检索我们的工作可用:
Google Scholar: https://scholar.google.com/citations?user=2LnFS74AAAAJ&hl=en
Research gate: https://www.researchgate.net/profile/Xiang_Ge
Orcid ID: https://orcid.org/0000-0001-7932-5606
[17]. Xiong, Y., Z. Wang, X. Yan, T. Li, S. Jing, T. Hu, H. Jin, X. Liu, W. Kong, Y. Huo, and X. Ge*, Elastic Polyurethane as Stress-Redistribution-Adhesive-Layer (SRAL) for Directly Integrated High-Energy-Density Flexible Batteries. Advanced Science. 2024: p. 2401635.
[16]. Wang, Z., T. Hu, L. Lou, S. Jing, S. Li, J. Xiong, and X. Ge*, Realizing Lean-Leachate Recycling of Spent Lithium Nickel Oxides by Dynamically Stabilizing the Hole-Mediated Diffusion Kinetics. ACS Appl. Mater. Interfaces, 2024. 16(18): p. 23160-23168.
[15]. Lou, L., X. Liu, Y. Wang, T. Hu, Z. Wang, H. Shi, J. Xiong, S. Jing, L. Ye, Q. Guo, and X. Ge*, Achieving reusability of leachate for multi-element recovery of the discarded LiNixCoyMn1-x-yO2 cathode by regulating the co-precipitation coefficient. Chin. Chem. Lett., 2024: p. 109726.
[14]. Hu, T., T. Li, X. Liu, Z. Wang, L. Lou, S. Jing, X. Yan, Y. Xiong, J. Xiong, and X. Ge* Realizing the reusability of leachate for the hydrometallurgical recycling of spent lithium cobalt oxide by dynamically regulating the solubility product. Green Chem., 2024. 26(5): p. 2653-2660.
[13]. Huang, W., X. Yan, Y. Xiong, Q. Guo, X. Zhang, F. Huang, H. Shi, and X. Ge*, Screening the deep eutectic electrolytes for supercapacitors with alleviated self-discharge. Energy Adv., 2023. 2(11): p. 1935-1941. 【本科生一作】
[12] Jing S, Yan X, Xiong Y, Li T, Xiong J, Hu T, Wang Z, Lou L, X. Ge*, Regulating the synergy coefficient of composite materials for alleviating self-discharge of supercapacitors. Journal of Energy Chemistry. 84,34-40(2023)
[11] Yan X, He Y, Liu X, Jing S, Guan J, Gao W, Ray S, Xiong Y, Li T, X. Ge*, Deterministic Effect of the Solid-State Diffusion Energy Barrier for a Charge Carrier on the Self-Discharge of Supercapacitors. ACS Energy Lett. :2376-2384. (2023)
[10] Yan, X., Guo, Q., Huang, W., Xiong, Y., Jing, S., Zhang, X., Huang, F., X. Ge*, Conjugated supercapacitor with suppressed self-discharge constructed by pairs of pre-lithiated Nb2O5@C with optimized elemental and phase purity in the carbon shell. Carbon Neutralization 2: 300-309 (2023)
[9] Y. Xiong, X. Yan, T. Li, H. Jin, Z. Chen, X. Xu, X. Ji, X. Ge*, Micro-tabless-pouch-cell (MTPC) with high energy density and exposed functional current collector for flexible device. Chem. Eng. J. 451, 138913 (2023).
[8] X. Ge, S. Cao, Z. Lv, Z. Zhu, Y. Tang, H. Xia, H. Zhang, J. Wei, W. Zhang, Y. Zhang, Y. Zeng, X. Chen,* Mechano-Graded Electrodes Mitigate the Mismatch between Mechanical Reliability and Energy Density for Foldable Lithium-Ion Batteries. Adv. Mater. 34(45), 2206797 (2022).
[7] S. Jing, X. Yan, T. Li, Y. Xiong, T. Hu, Z. Wang, X. Ge*, A conjugately configured supercapacitor based on pairs of pre-lithiated Nb2O5/TiO2 with optimized retained energy upon aging enabled by suppressed self-discharge. J. Power Sources 549, 232141 (2022).
[6] Z. Wang, S. Li, T. Li, T. Hu, X. Ge*, Deep Eutectic Solvents (DESs) for Green Recycling of Wasted Lithium-Ion Batteries (LIBs): Progress on Pushing the Overall Efficiency. Mining, Metall. & Explor., 1-17 (2022).
[5] X. Yan, S. Jing, T. Li, Y. Xiong, T. Hu, Z. Wang, X. Ge*, Conjugately configured supercapacitors: mitigating self-discharge based on pairs of pre-lithiated niobium oxides. Chem. Eng. J., 137977 (2022).
[4] X. Zhang, H. Shi, X. Yan, K. Liu, W. Huang, Q. Guo, F. Huang, X. Ge*, A Conjugately Configured Supercapacitor with Suppressed Self-Discharge by Coupling Pairs of Presodiated Manganese Oxides. Energy & Fuels 36, 7140–7146 (2022). 【本科生一作】
[3] T. Li, Y. Xiong, X. Yan, T. Hu, S. Jing, Z. Wang, X. Ge*, Closed-loop cobalt recycling from spent lithium-ion batteries based on a deep eutectic solvent (DES) with easy solvent recovery. Journal of Energy Chemistry 72, 532-538 (2022).
[2] F. Huang, T. Li, X. Yan, Y. Xiong, X. Zhang, S. Lu, N. An, W. Huang, Q. Guo, X. Ge*, Ternary Deep Eutectic Solvent (DES) with a Regulated Rate-Determining Step for Efficient Recycling of Lithium Cobalt Oxide. ACS omega 7, 11452-11459 (2022). 【本科生一作】
[1] X. Yan, T. Li, Y. Xiong, X. Ge*, Synchronized ion and electron transfer in a blue T-Nb2O5-x with solid-solution-like process for fast and high volumetric charge storage. Energy Stor. Mater. 36, 213-221 (2021).
【Before GZU】:
[11] Xie, D., Yuan, Y., Xiao, L., Cheng, F. *, Zhang, M., Fan, H. & Ge, X.*. Strain Redistribution in Metal-Sulfide-Composite Anode for Enhancing Volumetric Lithium Storage. ChemElectroChem 5, 3906-3912 (2018).
[10] Ge, X., Gu, C. *, Yao, Z., Sun, J., Wang, X. & Tu, J. Pseudocapacitive material with 928 mAh cm−3 particle-level volumetric specific capacity enabled by continuous phase-transition. Chem. Eng. J. 338, 211-217 (2018).
[9] Ge, X., Gu, C. D. *, Wang, X. & Tu, J. Deep Eutectic Solvents (DESs) Derived Advanced Functional Materials for Energy and Environmental Applications: Challenges, Opportunities, and Future Vision. J. Mater. Chem. A 5, 8209-8229 (2017).
[8] Ge, X., Gu, C. *, Yin, Z., Wang, X., Tu, J. & Li, J. * Periodic stacking of 2D charged sheets: Self-assembled superlattice of Ni–Al layered double hydroxide (LDH) and reduced graphene oxide. Nano Energy 20, 185-193 (2016).
[7] Gu, C. D. *, Ge, X., Wang, X. L. & Tu, J. P. Cation-anion double hydrolysis derived layered single metal hydroxide superstructures for boosted supercapacitive energy storage. J. Mater. Chem. A 3, 14228-14238 (2015).
[6] Ge, X., Gu, C. D. *, Wang, X. L. & Tu, J. P. Spinel type CoFe oxide porous nanosheets as magnetic adsorbents with fast removal ability and facile separation. J. Colloid Interface Sci. 454, 134-143 (2015).
[5] Ge, X., Gu, C. D. *, Wang, X. L. & Tu, J. P. Endowing manganese oxide with fast adsorption ability through controlling the manganese carbonate precursor assembled in ionic liquid. J. Colloid Interface Sci. 438, 149-158 (2015).
[4] Ge, X., Gu, C. *, Wang, X. & Tu, J. Anomalous self-reduction of layered double hydroxide (LDH): from α-Ni (OH) 2 to hexagonal close packing (HCP) Ni/NiO by annealing without a reductant. Chem. Commun. 51, 1004-1007 (2015).
[3] Ge, X., Gu, C. D. *, Wang, X. L. & Tu, J. P. Ionothermal synthesis of cobalt iron layered double hydroxides (LDHs) with expanded interlayer spacing as advanced electrochemical materials. J. Mater. Chem. A 2, 17066-17076 (2014).
[2] Ge, X., Gu, C. D. *, Wang, X. L. & Tu, J. P. Correlation between Microstructure and Electrochemical Behavior of the Mesoporous Co3O4 Sheet and Its Ionothermal Synthesized Hydrotalcite-like α-Co(OH)2 Precursor. J. Phys. Chem. C 118, 911-923 (2014).
[1] Ge, X., Gu, C. D.*, Lu, Y., Wang, X. L. & Tu, J. P. A versatile protocol for the ionothermal synthesis of nanostructured nickel compounds as energy storage materials from a choline chloride-based ionic liquid. J. Mater. Chem. A 1, 13454-13461 (2013).