2024年：

1. Xiao, J.; Chen, Z.; Si, J.; Dong, J.; Ou, Z.; Pan, B.; Chen C.* , Identifying the β-to-α phase transition during the long cycling process in Na₂FePO₄F cathode. Energy Storage Materials 2024, 73, 103781.

2. Zhu, Y.; Zeng, S.; Deng, W.; Si, J.; Pan, B.; Chen, C.* , Heterovalent dual-ion interlayer-confined vanadium oxide nanobelts as a stable cathode for zinc storage. Journal of Energy Storage 2024, 97, 112836.

3. Zhu, Y.; Xie, J.; Xiao, J.; He, H.; Li, Y.; Pan, B.; Chen, C.*, Calcium-Pillar Boosting Smooth Phase Transition in Potassium Vanadate Nanobelts toward Superior Cycling Performance in Potassium-Ion Batteries. ACS Applied Materials and Interfaces 2024, 16(26), 33485–33493.

4. Si, J.; Li, X.; Li, Y.; Cao, K.; Zhu, Y.; Chen, C.*, Converting an O-vacancy-rich oxide into a multifunctional separator modifier for long-lifespan lithium metal batteries. Journal of Energy Chemistry 2024, 97,  371–378.             
5. He, H.; Si, J.; Zeng, S.; Liu, H.; Chen, C.*, Vanadium-Based Pyrophosphate Material K₂(VO)₃(P₂O₇)₂ as a High Voltage Cathode for Potassium Ion Batteries. ACS Applied Energy Materials 2024, 7(1),  41–47.
6. He, H.; Xiao, J.; Zeng, S.; Xie, J.; Li, Y.; Xie J.; Chen, C.*,  Construction of a bi-continuous charge transport network towards high-performance vanadium-based phosphate cathode materials for potassium ion batteries. Nano Energy 2024, 128, 109834.
7. Ren, N.; Wang, L.; Li, X.; Cao, K.; He, Z.; Shao, Y.; Xiao, J.; Zhu, Y.; Pan, B.; Jiao, S.; Chen, C.*, Design Principles of Mediation Layer for Current Collectors Toward High-Performance Anode-Free Potassium-Metal Batteries: A Case Study of Cu₆Sn₅ on Copper. Advanced Functional Materials 2024: 2313538.
8. Liu, H.; Xiao, J.; He, H.; Cao, K.; Li, Y.; Pan, B.; Chen, C.*, Cation-deficient perovskite Li_0.35Nd_0.55TiO₃ as a high-performance anode for lithium-ion batteries. Nano Energy 2024, 119: 109065.
9. Liu, H.; Xiao, J.; Cao, K.; Ren, N.; He, H.; Li, Y.; Si, J.; Zeng, S.; Pan, B.; Chen, C.*, A-site deficient perovskite lithium praseodymium titanate as a high-rate anode for lithium-ion batteries. Chemical Engineering Journal 2024, 479: 147765.
10. Liu, H.; Chen, C.*, Wadsley–Roth phase CoNb₁₁O₂₉ as a high-performance anode for lithium-ion batteries. Journal of Materials Chemistry A 2024, 12: 5414-5421.
11. Liu, H.; Chen, C.*, Micron-Sized Cobalt Niobium Oxide with Multiscale Porous Sponge-Like Structure Boosting High-Rate and Long-Life Lithium Storage. ACS Applied Materials & Interfaces 2024, 16: 14832-14840.
12. Si, J.; Li, X.; Ren, N.; He, H.; Zeng, S.; Chen, C.*, Bifunctional separators with high transference number and uniform ion flux for dendrite-free lithium metal batteries. Journal of Power Sources 2024, 599: 234225.
13. Cao, K.; Zhu, Y.; He, H.; Xiao, J.; Ren, N.; Si, J.; Chen, C.*, Zero-Strain Sodium Lanthanum Titanate Perovskite Embedded in Flexible Carbon Fibers as a Long-Span Anode for Lithium-Ion Batteries. ACS Applied Materials & Interfaces 2024, 16: 11421-11430.

2023年：

1. Chen, F.; Chen, C.*, Spontaneously formed ant-nest structure for binder-free sodium ion batteries with ultra-high electrode loading. Chemical Engineering Journal 2023, 466: 143327.

2. Wang, J.; Wang, M.; Si, J.; Zhu, Y.; Chen, C.*, Introducing low-tortuosity channels in thick electrode for high-areal-capacity solid polymer battery. Chemical Engineering Journal 2023, 451: 138651.

3. Ren, N.; Wang, L.; Dong, J.; Cao, K.; Li, Y.; Chen, F.; Xiao, J.; Pan, B.; Chen, C.*, Synergistic engineering of electronic structure and particle size in SnSe@CNF anode toward high performance potassium ion batteries. Chemical Engineering Journal 2023, 458: 141489.

4. He, H.; Cao, K.; Zeng, S.; Si, J.; Zhu, Y.; Chen, C.*, K₂VOP₂O₇ as a novel high-voltage cathode material for potassium ion batteries. Journal of Power Sources 2023, 587: 233715.

5. Zhu, Y.; Cao, K.; Chen, F.; Dong, J.; Ren, N.; Chen, C.*, Fine valence regulation of hydrated vanadium oxide as a novel cathode for stable potassium-ion storage. Chemical Communications 2023, 59: 10000-10003.

6. Ding, X.*; Ye, X.; Fan, Y.; Chen, Z.; Ji, Y.; Wang, H.*; Chen, C.*, A novel Li₂NaVO₄@C anode for high performance lithium-ion batteries. Journal of Alloys and Compounds 2023, 954: 170028.

7. Feng, X.; Wu, W.; Huang, Q.; Liu, Y.; Ni, C.; Huang, Z.; Liang, X.; Chen, C.; Xiang, H.*, Medium entropy stabilized disordered LiNi_0.5Mn_1.5O₄ cathode with enhanced electrochemical performance. Journal of Alloys and Compounds 2023, 948: 169768.

8. He, H.; Cao, K.; Guo, S.; Yao, W.; Chen, F.; Dong, J.; Chen, C.*, Flower-like K_1+δVOPO₄F crystallite with a layered framework structure as a robust cathode for potassium-ion batteries. Journal of Power Sources 2023, 564: 232862.

9. Dong, J.; Xiao, J.; Cao, K.; He, H.; Zhu, Y.; Liu, H.; Chen, C.*, Encapsulation of KTi₂(PO₄)₃ nanoparticles in porous N-doped carbon nanofibers as a free-standing electrode for superior Na/K-storage performance. Journal of Alloys and Compounds 2023, 937: 168358.

10. He, H.; Si, J.; Zeng, S.; Ren, N.; Liu, H.; Chen, C.*, Vanadium-Based Pyrophosphate Material K₂(VO)₃(P₂O₇)₂ as a High Voltage Cathode for Potassium Ion Batteries. ACS Applied Energy Materials 2023, 7: 41-47.

2022年：

1. Wang, J.; Wang, M.; Xiao, J.; Dong, J.; Li, Y.; Zhang, L.; Si, J.; Pan, B.; Chen, C.; Chen, C.*, A microstructure engineered perovskite super anode with Li-storage life of exceeding 10,000 cycles. Nano Energy 2022, 94, 106972.

2. Dong, J.; Xiao, J.; Yu, Y.; Wang, J.; Chen, F.; Wang, S.; Zhang, L.; Ren, N.; Pan, B.; Chen, C.*, Electronic structure regulation of Na₂FePO₄F cathode toward superior high-rate and high-temperature sodium-ion batteries. Energy Storage Materials 2022, 45: 851-860.

3. He, X.; Zhang, L.; Jiang, C.; Chen, C.*, Elevating cyclability of an advanced KVPO₄F cathode via multi-component coating strategy for high-performance potassium-ion batteries. Chemical Engineering Journal 2022, 433, 134634.

4. Wang, M.; Wang, J.; Si, J.; Chen, F.; Cao, K.; Chen, C.*, Bifunctional composite separator with redistributor and anion absorber for dendrites-free and fast-charging lithium metal batteries. Chemical Engineering Journal 2022, 430: 132971.

5. Wang, L.; Jin, Z.; Li, N.; Xiang, W.; Ban, X.; Huang, C.; Ma, R.; Chen, C.; Chen, C.*, Dendrite-free Li metal anodes with confined volume change towards long lifetime. Separation and Purification Technology 2022, 301, 122040.

6. Zhang, L.; Cao, K.; Wang, S.; Chen, F.; Dong, J.; Ren, N.; Li, Y.; Wen, Z.; Chen, C.*, Structural design enabled a hypotoxic Na_3.36FeV(PO₄)₃ cathode with ultra-fast and ultra-long sodium storage. Nanoscale 2022, 14: 15640-15650.

7. Wang, S.; Chen, F.; Zhang, L.; Li, Y.; Ren, N.; Cao, K.; Xiao, J.; Chen, C.*, Ultra-stable potassium storage and hybrid mechanism of perovskite fluoride KFeF₃/rGO. Nanoscale 2022, 14: 5347-5355.

8. Wang, M.; Wang, J.; Xiao, J.; Ren, N.; Pan, B.; Chen, C.; Chen, C.*, Introducing a Pseudocapacitive Lithium Storage Mechanism into Graphite by Defect Engineering for Fast-Charging Lithium-Ion Batteries. ACS Applied Materials & Interfaces 2022, 14: 16279-16288.

9. Shao, Y.; Chen, F.; Ren, N.; Wang, S.; Wang, J.; Wen, Z.; Chen, C.*, VN and SeS₂ embedded porous carbon-nanofiber film as a free-standing electrode for improved Li-SeS₂ batteries. Chemical Communications 2022, 58: 7570-7573.

10. Li, Y.; Ding, X.; Chen, F.; Cao, K.; Chen, C.*, NaClO₄ as an effective electrolyte additive for high-energy Li-ion batteries. Journal of Power Sources 2022, 551: 232175.

11. Dong, J.; Dong, Y.; Ren, N.; Zhang, L.; Li, Y.; He, H.; Chen, C.*, Realizing High-Performance Lithium Storage by Fabricating FeTiO₃ Nanoparticle-Impregnated Multichannel Carbon Nanofibers with Promoted Reaction Kinetics. ACS Applied Materials & Interfaces 2022, 14: 46513-46522.

12. Zhang, L.; Xiao, J.; Wang, J.; Dong, J.; Ren, N.; Li, Y.; Pan, B.; Wen, Z.; Chen, C.*, Active-Site-Specific Structural Engineering Enabled Ultrahigh Rate Performance of the NaLi₃Fe₃(PO₄)₂(P₂O₇) Cathode for Lithium-Ion Batteries. ACS Applied Materials & Interfaces 2022, 14: 11255-11263.

2021年：

1. Wang, J.; Wang, M.; Ren, N.; Dong, J.; Li, Y.; Chen, C.*, High-areal-capacity thick cathode with vertically-aligned micro-channels for advanced lithium ion batteries. Energy Storage Materials 2021, 39: 287-293.

2. Wang, J.; Wang, M.; Chen, F.; Li, Y.; Zhang, L.; Zhao, Y.; Chen, C.*, In-situ construction of lithiophilic interphase in vertical micro-channels of 3D copper current collector for high performance lithium-metal batteries. Energy Storage Materials 2021, 34: 22-27.

3. Chen, F.; Wang, S.; Li, Y.; Cao, K.; Chen, C.*, Hollow sphere structured Co₃V₂O₈ as a half-conversion anode material with ultra-high pseudocapacitance effect for potassium ion batteries. Journal of Materials Chemistry A 2021, 9: 21995-22001.

4. Chen, F.; Wang, J.; Liao, J.; Wang, S.; Wen, Z.; Chen, C.*, A hydrogel-enabled free-standing polypyrrole cathode film for potassium ion batteries with high mass loading and low-temperature stability. Journal of Materials Chemistry A 2021, 9: 15045-15050.

5. Wang, L.; Ban, X.; Jin, Z.; Peng, R.; Chen, C.; Chen, C.*, In situ coating of a lithiophilic interphase on a biporous Cu scaffold with vertical microchannels for dendrite-free Li metal batteries. Journal of Materials Chemistry A 2021, 9: 13642-13652.

6. Deng, W.; He, X.; Zhang, L.; Wang, J.; Chen, C.*, Highly Graphitic N‐Doped Biomass‐Derived Hard Carbon with a Low Operating Potential for Potassium‐Ion Batteries. Energy Technology 2021, 9: 2100644.

7. Ren, N.; Wang, L.; He, X.; Zhang, L.; Dong, J.; Chen, F.; Xiao, J.; Pan, B.; Chen, C.*, High ICE Hard Carbon Anodes for Lithium-Ion Batteries Enabled by a High Work Function. ACS Applied Materials & Interfaces 2021, 13: 46813-46820.

8. Zhang, L.; Ren, N.; Wang, S.; Deng, W.; Chen, F.; Wen, Z.; Chen, C.*, Submicrometer Rod-Structured Na₇V₄(P₂O₇)₄(PO₄)/C as a Cathode Material for Sodium-Ion Batteries. ACS Applied Energy Materials 2021, 4: 10298-10305.

9. Zhang, L.; He, X.; Wang, S.; Ren, N.; Wang, J.; Dong, J.; Chen, F.; Li, Y.; Wen, Z.; Chen, C.*, Hollow-Sphere-Structured Na₄Fe₃(PO₄)₂(P₂O₇)/C as a Cathode Material for Sodium-Ion Batteries. ACS Applied Materials & Interfaces 2021, 13: 25972-25980.

10. Wang, L.; Jin, Z.; Ban, X.; Li, N.; Wang, M.; Shen, Q.; Zheng, Q.; Liu, W.; Peng, R.; Chen, C.; Chen, C.*, Lithiophilic NiO Nanoarrays-Modified Ni Skeletons with Vertical Channels for High-Loading Li Metal Batteries. Journal of The Electrochemical Society 2021, 168: 050536.

11. Wang, S.; Chen, F.; He, X.; Zhang, L.; Chen, F.; Wang, J.; Dong, J. M.; Chen, C.*, Self-Template Synthesis of NaCrO₂ Submicrospheres for Stable Sodium Storage. ACS Applied Materials & Interfaces 2021, 13: 12203-12210.

2020年：

1. Shi, P.; Liang, X.; Xu, K.; Sun, Y.; Cheng, S.; Chen, C.; Xiang, H.*, Sulfone-assisted-NH₄I as electrolyte additive with synergistic dissolution and catalysis effects on reducing the activation voltage of Li₂S cathode. Chemical Engineering Journal 2020, 398: 125608.
2.  Chen, F.; Wang, S.; He, X.; Liao, J.; Hu, Q.; Dong, J.; Chen, C.*, Hollow sphere structured V₂O₃@C as an anode material for high capacity potassium-ion batteries. Journal of Materials Chemistry A 2020, 8: 13261-13266.
3. Wang, S.; Chen, F.; Zhu, T.; He, X. D.; Liao, J.; Zhang, L.; Ding, X.; Hu, Q.; Chen, C.*, In Situ-Formed Cr₂O₃ Coating on NaCrO₂ with Improved Sodium Storage Performance. ACS Applied Materials & Interfaces 2020, 12: 44671-44678.
4. Dong, J.; Liao, J.; He, X.; Hu, Q.; Yu, Y.; Chen, C.*, Graphene encircled KFeSO₄F cathode composite for high energy density potassium-ion batteries. Chemical Communications 2020, 56: 10050-10053.
5. Wang, S.; Zhu, T.; Chen, F.; Ding, X.; Hu, Q.; Liao, J.; He, X.; Chen, C.*, Cr₂P₂O₇ as a Novel Anode Material for Sodium and Lithium Storage. Materials 2020, 13: 3139.
6. Chen, F.; Liao, J.; Wang, J.; He, X.; Ding, X.; Hu, Q.; Chen, F.; Wang, S.; Dong, J.; Wen, Z.; Chen, C.*, Introducing a cell moisturizer: organogel nano-beads with rapid response to electrolytes for Prussian white analogue based non-aqueous potassium ion battery. Chemical Communications 2020, 56: 9719-9722.
7.  Wang, J.; Wang, M.; He, X.; Wang, S.; Dong, J.; Chen, F.; Yasmin, A.; Chen, C.*, A Lithiophilic 3D Conductive Skeleton for High Performance Li Metal Battery. ACS Applied Energy Materials 2020, 3: 7265-7271.
8. Liao, J.; Hu, Q.; Mu, J.; Chen, F.; He, X.; Chen, F.; Wen, Z.; Chen, C.*, Introducing a conductive pillar: a polyaniline intercalated layered titanate for high-rate and ultra-stable sodium and potassium ion storage. Chemical Communications 2020, 56: 8392-8395.
9. Li, C.; Sun, Y.; Wu, Q.; Liang, X.; Chen, C.; Xiang, H.*, A novel design strategy of a practical carbon anode material from a single lignin-based surfactant source for sodium-ion batteries. Chemical Communications 2020, 56: 6078-6081.
10.  Yasmin, A.; Shehzad, M. A.; Ding, X.; Wang, J.; Yu, R.; Deng, M.; Tang, Z.; Chen, C.*, A first report on ex-situ synthesis and utilization of pure La4NiLiO8 in emerging high-performance safe batteries. Journal of Alloys and Compounds 2020, 821: 153208.
11.  Liao, J.; Hu, Q.; He, X.; Mu, J.; Wang, J.; Chen, C.*, A long lifespan potassium-ion full battery based on KVPO₄F cathode and VPO₄ anode. Journal of Power Sources 2020, 451: 227739.
12. Yasmin, A.; Shehzad, M. A.; Wang, J.; He, X.; Ding, X.; Wang, S.; Wen, Z.; Chen, C.*, La₄NiLiO₈-Shielded Layered Cathode Materials for Emerging High-Performance Safe Batteries. ACS Applied Materials & Interfaces 2020, 12: 826-835.