Dr Kaige Sun
Dr

Kaige Sun

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Background

Dr Kaige Sun is a Postdoctoral Research Fellow at ARC Centre of Excellence for Green Electrochemical Transformation of Carbon Dioxide (GETCO2) and UQ Dow Centre for Sustainable Engineering Innovation at The University of Queensland. He received his PhD degree in Chemical Engineering from The University of Queensland, where his research focused on electrochemical ion separation and selectivity. His current main research interests centre on green electrochemical techniques for energy and environmental applications, such as electrochemical CO2 capture and conversion, electrochemical deionization, and the development of advanced biomass-derived electroactive materials. To date, he has published over 27 peer-reviewed publications in Nature indexed/top-tier journals, including Advanced Functional Materials, Advanced Energy Materials, Advanced Materials, Environmental Science & Technology, Chemical Reviews, etc.

Topics related to current research interests:

1. Energy-efficient electrochemical CO2 capture and direct air capture

2. Tailoring microenvironment for electrocatalytic CO2 reduction to valuable chemicals

3. Electrochemical ion separation and recovery

4. High-value utilization of biomass to electroactive materials

Availability

Dr Kaige Sun is:
Available for supervision

Fields of research

Carbon capture engineering (excl. sequestration) Chemical engineering Electrochemical energy storage and conversion Engineering Functional materials Materials engineering Separation technologies

Qualifications

  • Doctor of Philosophy of Chemical Engineering, The University of Queensland

Search Professor Kaige Sun’s works on UQ eSpace

6 works between 2023 and 2025
All (6) Journal Article (6)

1 - 6 of 6 works

2025

Journal Article

Metal-organic framework on graphene derived hierarchical carbon supported tin dioxide nanocomposite for superior lithium ion storage

Yin, Haoyu, Jia, Ruixin, Jiang, Kairui, Li, Jiahui, Zeng, Hui, Sun, Kaige and Xu, Binghui (2025). Metal-organic framework on graphene derived hierarchical carbon supported tin dioxide nanocomposite for superior lithium ion storage. FlatChem, 49 100792, 1-10. doi: 10.1016/j.flatc.2024.100792

Metal-organic framework on graphene derived hierarchical carbon supported tin dioxide nanocomposite for superior lithium ion storage

2024

Journal Article

Pairing Oxygen Reduction and Water Oxidation for Dual‐Pathway H2O2 Production

Sun, Xin, Yang, Jindi, Zeng, Xiangkang, Guo, Lijun, Bie, Chuanbiao, Wang, Zhuyuan, Sun, Kaige, Sahu, Aloka Kumar, Tebyetekerwa, Mike, Rufford, Thomas E. and Zhang, Xiwang (2024). Pairing Oxygen Reduction and Water Oxidation for Dual‐Pathway H2O2 Production. Angewandte Chemie, 136 (52) e202414417, 1-17. doi: 10.1002/ange.202414417

Pairing Oxygen Reduction and Water Oxidation for Dual‐Pathway H2O2 Production

2024

Journal Article

Understanding the electrochemical extraction of lithium from ultradilute solutions

Sun, Kaige, Tebyetekerwa, Mike, Zeng, Xiangkang, Wang, Zhuyuan, Duignan, Timothy T. and Zhang, Xiwang (2024). Understanding the electrochemical extraction of lithium from ultradilute solutions. Environmental Science & Technology, 58 (8), 3997-4007. doi: 10.1021/acs.est.3c09111

Understanding the electrochemical extraction of lithium from ultradilute solutions

2024

Journal Article

Nickel-rich cathode yarn for wearable lithium-ion batteries

Marriam, Ifra, Tebyetekerwa, Mike, Chathuranga, Hiran, Sun, Kaige, Du, Aijun and Yan, Cheng (2024). Nickel-rich cathode yarn for wearable lithium-ion batteries. Advanced Fiber Materials, 6 (2), 341-353. doi: 10.1007/s42765-023-00372-7

Nickel-rich cathode yarn for wearable lithium-ion batteries

2024

Journal Article

Electrode, electrolyte, and membrane materials for electrochemical CO2 capture

Sun, Kaige, Tebyetekerwa, Mike, Zhang, Hongxia, Zeng, Xiangkang, Wang, Zhuyuan, Xu, Zhen, Rufford, Thomas E. and Zhang, Xiwang (2024). Electrode, electrolyte, and membrane materials for electrochemical CO2 capture. Advanced Energy Materials, 14 (24) 2400625. doi: 10.1002/aenm.202400625

Electrode, electrolyte, and membrane materials for electrochemical CO2 capture

2023

Journal Article

Core–shell Ni3Sn2@C particles anchored on 3D N-doped porous carbon skeleton for modulated electromagnetic wave absorption

Zhang, Hongxia, Sun, Kaige, Sun, Kangkang, Chen, Lei and Wu, Guanglei (2023). Core–shell Ni3Sn2@C particles anchored on 3D N-doped porous carbon skeleton for modulated electromagnetic wave absorption. Journal of Materials Science and Technology, 158, 242-252. doi: 10.1016/j.jmst.2023.01.053

Core–shell Ni3Sn2@C particles anchored on 3D N-doped porous carbon skeleton for modulated electromagnetic wave absorption

Availability

Dr Kaige Sun is:
Available for supervision

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Enquiries

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