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2025 Journal Article Iodine-doped sodium vanadate cathode for improved Zn ion diffusion kineticsHu, Xinyue, Gao, Shengyong, Lin, Tongen, Peng, Xiyue, Huang, Yongxin, Zhang, Yiming, Yang, Xingchen, Wang, Lina, Luo, Guangfu, Wen, Zhenhai, Johannessen, Bernt, Wang, Songcan, Wang, Lianzhou and Luo, Bin (2025). Iodine-doped sodium vanadate cathode for improved Zn ion diffusion kinetics. Advanced Materials. doi: 10.1002/adma.202416714 |
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2025 Journal Article Insights into Mechanistic Aspect of Organic Materials for Aluminum‐Ion BatteriesLuo, Zhiruo, Peng, Xiyue, Wang, Lianzhou and Luo, Bin (2025). Insights into Mechanistic Aspect of Organic Materials for Aluminum‐Ion Batteries. ChemSusChem, 18 (3) e202401397, 1-21. doi: 10.1002/cssc.202401397 |
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2024 Journal Article Multi-redox covalent organic frameworks for aluminium organic batteriesPeng, Xiyue, Baktash, Ardeshir, Huang, Yongxin, Alghamdi, Norah, You, Jiakang, Ning, Jing, Xin, Ruijing, Hao, Long, Qiu, Tengfei, Wang, Bin, Zhi, Linjie, Wang, Lianzhou and Luo, Bin (2024). Multi-redox covalent organic frameworks for aluminium organic batteries. Energy Storage Materials, 71 103674, 1-10. doi: 10.1016/j.ensm.2024.103674 |
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2024 Journal Article Enhancing performance and longevity of solid-state zinc-iodine batteries with fluorine-rich solid electrolyte interphaseHuang, Yongxin, Wang, Yiqing, Peng, Xiyue, Lin, Tongen, Huang, Xia, Alghamdi, Norah S., Rana, Masud, Chen, Peng, Zhang, Cheng, Whittaker, Andrew K., Wang, Lianzhou and Luo, Bin (2024). Enhancing performance and longevity of solid-state zinc-iodine batteries with fluorine-rich solid electrolyte interphase. Materials Futures, 3 (3) 035102. doi: 10.1088/2752-5724/ad50f1 |
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2024 Journal Article Boosting aluminum storage in highly stable covalent organic frameworks with abundant accessible carbonyl groupsPeng, Xiyue, Baktash, Ardeshir, Alghamdi, Norah, Rana, Md Masud, Huang, Yongxin, Hu, Xinyue, He, Cailing, Luo, Zhiruo, Ning, Jing, Wang, Lianzhou and Luo, Bin (2024). Boosting aluminum storage in highly stable covalent organic frameworks with abundant accessible carbonyl groups. Advanced Energy Materials, 14 (22) 2400147. doi: 10.1002/aenm.202400147 |
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2024 Journal Article Tin modified carbon nanofibers as an effective catalytic electrode for bromine redox reactions in static zinc‐bromine batteriesRana, Masud, Stoppiello, Craig T., He, Qiu, Peng, Xiyue, Alghamdi, Norah, Huang, Yongxin, Gentle, Ian R. and Luo, Bin (2024). Tin modified carbon nanofibers as an effective catalytic electrode for bromine redox reactions in static zinc‐bromine batteries. Batteries and Supercaps, 7 (3) e202300474, 1-9. doi: 10.1002/batt.202300474 |
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2023 Journal Article Zinc–bromine rechargeable batteries: from device configuration, electrochemistry, material to performance evaluationAlghamdi, Norah S., Rana, Masud, Peng, Xiyue, Huang, Yongxin, Lee, Jaeho, Hou, Jingwei, Gentle, Ian R., Wang, Lianzhou and Luo, Bin (2023). Zinc–bromine rechargeable batteries: from device configuration, electrochemistry, material to performance evaluation. Nano-Micro Letters, 15 (1) 209, 209. doi: 10.1007/s40820-023-01174-7 |
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2023 Other Outputs Design of organic cathode materials for high-performance aluminium batteriesPeng, Xiyue (2023). Design of organic cathode materials for high-performance aluminium batteries. PhD Thesis, Australian Institute for Bioengineering and Nanotechnology, The University of Queensland. doi: 10.14264/3b94f5a |
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2023 Journal Article Scientific issues of zinc‐bromine flow batteries and mitigation strategiesRana, Masud, Alghamdi, Norah, Peng, Xiyue, Huang, Yongxin, Wang, Bin, Wang, Lianzhou, Gentle, Ian R., Hickey, Steven and Luo, Bin (2023). Scientific issues of zinc‐bromine flow batteries and mitigation strategies. Exploration, 3 (6) 20220073, 20220073. doi: 10.1002/exp.20220073 |
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2022 Journal Article Back Cover: Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic Batteries (Angew. Chem. Int. Ed. 25/2022)Peng, Xiyue, Xie, Yuan, Baktash, Ardeshir, Tang, Jiayong, Lin, Tongen, Huang, Xia, Hu, Yuxiang, Jia, Zhongfan, Searles, Debra J., Yamauchi, Yusuke, Wang, Lianzhou and Luo, Bin (2022). Back Cover: Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic Batteries (Angew. Chem. Int. Ed. 25/2022). Angewandte Chemie International Edition, 61 (25) e202206432. doi: 10.1002/anie.202206432 |
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2022 Journal Article Rücktitelbild: Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic Batteries (Angew. Chem. 25/2022)Peng, Xiyue, Xie, Yuan, Baktash, Ardeshir, Tang, Jiayong, Lin, Tongen, Huang, Xia, Hu, Yuxiang, Jia, Zhongfan, Searles, Debra J., Yamauchi, Yusuke, Wang, Lianzhou and Luo, Bin (2022). Rücktitelbild: Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic Batteries (Angew. Chem. 25/2022). Angewandte Chemie, 134 (25) e202206432. doi: 10.1002/ange.202206432 |
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2022 Journal Article Heterocyclic conjugated polymer nanoarchitectonics with synergistic redox‐active sites for high‐performance aluminium organic batteriesPeng, Xiyue, Xie, Yuan, Baktash, Ardeshir, Tang, Jiayong, Lin, Tongen, Huang, Xia, Hu, Yuxiang, Jia, Zhongfan, Searles, Debra J., Yamauchi, Yusuke, Wang, Lianzhou and Luo, Bin (2022). Heterocyclic conjugated polymer nanoarchitectonics with synergistic redox‐active sites for high‐performance aluminium organic batteries. Angewandte Chemie International Edition, 61 (25) e202203646, e202203646. doi: 10.1002/anie.202203646 |
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2022 Journal Article Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic BatteriesPeng, Xiyue, Xie, Yuan, Baktash, Ardeshir, Tang, Jiayong, Lin, Tongen, Huang, Xia, Hu, Yuxiang, Jia, Zhongfan, Searles, Debra J., Yamauchi, Yusuke, Wang, Lianzhou and Luo, Bin (2022). Heterocyclic Conjugated Polymer Nanoarchitectonics with Synergistic Redox‐Active Sites for High‐Performance Aluminium Organic Batteries. Angewandte Chemie, 134 (25). doi: 10.1002/ange.202203646 |
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2022 Book Chapter Materials and technologies for Al-ion batteriesPeng, Xiyue, Wang, Lianzhou and Luo, Bin (2022). Materials and technologies for Al-ion batteries. Handbook of energy materials. (pp. 1-34) edited by Ram Gupta. Singapore: Springer. doi: 10.1007/978-981-16-4480-1_6-1 |
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2021 Journal Article Confining ultrafine tin monophosphide in Ti3C2Tx interlayers for rapid and stable sodium ion storageTang, Jiayong, Peng, Xiyue, Lin, Tongen, Huang, Xia, Luo, Bin and Wang, Lianzhou (2021). Confining ultrafine tin monophosphide in Ti3C2Tx interlayers for rapid and stable sodium ion storage. eScience, 1 (2), 203-211. doi: 10.1016/j.esci.2021.12.004 |
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2021 Journal Article Interlayer space engineering of MXenes for electrochemical energy storage applicationsTang, Jiayong, Huang, Xia, Qiu, Tengfei, Peng, Xiyue, Wu, Tingting, Wang, Lei, Luo, Bin and Wang, Lianzhou (2021). Interlayer space engineering of MXenes for electrochemical energy storage applications. Chemistry – A European Journal, 27 (6) chem.202002283, 1921-1940. doi: 10.1002/chem.202002283 |
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2018 Journal Article Self-assembly of a graphene oxide/MnFe<sub>2</sub>O<sub>4</sub> motor by coupling shear force with capillarity for removal of toxic heavy metalsPeng, Xiyue, Gao, Feng, Zhao, Jiaxin, Li, Jielan, Qu, Jiangying and Fan, Hongbo (2018). Self-assembly of a graphene oxide/MnFe2O4 motor by coupling shear force with capillarity for removal of toxic heavy metals. Journal of Materials Chemistry A, 6 (42), 20861-20868. doi: 10.1039/c8ta06663a |
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2016 Journal Article Nitrogen-doped porous “green carbon” derived from shrimp shell: Combined effects of pore sizes and nitrogen doping on the performance of lithium sulfur batteryQu, Jiangying, Lv, Siyuan, Peng, Xiyue, Tian, Shuo, Wang, Jia and Gao, Feng (2016). Nitrogen-doped porous “green carbon” derived from shrimp shell: Combined effects of pore sizes and nitrogen doping on the performance of lithium sulfur battery. Journal of Alloys and Compounds, 671, 17-23. doi: 10.1016/j.jallcom.2016.02.064 |
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2016 Journal Article Green fabrication of magnetic recoverable graphene/MnFe<sub>2</sub>O<sub>4</sub>hybrids for efficient decomposition of methylene blue and the Mn/Fe redox synergetic mechanismPeng, Xiyue, Qu, Jiangying, Tian, Shuo, Ding, Yanwei, Hai, Xi, Jiang, Bo, Wu, Mingbo and Qiu, Jieshan (2016). Green fabrication of magnetic recoverable graphene/MnFe2O4hybrids for efficient decomposition of methylene blue and the Mn/Fe redox synergetic mechanism. RSC Advances, 6 (106), 104549-104555. doi: 10.1039/c6ra24320g |
