代表性成果:
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1. 代表性论文
(1)Junwei Lang, Xu Zhang(共一), Li Liu, Bingjun Yang, Juan Yang, Xingbin Yan ,Highly enhanced energy density of supercapacitors at extremely low temperatures; Journal of Power Sources; 2019,423: 271-279.
(2)Xu Zhang, Chao Peng, Rutao Wang, Junwei Lang*, High-performance supercapacitors based on novel carbons derived from sterculialychnophora. RSC Advances, 2015, 5: 32159-32167.
(3)Xu Zhang, Xinbing Yan*, Jiangtao Chen, Jingping Zhao, Large-size graphenemicrosheets as a protective layer for transparent conductive silver nanowire film heaters. Carbon, 2014, 69: 437-443.
(4)Shunhua Wang, Xu Zhang*, Weiwei Zhao, Flexible, Transparent, and Conductive Film Based on Random Networks of Ag Nanowires. Journal of Nanomaterials,2013,2013:5.
(5)Hongguang Fan, Xu Zhang, Youcheng Wang, Junwei Lang, RongjieGao ,Highly conductive KNiF3@carbon nanotubes composite materials with cross-linked structure for high performance suepercapacitor; Journal of Power Sources,2020,474,228603.
(6)Hongguang Fan, Xu Zhang, Youcheng Wang, RongjieGao, Junwei Lang, Mn and Co co-doped perovskite fluorides KNiF3 with enhanced capacitive performance; Journal of Colloid and Interface Science; 2019,557: 546-555.
(7)Xin Jing, Xu Zhang, Youcheng Wang, Huanlei Wang, Mingliang Sun, Wei Wang, Junwei Lang, High lithium anodic performance of flower-like carbon nanoflakes derived from MOF based on double ligands; Journal of Alloys and Compounds; 2019,806: 520-528.
(8)Junwei. Lang, Xu Zhang, Bao Liu, Rutao Wang, Jiangtao Chen, Xinbing Yan*, The roles of graphene in advanced Li-ion hybrid supercapacitors. Journal of Energy Chemistry, 2018, 27, 43-56.
(9)郎俊伟, 张旭, 杨兵军, 李红霞, 阎兴斌,非水体系锂/钠离子电容器研究进展; 中国科学:化学; 2018, 48(12): 1478-1513.
(10)荆鑫, 张旭, 王玮, 郎俊伟,兼具高质量和高体积能量密度的水系全金属氧化物不对称超级电容器; 电化学;2018, 24(4): 332-343.
(11)郎俊伟, 张旭,王儒涛, 阎兴斌*, 超级电容器能量密度的提升策略。电化学, 2017, 23, 507-532.
(12)BaoshouShen, Xu Zhang, RuishengGuo, Junwei Lang, Jiangtao Chen, Xinbing Yan*, Carbon encapsulated RuO2nano-dots anchoring on graphene as an electrode for asymmetric supercapacitors with ultralong cycle life in an ionic liquid electrolyte, Journal of Materials Chemistry A, 2016, 4: 8180-8189.
(13)Xin Jing , Youcheng Wang , Xu Zhang , Junwei Lang, Wei Wang , Anchoring nitrogen-doped carbon particles on lithium titanate to enhanceits lithium storage performance,Journal of Electroanalytical Chemistry 871 (2020) 114293.
(14)Yinglun Sun, Pengjun Ma, Lingyang Liu, Jiangtao Chen, Xu Zhang, JunweiLang,andXingbin Yan*, Solar-Thermal Driven Self-Heating ofMicro-Supercapacitors at Low Temperatures. Sol. RRL2018,2, 1800223.
(15)Lijun Wu, Junwei Lang,Peng Zhang, Xu Zhang,RuishengGuoXingbin Yan*. Mesoporous Ni-doped MnCo2O4 hollow nanotubes as an anode material for sodium ion batteries with ultralong life and pseudocapacitive mechanism.Journal of Materials Chemistry A, 2016, 4, 18392–18400.
(16)Peiyu Wang, Rutao Wang, Junwei Lang, Xu Zhang, Zhenkun Chen,Xingbin Yan* . Porous niobium nitride as a capacitive anode material for advanced Li-ion hybrid capacitors with superior cycling stability. Journal of Materials Chemistry A,2016, 4, 9760–9766.
(17)Qingyun Dou, Yulan Lu, Lijun Su, Xu Zhang,Shulai Lei, Xudong Bu,Lingyang Liu, Dewei Xiao, Jiangtao Chen, Siqi Shi , Xingbin Yan*. A sodium perchlorate-based hybrid electrolyte with high salt-to-water molar ratio for safe 2.5?V carbon-based supercapacitor. Energy Storage Materials, 23 (2019) 603–609.
(18)Pengjun Ma, Yinglun Sun, Xu Zhang,Jiangtao Chen, Bingjun Yang, Qingnuan Zhang, XianghuGao, Xingbin Yan*. Spinel-type solar-thermal conversion coatings on supercapacitors: An effective strategy for capacitance recovery at low temperatures.Energy Storage Materials, 23 (2019) 159–167.
(19)Qingnuan Zhang,Mikhael D. Levi,Yinguang Chai,Xu Zhang,Dewei Xiao,Qingyun Dou,Pengjun Ma,HengxingJi,Xingbin Yan*. Vacuum Filtration-and-Transfer Technique Helps Electrochemical Quartz Crystal Microbalance to Reveal Accurate Charge Storage in Supercapacitors. Small Methods, 2019, 3, 11.
(20)Lingyang Liu, Qingyun Dou, Yinglun Sun, Yulan Lu, Qingnuan Zhang,JianingMeng, Xu Zhang,Siqi Shi , Xingbin Yan*. A moisture absorbing gel electrolyte enables aqueous and flexible supercapacitors operating at high temperatures. Journal of Materials Chemistry A, 2019, 7, 20398–20404.
(21)YongtaiXu, Jiaojiao Zhu, JianzeFeng, Yue Wang, Xiaoxia Wu, Pengjun Ma, Xu Zhang,Guangzhao Wang, Xingbin Yan*, A rechargeable aqueous zinc/sodium manganese oxides battery with robust performance enabled by Na2SO4 electrolyte additive, Energy Storage Materials, 38(2021) 299-308.
(22)Yinglun Sun, Hongyun Ma, Xiaqing Zhang, Bao Liu, Lingyang Liu, Xu Zhang,JianzeFeng, Qingnuan Zhang, Yunxia Ding, Bingjun Yang, LiangtiQu, Xingbin Yan*. Salty ice electrolyte with superior ionic conductivity towards low-temperature aqueous zinc ion hybrid capacitors, Advanced Functional Materials, 2021, 31, 2101277.
(22)Kailimai.Su, Jing. Chen, Xu. Zhang,Jianze. Feng, Yongtai. Xu, Yunxun. Pu,Chengshuai Wang, Pengjun Ma, Yan Wang*, Junwei Lang*, Inhibition of zinc dendrites by dopamine modified hexagonal boron nitride electrolyte additive for zinc-ion batteries,Journal of Power Sources, 2022, 548, 232074.
(23)KailimaiSu, Yan Wang, BaoYang, Xu Zhang, Wei Wu, Junwei Lang*,Xingbin Yan*, A review: pre-lithiation strategies based on cathode sacrificial lithium salts for lithium-ion capacitors, Energy & Environmental Materials, 2022, Inpress, DOI:10.1002/eem2.12506.
(24)YongtaiXu, JianzeFeng, Hongyun Ma, Jiaojiao Zhu, Xu Zhang, Junwei Lang,Shengrong Yang, Xingbin Yan*, Superior Volumetric Capability Dual-Ion Batteries Enabled by A Microsize Niobium Tungsten Oxide Anode, Energy Storage Materials,2022, 32, 25, 2112223.
(25)Bingjun Yang*, Bao Liu, Yirun Zhu, Yunxia Ding, Juan Yang, Pengjun Ma, Xu Zhang,Jiangtao Chen, Constructing a 3D crumpled MXene host for high-performance lithium metal anode,SCRIPTA MATERIALIA,accepted.
(26)Yan Wang, Kailimai Su, Xingyun Zhang, Xu Zhang, Bingjun Yang, ShushengXu, Junwei Lang*, Unraveling energy storage behavior of independent ions in carbon electrode for supercpacitors by polymeric ionic liquids and electrochemical quartz crystal microbalance, Chemical Engineering Journal, 2023, 460, 141704.
(27)Yan Wang, KaiyuanXue, Xingyun Zhang, Xu Zhang,Pengjun Ma, Binjun Yang, ShushengXu, Junwei Lang*, High-voltage electrochemical double layer capacitors enabled by polymeric ionic liquid, ElectrochimicaActa, 2023, 441, 141829.
2. 代表性专利
(1)阎兴斌,汪妍,郎俊伟,冯建泽,张旭,一种聚合离子液体及其制备方法和应用、超级电容器电解液,专利号:ZL 202110054752.6
(2)阎兴斌汪妍郎俊伟冯建泽张旭,一种含醚基咪唑类聚合离子液体及其制备方法和应用,专利号:ZL 202010580749.3
(3)阎兴斌马鹏军张旭郎俊伟杨娟, 一种电能产储装置及其制作方法,申请号:201910949035.2
(4)阎兴斌郎俊伟张旭刘莉杨兵军, 一种在超低温条件下性能更优异的超级电容器及其制备方法,申请号:201811340619.1
(5)阎兴斌马鹏军张旭赵云杨娟郎俊伟 , 一种保护电池组低温工作的新型太阳能吸收保温装置,专利号:ZL 201822026526.3
(6)阎兴斌吴利军杨娟郎俊伟张旭,一种镍钴锰复合氧化物锂离子电池负极材料及其制备方法和应用,专利号:ZL 201410656505.3
(7)一种在超低温条件下性能更优异的超级电容器及其制备方法. 阎兴斌,郎俊伟,张旭,刘莉,杨兵军,申请号:201811340619.1 。
(8)一种具有超长循环稳定性的不对称电容器的制备方法。阎兴斌,申保收,郎俊伟,张旭。申请号:201610192651.4。
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