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w K. Song, X. Wang, Z. Xie, Z. Zhao, Z. Fang, Z. Zhang, J. Luo, P. Yan, Z. Peng, W. Chen*, Ultrathin CuF2-rich solid-electrolyte interphase induced by cation-tailored double electrical layer toward durable sodium storage. Angew. Chem. Int. Ed., 2023. e202216450.
w X Li, J Zhang, X Guo, C Peng, K Song, Z Zhang, L Ding, C Liu, W Chen*, S Dou, An Ultrathin Nonporous Polymer Separator Regulates Na Transfer Toward Dendrite-Free Sodium Storage Batteries., Adv. Mater., 2023, 2203547.
w X. Guo, S. Guo, C. Wu, J. Li, C. Liu, W. Chen*. Intelligent monitoring for safety-enhanced lithium-ion/sodium-ion batteries. Adv. Energy. Mater., 2023, 2203903.
w Y. Wan, K. Song, W. Chen*, C. Qin, X. Zhang, J. Zhang, H. Dai, Z. Hu, P. Yan, C. Liu, S. Sun*, S. Chou*, C. Shen. Ultra-high initial coulombic efficiency induced by interface engineering enables rapid, stable sodium storage. Angew. Chem. Int. Ed., 2021, 60, 11481-11486.
w K. Song, J. Liu, H. Dai, Y. Zhao, S. Sun, J. Zhang, C. Qin, P. Yan, F. Guo, C. Wang, Y Cao, S Li, W. Chen*. Atomically dispersed Ni induced by ultrahigh N-doped carbon enables stable sodium storage. Chem, 2021, 7, 10, 2684-2694.
w K. Song, W. Chen*. An effective solid-electrolyte interphase for stable solid-state batteries. Chem, 2021, 7, 12, 3195-3197.
w W. Chen*, X. Zhang, L. Mi, C. Liu, J. Zhang, S. Cui, X. Feng, Y. Cao*, C. Shen. High-performance flexible freestanding anode with hierarchical 3D carbon-networks/Fe7S8/graphene for applicable sodium-ion batteries. Adv. Mater., 2019, 31, 1806664.
w M. Chen, W. Hua, J. Xiao, D. Cortie, W. Chen*, E. Wang, Z. Hu, Q. Gu, X. Wang, S. Indris, S. Chou*,S. Dou. NASICON-type air-stable and all-climate cathode for sodium-ion batteries with low cost and high-power density. Nat. Commun., 2019, 10, 1480.
w J. Ge, Y. Zhang, Z. Xie, H. Xie, W. Chen*, B. Lu*. Tailored ZnF2/ZnS-rich interphase for reversible aqueous Zn batteries. Nano Research, https://doi.org/10.1007/s12274-022-5325-z.
w C. Ma, X. Wang, J. Lan, J. Zhang, K. Song, J. Chen, J. Ge*, W. Chen*. Dynamic multistage coupling of FeS2/S enables ultrahigh reversible Na–S batteries. Adv. Funct. Mater.,2022, 2211821.
w J. Zhang, J. Gai, K. Song, W. Chen*. Advances in electrode/electrolyte interphase for sodium-ion batteries from half cells to full cells. Cell Rep. Phys. Sci., 2022, 5, 3, 100868.
w J. Zhang, Z. Meng, D. Yang, K. Song, L. Mi, Y. Zhai, X. Guan, W. Chen*. Enhanced interfacial compatibility of FeS@N,S-C anode with ester-based electrolyte enables stable sodium-ion full cells. J. Energy Chem., 2022, 68, 27–34.
w J. Zheng*, W. Li, X. Liu, J. Zhang, X. Feng, W. Chen*. Progress in Gel Polymer Electrolytes for Sodium-Ion Batteries. Energy Environ. Mater., 2022, 0, 1-29.
w G. Li, X. Lou, C. Peng, C. Liu, W. Chen*. Interface chemistry for sodium metal anodes/batteries-A review. Chem. Synth., 2022, 2(3), 16.
w J. Zheng*, W. Li, J. Zhang, Y. Sun, W. Chen*. Effects of Flexible Group Length of Phosphonate Monomers on the Performance of Gel Polymer Electrolytes for Sodium-Ion Batteries with Ultralong Cycling Life. ACS Sustainable Chem. Eng., 2022, 10, 21, 7158-7168.
w M. Yang, J. Luo, X. Guo, J. Chen, Y. Cao, W. Chen*. Aqueous Rechargeable Sodium-Ion Batteries: From Liquid to Hydrogel. Batteries, 2022, 8(10),180.
w X. Guo, X. Li, Y. Xu, J. Chen, M. Lv, M. Yang, W. Chen*. Understanding the Accelerated Sodium-Ion-Transport Mechanism of an Interfacial Modified Polyacrylonitrile Separator. J Phys. Chem. C., 2022, 126, 19, 8238-8247.
w J. Zhang, W. Chen*. Lattice-confined Co single-atom catalysts for stable oxygen evolution. Chem Catalysis, 2022, 2, 5, 928-930.
w L. Zhang, X. Li, M. Yang, W. Chen*. High-safety separators for lithium-ion batteries and sodium-ion batteries: advances and perspective. Energy Storage Materials, 2021, 41, 522-545.
w J. Shi, L. Ding, Y. Wan, L. Mi, L. Chen, D. Yang, Y. Hu, W. Chen*. Achieving long-cycling sodium-ion full cells in ether-based electrolyte with vinylene carbonate additive. J. Energy Chem., 2021, 57, 650-655.
w L. Chen, K. Song, J. Shi, J. Zhang, L. Mi, W. Chen*, C. Liu*, C. Shen. PAANa polymer induced ductile SEI of bare micro-sized FeS enables high sodium-ion storage performance. Sci. China Mater., 2021, 64, 105-114.
w S. Zhou, J. Lan, K. Song, Z. Zhang, J. Shi, W. Chen*. SnS/SnS2/rGO heterostructure with fast kinetics enables compact sodium ion storage. FlatChem., 2021, 28, 100259.
w J. Zheng, Y. Yang, W. Li, X. Feng, W. Chen*, Y. Zhao. Novel flame retardant rigid spirocyclic biphosphate based copolymer gel electrolytes for sodium ion batteries with excellent high-temperature performance, J. Mater. Chem. A, 2020, 8, 22962.
w J. Zhang, K. Song, L. Mi, C. Liu, X. Feng, J. Zhang, W. Chen*, C. Shen. Bimetal synergistic effect induced high reversibility of conversion type Ni@NiCo2S4 as a free-standing anode for sodium ion batteries. J. Phys. Chem., Lett., 2020, 11, 1435-1442.
w G. Yao, X. Zhang, Y. Yan, J. Zhang, K. Song, J. Shi, L. Mi, J. Zheng, X. Feng*, W. Chen*. Facile synthesis of hierarchical Na2Fe(SO4)2@rGO/C as high-voltage cathode for energy density-enhanced sodium-ion batteries. J. Energy Chem., 2020, 50, 387-394.
w L. Mi, K. Song, K. Yang, J. Ma, X. Feng, J. Zhang, W. Chen*. Understanding shuttling effect in sodium ion batteries for the solution of capacity fading: FeS2 as an example. J. Phys. Chem. C., 2019, 123, 2775-2782.
w L. Zhang, G. Feng, X. Li, S. Cui, S. Ying, X. Feng, L. Mi, W.Chen*. Synergism of surface group transfer and in-situ growth of silica-aerogel induced high-performance modified polyacrylonitrile separator for lithium/sodium-ion batteries. J. Membr. Sci., 2019, 577, 137-144.
w K. Song, C. Liu, L. Mi, S. Chou, W. Chen*, C. Shen. Recent progress on the alloy-based anode for sodium-ion batteries and potassium-ion batteries. Small, 2019, 17, 1903194.
w D. Yang, W. Chen*, X. Zhang, L. Mi, C. Liu, L. Chen, X. Guan, Y. Cao, C. Shen. Facile and scalable synthesis of low-cost FeS@C as long-cycle anodes for sodium-ion batteries. J. Mater. Chem. A, 2019, 7, 19709.
w W Chen*, L. Zhang, C. Liu, X. Feng, J. Zhang, L. Guan, L. Mi*, S. Cui. Electrospun flexible cellulose acetate-based separators for sodium-ion batteries with ultralong cycle stability and excellent wettability: the role of interface chemical groups. ACS Appl. Mater. Interfaces., 2018, 10, 28, 23883-23890.
w Z. Li, X. Feng*, L. Mi, J. Zheng, X. Chen, W. Chen*. Hierarchical porous onion-shaped LiMn2O4 as ultrahigh-rate cathode material for lithium-ion batteries. Nano Research, 2018, 11, 4038-4048.
w W. Chen*, L. Zhang, C. Liu, X. Feng, J. Zhang, L. Guan, L. Mi*, S. Cui. Electrospun flexible cellulose acetate-based separators for sodium-ion batteries with ultralong cycle stability and excellent wettability: the role of interface chemical groups. ACS Appl. Mater. Interfaces., 2018, 10, 28, 23883-23890.
w G. Feng, Z. Li, L. Mi, J. Zheng, X. Feng*, W Chen*. Polypropylene/hydrophobic -silica-aerogel-composite separator induced enhanced safety and low polarization for lithium-ion batteries. J. Power Sources., 2018, 376, 177-183.
w Y. Dong, Y. Ma, D. Li, Y. Liu, W. Chen*, X. Feng, J. Zhang. Construction of 3D architectures with Ni(HCO3)2 nanocubes wrapped by reduced graphene oxide for LIBs: ultrahigh capacity, ultrafast rate capability and ultralong cycle stability. Chem. Sci., 2018, 9, 8682.
w J. Zheng*, Y. Zhao, X. Feng, W. Chen*, Y. Zhao. Novel safer phosphonate-based gel polymer electrolytes for sodium-ion batteries with excellent cycling performance. J. Mater. Chem. A, 2018, 6, 15, 6559-6564.
w W. Chen*, K. Song, L. Mi, X. Feng, J. Zhang, S. Cui, C. liu. Synergistic effect induced ultrafine SnO2/graphene nanocomposite as an advanced lithium/sodium-ion batteries anode. J. Mater. Chem. A, 2017, 5, 20, 10027-10038.
w W. Chen*, S. Qi, L. Guan, C. Liu, S. Cui, C. Shen, L. Mi*. Pyrite FeS2 microspheres anchoring on reduced graphene oxide aerogel as an enhanced electrode material for sodium-ion batteries. J. Mater. Chem. A, 2017, 5, 11, 5332-5341.
w W. Chen*, M. Lan, D. Zhu, C. Ji, X. Feng, C. Yang, J. Zhang, L. Mi. Synthesis of Li2FeSiO4/C and its excellent performance in aqueous lithium-ion batteries. J. Mater. Chem. A, 2013, 1, 36, 10912-10917.