姓名：崔永朋
系属：材料化学


学位：博士
职称：

专业：材料科学与工程
导师类别：

电子邮箱：yongpengcui@upc.edu.cn

通讯地址：山东省青岛市黄岛区长江西路66号

概况

u研究方向
1、新型碳材料与碳基复合材料的设计与合成
2、锂、钠、钾离子电池，超级电容器等电化学储能器件的应用研究
u教育经历
2017.09-2020.07，中国海洋大学，海洋材料科学与工程，博士
2015.09-2017.07，中国海洋大学，材料学，硕士
2011.09-2015.07，青岛科技大学，金属材料科学与工程，学士
u工作经历
2020.09-至今，中国石油大学（华东），师资博士后
u承担项目
1、博士研究生自主科研项目（中央高校基本科研业务费）
2018.06—2019.12，基于模板设计新型碳材料及其储能器件组装，主持，已结题。
u获奖情况
1、山东省研究生优秀成果奖二等奖（学术），“生物质基多孔电极材料的制备与其电化学性能的研究”，排名2/3，2019年。
2、山东省研究生优秀成果奖三等奖（专业），“鱼骨基生物质多孔碳的制备及其在电化学方向的应用”，排名2/2，2019年。
3、中国海洋大学研究生优秀成果奖一等奖，“纤维素和盐晶模板制备多孔碳基材料用于钾离子电池研究”，排名1/4，2020年。
u论文
1.Cui, Y.; Feng, W.; Liu, W.; Li, J.; Zhang, Y.; Du, Y.; Li, M.; Huang, W.; Liu, S.; Wang, H., Template-assisted loading of Fe₃O₄nanoparticles inside hollow carbon “rooms” to achieve high volumetric lithium storage. Nanoscale 2020, 12, 0816-10826. (IF=6.895)
2. Feng, W.; Cui, Y.^{(equal contribution)}; Liu, W.; Wang, H.; Zhang, Y.; Du, Y.; Liu, S.; Wang, H., A Rigid-Flexible Coupling Carbon Skeleton and Potassium Carbonate-Dominated Solid Electrolyte Interface Achieving Superior Potassium Ion Storage Performance. ACS Nano2020, 14,4938-4949.(Co-first author，IF=14.588)
3.Cui, Y.; Liu, W.; Feng, W.; Zhang, Y.; Du, Y.; Liu, S.; Wang, H.; Chen, M.; Zhou, J., Controlled Design of Well-Dispersed Ultrathin MoS₂Nanosheets inside Hollow Carbon Skeleton: Toward Fast Potassium Storage by Constructing Spacious Houses for K Ions. Advanced Functional Materials 2020, 30, **. (IF=16.836)
4. Cui, Y.; Liu, W.; Wang, X.; Li, J.; Zhang, Y.; Du, Y.; Liu, S.; Wang, H.; Feng, W.; Chen, M., Bioinspired Mineralization under Freezing Conditions: An Approach to Fabricate Porous Carbons with Complicated Architecture and Superior K⁺Storage Performance. ACS Nano2019, 13,10853-10855. (IF=14.588)
5.Cui, Y.; Liu, W.; Lyu, Y.; Zhang, Y.; Wang, H.; Liu, Y.; Li, D., All-carbon lithium capacitor based on salt crystal-templated, N-doped porous carbon electrodes with superior energy storage. Journal of Materials Chemistry A2018,6(37), 18276-18285. (IF=11.301)
6. Shan, B.; Cui, Y.^{(equal contribution)}; Liu, W.; Zhang, Y.; Liu, S.; Wang, H.; Sun, L.; Wang, Z.; Wu, R., Fibrous Bio-Carbon Foams: A New Material for Lithium-Ion Hybrid Supercapacitors with Ultrahigh Integrated Energy/Power Density and Ultralong Cycle Life. ACS Sustainable Chemistry & Engineering2018, 6(11), 14989-15000. (Co-first author，IF=7.632)
7.Cui, Y.; Wang, H.; Mao, N.; Yu, W.; Shi, J.; Huang, M.; Liu, W.; Chen, S.; Wang, X., Tuning the morphology and structure of nanocarbons with activating agents for ultrafast ionic liquid-based supercapacitors. Journal of Power Sources2017,361, 182-194. (IF=8.247)
8.Cui, Y.; Wang, H.; Xu, X.; Lv, Y.; Shi, J.; Liu, W.; Chen, S.; Wang, X., Nitrogen-doped porous carbons derived from a natural polysaccharide for multiple energy storage devices. Sustainable Energy & Fuels2018, 2(2), 381-391. (IF=5.503)
9. Sun, L.; Liu, W.; Wu, R.; Cui, Y.; Zhang, Y.; Du, Y.; Liu, S.; Liu, S.; Wang, H., Bio-Derived Yellow Porous TiO₂: the Lithiation Induced Activation of an Oxygen-Vacancy Dominated TiO₂Lattice Evoking a Large Boost in Lithium Storage Performance.Nanoscale 2020, 12 (2), 746-754. (IF=6.895)
10. Zhang, Y.; Zhang, M.; Liu, W.; Cui, Y.; Wang, T.; Liu, S.; Wang, H.; Chen, S.; Huang, M.; Du, Y., Cable-Like Heterogeneous Porous Carbon Fibers with Ultrahigh-Rate Capability and Long Cycle Life for Fast Charging Lithium-Ion Storage Devices.Nanoscale 2019, 11 (43), 20893-20902. (IF=6.895)
11. Yang, R.; Sun, L.; Liu, W.; Zhang, Y.; Cui, Y.; Du, Y.; Liu, S.; Wang, H.; Huang, M., Bio-derived 3D TiO2 hollow spheres with a mesocrystal nanostructure to achieve improved electrochemical performance of Na-ion batteries in ether-based electrolytes. Journal of Materials Chemistry A2019,7(7), 3399-3407. (IF=11.301)
12. Sun, L.; Liu, W.; Cui, Y.; Zhang, Y.; Wang, H.; Liu, S.; Shan, B., Non-carbon coating: a new strategy for improving lithium ion storage of carbon matrix. Green Chemistry2018,20(17), 3954-3962. (IF=9.405)
13. Guo, Y.; Liu, W.; Wu, R.; Sun, L.; Zhang, Y.; Cui, Y.; Liu, S.; Wang, H.; Shan, B., Marine-Biomass-Derived Porous Carbon Sheets with a Tunable N-Doping Content for Superior Sodium-Ion Storage. ACS Applied Materials & Interfaces2018,10(44), 38376-38386. (IF=8.456)
14. Liu, X.; Wang, H.;Cui, Y.; Xu, X.; Zhang, H.; Lu, G.; Shi, J.; Liu, W.; Chen, S.; Wang, X., High-energy sodium-ion capacitor assembled by hierarchical porous carbon electrodes derived from Enteromorpha. Journal of Materials Science2018,53(9), 6763-6773. (IF=3.442)
15. Dong, G.; Wang, H.; Liu, W.; Shi, J.; Sun, S.; Li, D.; Zhang, H.; Yang, Y.; Cui, Y., Nitrate Salt Assisted Fabrication of Highly N-Doped Carbons for High-Performance Sodium Ion Capacitors. ACS Applied Energy Materials 2018, 1 (10), 5636-5645.
16. Liu, P.; Yang, L.; Liu, W.; Zhang, Y.; Wang, H.; Liu, S.; Yang, R.; Guo, Y.; Cui, Y., Novel hybrid anode of MnO nanoparticles and ultrathin carbon sheets for high lithium storage performance. Journal of Alloys and Compounds 2017, 740, 375-381. (IF=4.175)
17. Zhao, Y.; Cui, Y.; Shi, J.; Liu, W.; Shi, Z.; Chen, S.; Wang, X.; Wang, H., Two-dimensional biomass-derived carbon nanosheets and MnO/carbon electrodes for high-performance Li-ion capacitors.Journal of Materials Chemistry A2017,5(29), 15243-15252. (IF=11.301)
18. Mao, N.; Wang, H.; Sui, Y.; Cui, Y.; Pokrzywinski, J.; Shi, J.; Liu, W.; Chen, S.; Wang, X.; Mitlin, D., Extremely high-rate aqueous supercapacitor fabricated using doped carbon nanoflakes with large surface area and mesopores at near-commercial mass loading. Nano Research 2017,10(5), 1767-1783. (IF=8.515)
19. Xu, X.; Cui, Y.; Shi, J.; Liu, W.; Chen, S.; Wang, X.; Wang, H., Sorghum core-derived carbon sheets as electrodes for a lithium-ion capacitor. RSC Advances 2017,7(28), 17178-17183. (IF=3.049)
u专利
授权国家发明专利1项：
1、王焕磊，崔永朋，毛楠，“一步法制备类石墨烯碳纳米片材料的方法及其用途”，中国发明专利，CN6.9。