化学会高级会员、中国材料学会会员