刘玉龙

Fronties of Energy Storage and Conversion
稀有金属（Rare Metals）青年编委
Batteries (Guest Editor)
Rare Metals 青年编委

2023年长春市科技人才创新，优秀青年

电化学能源基础（研究生2019年开始讲授）
诺贝尔化学奖的启示(2020级本科开始讲授)
食品化学
物理化学实验 （2022级本科）

After Joining Nenu

2024
1）Ultra-thin and high-voltage-stable Bi-phasic solid polymer electrolytes for high-energy-density Li metal batteries，Yiqi Gong a, Changhong Wang b, Mingyang Xin a, Silin Chen a, Pingbo Xu a, Dan Li a, Jia Liu a, Yintong Wang c, Haiming Xie a, Xueliang Sun d, Yulong Liu a，Nano Energy, 2024, 119, 109054.
2）Cointercalation-Free Ether-Based Deep Eutectic Electrolyte for All-Climate Battery, Mingyang Xin†, Zhenhua Liu†, Yuhan Liu, Feilong Dong, Pingbo Xu, Hao Sun, Haiming Xie and Yulong Liu, Renewables, 2023, 1(6), 591-600. https://doi.org/10.31635/renewables.023.202300040
3）Lithiophilic composite solid electrolyte interphase layer modified Li foils: Li metal battery failure analysis, Siru Chen 1, Pingbo Xu 1, Qingyang Mei, Haiming Xie, Yulong Liu, Journal of Energy Storage, 2023, 72 (Part D), 108538.
Enabling long-term oxide based solid-state lithium metal battery through a near room-temperature sintering process, Hao Sun a 1, Zhenhua Liu a 1, Mingyang Xin a, Yuting Shi a, Yutao Wang b, Shunchao Ma c, Xiaofei Yang d, Haiming Xie a, Yulong Liu, Journal of Colloid and Interface Science, 2024, 653, 908-916；IF = 9.5
4）

2023：
1）Anchoring polysulfide with artificial solid electrolyte interphase for dendrite−free and low N/P ratio Li–S batteries,Wei Lu; Zhao Wang; Guiru Sun; Shumin Zhang; Lina Cong; Lin Lin; Siru Chen; Jia Liu; Haiming Xie;* Yulong Liu ; Journal of Energy Chemistry, 2023, 80: 32-39 ；IF = 13.5
2）In-situ polymerized carbonate induced by Li-Ga alloy as novel artificial interphase on Li metal anode, Chinese Chem. Lett. ,2023, 34,108151
（3）Enabling high-capacity Li metal battery with PVDF sandwiched type polymer electrolyte, Mingyang Xin,Xin Lian,1Xuejie Gao,PingboXu,Wenbo Li, Feilong Dong, Aotian Zhang, Haiming Xie*,Yulong Liu*. Journal of Colloid and Interface Science, 2023, 629 , 980-988；IF = 9.5
（4）20 micro-meter Li metal modified with phosphate rich polymer-inorganic interphase applied in commercial carbonate electrolyte. Lin Lin,Wei Lu, Feipeng Zhao,Siru Chen, Jia Liu, Haiming Xie*, Yulong Liu*.  Journal of Energy Chemistry, 2023, 76, 233-238 ；IF = 13.5
（5）Structurally Integrated Asymmetric Polymer Electrolyte with Stable Janus Interface Properties for High-Voltage Lithium Metal Batteries, Silin Chen; Shunchao Ma; Zhenhua Liu; Yanan Li; Hongxing Yin; Huiyu Song; Min Zhang; Mingyang Xin; Liqun Sun; Yulong Liu; Haiming Xie**; Lina Cong*; Journal of Colloid And Interface Science 2023. 638：595-605； IF = 9.965
7.Wei Lu; Zhao Wang; Guiru Sun; Shumin Zhang; Lina Cong; Lin Lin; Siru Chen; Jia Liu;
Haiming Xie; Yulong Liu ; Anchoring polysulfide with artificial solid electrolyte interphase for
dendrite−free and low N/P ratio Li–S batteries, Journal of Energy Chemistry, 2023.2, 80: 32-
39 (期刊论文)

6.Mingyang Xin,Xin Lian,1Xuejie Gao,PingboXu,Wenbo Li,Feilong Dong, Aotian Zhang, Haiming Xie*,Yulong Liu*. Enabling high-capacity Li metal battery with PVDF sandwiched type polymer electrolyte,Journal of Colloid and Interface Science,Volume 629, 2023, 980-988 影响因子9.5

5.Lin Lin,Wei Lu,Feipeng Zhao,Siru Chen, Jia Liu, Haiming Xie*,Yulong Liu*. 20 micro-meter Li metal modified with phosphate rich polymer-inorganic interphase applied in commercial carbonate electrolyte.Journal of Energy Chemistry,76(2023)233-238 影响因子13.5

4. Yulong Liu*, Yang Zhao, Wei Lu, Liqun Sun, Lin Lin, Matthew Zheng, Xueliang Sun*, Haiming Xie*， PEO based polymer in plastic crystal electrolytes for room temperature high-voltage lithium metal batteries， Nano Energy, 2021,88,106205 (一作兼共同通讯） 影响因子19
（材料科学站、电化学能源、储能科学与技术公众号 highlight）
3. 刘玉龙, 辛明杨, 丛丽娜, 谢海明，聚氧乙烯基聚合物固态电池的界面研究进展，物理学报，2020, 69(22): 228202（一作）
2. Wei Lu; Liqun Sun; Yang Zhao; Tong Wu; Lina Cong; Jia Liu; Yulong Liu*; Haiming Xie*; Elongating the cycle life of lithium metal batteries in carbonate electrolyte with gradient solid electrolyte interphase layer, Energy Storage Materials, 2021, 34: 241 - 249， 共同通讯作者 影响因子21
（材料科学站、清新能源公众号 highlight）
1. Jing Jie#, Yulong Liu#, Lina Cong, Bohao Zhang, Wei Lu, Xinming Zhang, Jun Liu, Haiming Xie*, Liqun Sun*, High-performance PVDF-HFP based gel polymer electrolyte with a safe solvent in Li metal polymer battery，Journal of Energy Chemistry,  2020,49: 80-88 影响因子13.5
 
Before Joining Nenu
[1] Yulong Liu et al., Origin of phase inhomogeneity in lithium iron phosphate during carbon coating. (Nano Energy, 2018, 45 (2018): 52-60.) 
[2] Yulong Liu et al., Formation of size dependent and conductive phase in LFP during carbon coating. (Nature communications, 9（2018）: 929)
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[3] Yulong Liu et al. Stabilizing the Interface of NASICON Solid Electrolyte against Li Metal with Atomic Layer Deposition. (ACS applied materials interface, 10.37 (2018): 31240-31248.)
[4] Yulong Liu et al. Development of cold sintering process and its application in solid state batteries. (Journal of Power sources, 393（2018: 193-203)
[5] Yulong Liu et al. Visualization of the secondary phase in LFP ingots with advanced mapping techniques. (Canadian Journal of Chemical Enigneering, doi.org/10.1002/cjce.23413)
[6] Yulong Liu et al. One-pot hydrothermal synthesized MoO2 with high reversible capacity for anode application in lithium ion battery, Electrochimica Acta, 2013, 102 (15): 429-435
[7] Yulong Liu et al. High electrochemical performance and phase evolution of magnetron sputtered MoO2 thin films with hierarchical structure for Li-ion battery electrodes, Journal of Materials Chemistry A, 2014, 2(13): 4714-4721.
[8] Yulong Liu et al. Microstructure evolution of Li uptake/removal in MoO2@C nanoparticles with high lithium storage performance, Materials Research Bulletin, 2014, 50: 95-102.
[9] Yulong Liu et al. Variable Energy Hard X-ray Photoemission Spectroscopy: A Non-destructive Tool to Analyze the Cathode-Solid State Battery Interface(ACS Appl. Mater. Interfaces 2020, 12, 2, 2293–2298)
[10]Jie Jing, Yulong Liu. High-performance PVDF-HFP based gel polymer electrolyte with a safe solvent in Li metal polymer battery(Jounal of Energy Chemistry, 2020,49,80-88)
11.Insight into the Microstructure and Ionic Conductivity of Cold Sintered NASICON Solid Electrolyte for Solid-State Batteries.(ACS Appl. Mater. Interfaces 2019, 11, 31, 27890–27896)


[11]Changhong Wang, Qian Sun, Yulong Liu, Yang Zhao, Xia Li, Xiaoting Lin, Mohammad Norouzi Banis, Minsi Li, Weihan Li, Keegan R Adair, Dawei Wang, Jianneng Liang, Ruying Li, Li Zhang, Rong Yang, Shigang Lu, Xueliang Sun. Boosting the Performance of Lithium Batteries with Solid-Liquid Hybrid Electrolytes: Interfacial Properties and Effects of Liquid Electrolytes. Nano Energy, 2018.
[12] Biwei Xiao, Biqiong Wang, Jian Liu, Karthikeyan Kaliyappan, Qian Sun, Yulong Liu, Gayatri Dadheech, Michael P Balogh, Li Yang, Tsun-Kong Sham, Ruying Li, Mei Cai, Xueliang Sun. Nanoscale Manipulation of Spinel Lithium Nickel Manganese Oxide Surface by Multisite Ti Occupation as High‐Performance Cathode. Advanced Materials, 29 (47), 2017.
[13] Stephen Lawes, Qian Sun, Andrew Lushington, Biwei Xiao, Yulong Liu, Xueliang Sun. Inkjet-printed silicon as high-performance anodes for Li-ion batteries. Nano Energy, 36, 313-321, 2017.
[14] Changtai Zhao, Chang Yu, Mohammad Norouzi Banis, Qian Sun, Mengdi Zhang, Xia Li, Yulong Liu, Yang Zhao, Huawei Huang, Shaofeng Li, Xiaotong Han, Biwei Xiao, Zhongxin Song, Ruying Li, Jieshan Qiu, Xueliang Sun. Decoupling atomic-layer-deposition ultrafine RuO2 for high-efficiency and ultralong-life Li-O2 batteries. Nano Energy, 34, 399-407, 2017.
[15] Biwei Xiao, Yulong Liu, Xueliang Sun et al. Highly stable Li1. 2Mn0. 54Co0. 13Ni0. 13O2 enabled by novel atomic layer deposited AlPO4 coating. Nano Energy, 34, 120-130, 2017.
[16] Zhongxin Song, Weiwei Liu, Niancai Cheng, Mohammad Norouzi Banis, Xia Li, Qian Sun, Biwei Xiao, Yulong Liu, Andrew Lushington, Ruying Li, Limin Liu, Xueliang Sun. Origin of the high oxygen reduction reaction of nitrogen and sulfur co-doped MOF-derived nanocarbon electrocatalysts. Materials Horizon, 2017.
 [17] M. Dolle, M. Talebi-Esfandarani, S. Gauthier, P. Sauriol, M. Duttine, A. Wattiaux, Y. Liu, X. Sun and G. Liang, Control of the LiFePO4 Electrochemical Properties Using Low Cost Iron Precursor in a Melt-Process. Journal of Solid State Electrochemistry, 2016, 12(20):3481-3490
 [18] Pan Ouyang, Hong Zhang, Yulong Liu, Ying Wang, Zhicheng Li, Phase evolution of magnetron sputtered nanostructured ATO on grid during lithiation–delithiation processes as model electrodes for Li-ion battery, Physical Chemistry Chemical Physics, 2014, 16, 5056-5060.
[19] Wenhao Chen, Hong Zhang, Yulong Liu, Pan Ouyang, Ying Wang, Zhicheng Li, Facile method for investigating electrochemically induced products in films deposited directly on grids as working electrodes, Materials Letters, 2015, 157: 1-3
[20 ] Yang, Xiaofei, et al.  High-areal-capacity all-solid-state lithium batteries enabled by rational design of fast ion transport channels in vertically-aligned composite polymer electrodes.  Nano Energy (2019).
[21 ] Wang, Changhong, et al.  Manipulating Interfacial Nanostructure to Achieve High‐Performance All‐Solid‐State Lithium‐Ion Batteries.  Small Methods (2019): 1900261.
[22 ] Hanyu Huo, Yue Chen, Ning Zhao, Xiaoting Lin, Jing Luo, Xiaofei Yang, Yulong Liu, Xiangxin Guo, Xueliang Sun.  In-situ formed Li2CO3-free garnet/Li interface by rapid acid treatment for dendrite-free solid-state batteries.  Nano Energy (2019).
[23 ] Xuejie Gao, Xiaofei Yang, Minsi Li, Qian Sun, Jianneng Liang, Jing Luo, Jiwei Wang, Weihan Li, Jianwen Liang, Yulong Liu, Sizhe Wang, Yongfeng Hu, Qunfeng Xiao, Ruying Li, Tsun‐Kong Sham, Xueliang Sun.  Cobalt‐Doped SnS2 with Dual Active Centers of Synergistic Absorption‐Catalysis Effect for High‐S Loading Li‐S Batteries.  Advanced Functional Materials 29.8 (2019): 1806724.
[24 ] Jianneng Liang, Qian Sun, Yang Zhao, Yipeng Sun, Changhong Wang, Weihan Li, Minsi Li, Dawei Wang, Xia Li, Yulong Liu, Keegan Adair, Ruying Li, Li Zhang, Rong Yang, Shigang Lu, Huan Huang, Xueliang Sun.  Stabilization of all-solid-state Li–S batteries with a polymer–ceramic sandwich electrolyte by atomic layer deposition. Journal of Materials Chemistry A 6.46 (2018): 23712-23719.
[25 ] Changhong Wang, Yang Zhao, Qian Sun, Xia Li, Yulong Liu, Jianwen Liang, Xiaona Li, Xiaoting Lin, Ruying Li, Keegan R Adair, Li Zhang, Rong Yang, Shigang Lu, Xueliang Sun.  Stabilizing interface between Li10SnP2S12 and Li metal by molecular layer deposition.  Nano Energy 53 (2018): 168-174.
[26 ] Changtai Zhao, Jianneng Liang, Qian Sun, Jing Luo, Yulong Liu, Xiaoting Lin, Yang Zhao, Hossein Yadegari, Mohammad Norouzi Banis, Ruying Li, Huan Huang, Li Zhang, Rong Yang, Shigang Lu, Xueliang Sun. Ultralong Life Quasi Solid State Li O2 Batteries Enabled by Coupling Advanced Air Electrode Design with Li Metal Anode Protection. Small Methods 3.2 (2019): 1800437.

1.-第二届国际电化学能源系统大会，特邀报告，题目“聚合物固态电解质的分子结构设计”,主办单位，上海交通大学，浙江绍兴，2021年4月 2.第十五届新材料及其合成国际会议，刘玉龙，邀请报告，题目“Interface study for oxide solid electrolyte”, 主办单位国际理论（化学）与应用化学联合会，沈阳，2019年9月 3.第20次全国电化学大会，刘玉龙，口头报告，题目“氧化物固态电解质的界面研究”，主办单位中南大学，长沙，2019年10月 4.第三届储能材料国际研讨会，刘玉龙，口头报告，题目”Interface study for oxide solid electrolyte”, 主办单位清华大学深圳研究院，深圳，2019年12月 5. -“Control of Lattice Orientation and Interface of LiCoO2 and deposition of LiPON for All Solid State Batteries”, 18th International Meeting on Lithium Batteries (poster session), 2016, Chicago, USA. (国际会议) -“Application of ALD modification on interface of solid-state batteries. MRS spring meeting, 2018, Phoenix, USA(国际会议)