(2024)
[1]Kai Wu, Jin Tan, Zhenfang Liu, Chenguang Bao*, Ao Li, Qi Liu*, Baohua Li, Incombustible solid polymer electrolytes: A critical review and perspective[J].Journal of Energy Chemistry, 2024, 93, 264-281.
[2]Zhenfang Liu, Weiqian Guo, Jin Tan, Hanbing Yan, Chenguang Bao, Yao Tian, Qi Liu*, Baohua Li*, Deciphering fundamental mechanism of different-type diluents on manipulating interfacial chemistry toward lithium metal anode[J].Chemical Engineering Journal, 2024, 490, 151812.
[3]Chenguang Bao, Qi Liu*, Hui Chen, Qing Zeng*, Kai Peng, Wei Wu, Hongbo Liu*, Baohua Li*, Catalytic decomposition of ethylene carbonate by pyrrolic-N to stabilize solid electrolyte interphase on graphite anode under extreme conditions[J].Nano Energy, 2024, 127, 109775.
[4]Kai Wu, Ao Li, Jin Tan, Fu Zhou, Hanbing Yan, Pengcheng Wang, Ting Xie, Qing Zeng*, Cuiping Han, Qi Liu*, Baohua Li*, SnF2-Catalyzed Lithiophilic–Lithiophobic Gradient Interface for High-Rate PEO-based All-Solid-State Batteries[J].Angewandte Chemie International Edition, 2024, e202410347. (Hot Paper)
(2023)
[1]Weiqian Guo, Qi Liu*, Kai Wu, Xia Hu, Xiaotong Liu, Xing Cheng, Cuiping Han, Yan-bing He, Feiyu Kang, Baohua Li*,Tailoring Heterogeneous Interfacial Chemistry Enables Long-term Cycling of All-Solid-State Lithium-Metal Batteries[J].Energy Stor. Mater., 2023,63, 103006-103016.
[2]Chuanhui Luo, Qi Liu*, Xianshu Wang, Yao Tian,Zhenfang Liu, Feiyu Kang, Baohua Li*, Synergistic-Effect of Diluent to Reinforce Anion-Solvation-Derived Interfacial Chemistry for 4.5V−Class Li||LiCoO2 Batteries[J].Nano Energy 2023,109, 108323-108343.
[3]Qi Liu*, Jiahao Yu, Weiqian Guo, Yanfang Pan, Cuiping Han, Hong-bo Liu, Baohua Li*,Boosting the Li|LAGP interfacial compatibility with trace nonflammable all-fluorinated electrolyte: The role of solid electrolyte interphase[J].EcoMat 2023, e12322-12331.
[4]Chenguang Bao, Zhenfang Liu, Zhou Yang, Lei Shi,Chenlin He, Hui Chen, Yuede He, Qi Liu*, Li Yang*, Hongbo Liu*,Constructing a boron-doped graphite anode with an accelerated Li+ diffusion dynamics for practical high-rate Li-ion batteries[J].Electrochimi. Acta 2023, 463, 142821-142829.
[5]Qi Liu, Rilei Wang, Cuiping Han, Hongbo Liu*, Baohua Li*, A 3D Lithiophilic ZIF-8@rGO Free-standing Scaffold/Framework/Anode with Dendrite-free Behavior Enabling/for High-performance Li Metal Batteries, J. Mater. Chem. A, 2023, 11, 12910-12917
(2022)
[1]Qi Liu, Jin Tan, Zhenfang Liu, Xia Hu, Jiahao Yu, Xianshu Wang, Junru Wu, Biya Cai,* Qiang Wang, Yongzhu Fu, Hongbo Liu, and Baohua Li*,Transference Number Reinforced-Based Gel Copolymer Electrolyte for Dendrite-Free Lithium Metal Batteries[J], ACS Applied Materials & Interfaces, 2022,14, 26612-26621
[2]Jiahao Yu, Qi Liu∗, Xia Hu, Shuwei Wang, Junru Wu, Bin Liang, Cuiping Han, Feiyu Kang, Baohua Li∗. Smart Construction of Multifunctional Li1.5Al0.5Ge1.5(PO4)3|Li Intermediate Interfaces for Solid-State Batteries[J], Energy Storage Materials, 2022, 46: 68-75.
(2021)
[1]Xia Hu,† Qi Liu,†* Kui Lin, Cuiping Han,* Baohua Li*.The Rise of Metal-Organic Frameworks for Electrolyte Applications[J]. Journal of Materials Chemistry A, 2021, 9: 20837-20856.
[2]Qi Liu†, Yizhou Wang†, Xu Yang, Dong Zhou*, Xianshu Wang, Pauline Jaumaux, Feiyu Kang, Baohua Li*, Xiulei Ji*, Guoxiu Wang*. Rechargeable anion-shuttle batteries for low-cost energy storage[J]. Chem, 2021, 7(8): 1993-2021.
[3]Junru Wu, Xianshu Wang, Qi Liu, Shuwei Wang, Dong Zhou*, Feiyu Kang, Shanmukaraj Devaraj, Michel Armand, Teófilo Rojo, Baohua Li*, and Guoxiu Wang*.A synergistic exploitation to produce high-voltage quasi-solid-state lithium metal batteries[J]. Nature Communications, 2021, 12(1): 5746-5758.
[4]Xianshu Wang, Shuwei Wang, Huirong Wang, Wenqiang Tu, Yun Zhao, Song Li, Qi Liu, JunruWu, Yongzhu Fu, Cuiping Han,* Feiyu Kang, Baohua Li*. Hybrid Electrolyte with Dual-Anion Aggregated Solvation Sheath for Stabilizing High Voltage Lithium Metal Batteries[J]. Advanced Materials, 2021, 33: 2007945-2007955.
[5]Kui Lin, Xiaofu Xu, Xianying Qin*, Junxiong Wu, Qi Liu, Zhiyun Tang, Shun He, Yonghuang Ye, Feiyu Kang, and Baohua Li*.In-Situ Constructed Ionic-Electronic Dual-Conducting Scaffold with Reinforced Interface for High Performance Sodium Metal Anodes[J].Small, 2021, 17: 2104021-2104033.
[6]Song Li, Xian-Shu Wang, Qi-Dong Li, Qi Liu, Pei-Ran Shi, Jing Yu, Wei Lv, Feiyu Kang, Yan-Bing He*, Quan-Hong Yang. A multifunctional artificial protective layer producing an ultrastable lithium metal anode in a commercial carbonate electrolyte[J]. Journal of Materials Chemistry A, 2021,9, 7667-7674.
(2020)
[1]Qi Liu, Dong Zhou*, Devaraj Shanmukaraj, Peng Li, Feiyu Kang, Baohua Li*, Michel Armand*, Guoxiu Wang*. Self-healing interfacial modification on LAGP-based solid Li metal battery for high voltage cathode[J]. ACS Energy Letters, 2020, 5:1456-1464.
[2]Qi Liu, Qipeng Yu, Song Li, Shuwei Wang, LiHan Zhang, Biya Cai, Dong Zhou, Baohua Li*. Safe LAGP-based all solid-state Li metal batteries with plastic super-conductive interlayer enabled by In-situ solidification[J]. Energy Storage Materials, 2020,25:613-620. (ESI Highly Cited Paper)
[3]Pauline Jaumaux†, Qi Liu†, Dong Zhou*, Xiaofu Xu, Tianyi Wang, Yizhou Wang, Feiyu Kang, Baohua Li*, Guoxiu Wang*. Deep eutectic solvent-based self-healing polymer electrolyte for safe and long-life lithium-metal batteries[J]. Angewandte Chemie International Edition, 2020, 59(23):9134-9142. (VIP论文, ESI Highly Cited Paper)
[4]Qi Liu†, Biya Cai†, Song Li, Qipeng Yu, Fengzheng Lv, Feiyu Kang, Qiang Wang*, Baohua Li*. Long-cycling and safe lithium metal batteries enabled by the synergetic strategy of ex situ anodic pretreatment and an in-built gel polymer electrolyte[J]. Journal of Materials Chemistry A, 2020, 8:7197-7204.
[5]Song. Li, Shiqi. Zhang, Yan-bing He, Qi Liu, Jia-Bin Ma, Wei Lv, Yan-Bing He*, Quan-Hong Yang. Progress and perspective of ceramic/polymer composite solid electrolytes for lithium batteries[J]. Advance Science, 2020, 7(5):1903088-3109.
[6]Xiaofu Xu, Kui Lin, Dong Zhou*, Qi Liu, Xianying Qin, Shuwei Wang, Shun He, Feiyu Kang, Baohua Li*, Guoxiu Wang*. Quasi-solid-state dual-ion sodium metal batteries for low-cost energy storage[J]. Chem, 2020, 6(4):902-918.
[7]Qipeng Yu, Weicong Mai, Weijiang Xue, Guiyin Xu, Qi Liu, Kun Zeng, Yuanming Liu, Feiyu Kang, Baohua Li*, Ju Li*. Sacrificial poly(propylene carbonate) membrane for dispersing nanoparticles and preparing artificial solid electrolyte interphase on li metal anode[J]. ACS Applied Materials & Interfaces, 2020, 12(24):27087-27094.
[8]Xianshu Wang, Weicong Mai, Xiongcong Guan, Qi Liu, Wenqiang Tu, Weishan Li*, Feiyu Kang, and Baohua Li*. Recent advances of electroplating additives enabling lithium metal anodes to applicable battery techniques[J]. Energy Environmental Materials, 2020, early review.
[9]Kun Zeng, Tong Li, Xianying Qin*, Gemeng Liang, Lihan Zhang, Qi Liu, Baohua Li* and Feiyu Kang*. A combination of hierarchical pore and buffering layer construction for ultrastable nanocluster Si/SiOx anode[J]. Nano Research, 2020, 13:2987-2993.
[10] 余启鹏,刘琦,王自强,李宝华*. 全固态金属锂电池负极界面问题及解决策略[J]. Acta Physica Sinica《物理学报》, 2020, 69(22): 22805-22823.
(2020以前)
[1]Qi Liu†, Zhen Geng†, Cuiping Han, Yongzhu Fu*, Song Li, Yan-bing He, Feiyu Kang, Baohua Li*. Challenges and perspectives of garnet solid electrolytes for all solid-state lithium batteries[J]. Journal of Power Sources, 2018, 389:120-134. (ESI Highly Cited Paper)
[2]Qi Liu, Wei Wu, Yue Pan, Zhiyong Liu*, Xiaocheng. Zhou, Xiaogang Li, Electrochemical mechanism of stress corrosion cracking of API X70 pipeline steel under different AC frequencies[J]. Construction and Building Materials, 2018,171,622-633
[3]Qi Liu , Zhi Li, Zhiyong Liu*, Xiaogang Li, and Shiqi. Wang, Effects of H2S/HS- on Stress Corrosion Cracking Behavior of X100 Pipeline Steel Under Simulated[J]. Journal of Materials Engineering and Performance, 2017,6,16, 2763-2775
[4]Qipeng Yu, Da Han, Qingwen Lu, Yan-bing He, Song Li, Qi Liu, Cuiping Han, Feiyu Kang, Baohua Li*. Constructing effective interfaces for Li1.5Al0.5Ge1.5(PO4)3 pellets to achieve room-temperature hybrid solid-state lithium metal batteries[J]. ACS Applied Materials & Interfaces, 2019,11:9911-9918.
[5]Shuwei Wang, Qi Liu, Chenglong Zhao, Fengzheng Lv, Xianying Qin, Hongda Du, Feiyu Kang, Baohua Li*. Advances in understanding materials for rechargeable lithium batteries by atomic force microscopy[J]. Energy Environmental Materials, 2018, 1(1):28-40.