Page 90 - Read Online
P. 90
Yang et al. Microstructures 2023;3:2023013 https://dx.doi.org/10.20517/microstructures.2022.30 Page 23 of 27
Review, and supervision: Chou S, Liu H, Wang J
Editing: Fan Q, Peng J
Availability of data and materials
Not applicable.
Financial support and sponsorship
This work is financially supported by Australian Research Council (ARC) Discovery Project
(DP180101453).
Conflicts of interest
All authors declared that there are no conflicts of interest.
Ethical approval and consent to participate
Not applicable.
Consent for publication
Not applicable.
Copyright
© The Author(s) 2023.
REFERENCES
1. Scott V, Haszeldine RS, Tett SFB, Oschlies A. Fossil fuels in a trillion tonne world. Nat Clim Chang 2015;5:419-23. DOI
2. Mohr S, Wang J, Ellem G, Ward J, Giurco D. Projection of world fossil fuels by country. Fuel 2015;141:120-35. DOI
3. Abas N, Kalair A, Khan N. Review of fossil fuels and future energy technologies. Futures 2015;69:31-49. DOI
4. Höök M, Tang X. Depletion of fossil fuels and anthropogenic climate change - A review. Energy Policy 2013;52:797-809. DOI
5. Armaroli N, Balzani V. The legacy of fossil fuels. Chem Asian J 2011;6:768-84. DOI PubMed
6. Berner RA. The long-term carbon cycle, fossil fuels and atmospheric composition. Nature 2003;426:323-6. DOI PubMed
7. Gustavsson L, Börjesson P, Johansson B, Svenningsson P. Reducing CO emissions by substituting biomass for fossil fuels. Energy
2
1995;20:1097-113. DOI
8. Withagen C. Pollution and exhaustibility of fossil fuels. Resour Energy Econ 1994;16:235-42. DOI
9. Barbir F, Veziroǧlu T, Plass H. Environmental damage due to fossil fuels use. Int J Hydrog Energy 1990;15:739-49. DOI
10. Hameer S, van Niekerk JL. A review of large-scale electrical energy storage: this paper gives a broad overview of the plethora of
energy storage. Int J Energy Res 2015;39:1179-95. DOI
11. Castillo A, Gayme DF. Grid-scale energy storage applications in renewable energy integration: a survey. Energy Convers Manag
2014;87:885-94. DOI
12. Etacheri V, Marom R, Elazari R, Salitra G, Aurbach D. Challenges in the development of advanced Li-ion batteries: a review. Energy
Environ Sci 2011;4:3243. DOI
13. Hosaka T, Kubota K, Hameed AS, Komaba S. Research development on K-ion batteries. Chem Rev 2020;120:6358-466. DOI
14. Kim H, Kim JC, Bianchini M, Seo D, Rodriguez-garcia J, Ceder G. Recent progress and perspective in electrode materials for K-ion
batteries. Adv Energy Mater 2018;8:1702384. DOI
15. Hwang J, Myung S, Sun Y. Recent progress in rechargeable potassium batteries. Adv Funct Mater 2018;28:1802938. DOI
16. Anoopkumar V, John B, Mercy T. Potassium-ion batteries: key to future large-scale energy storage? ACS Appl Energy Mater
2020;3:9478-92. DOI
17. Zhang W, Liu Y, Guo Z. Approaching high-performance potassium-ion batteries via advanced design strategies and engineering. Sci
Adv 2019;5:eaav7412. DOI PubMed PMC
18. Li W, Bi Z, Zhang W, et al. Advanced cathodes for potassium-ion batteries with layered transition metal oxides: a review. J Mater
Chem A 2021;9:8221-47. DOI
19. Zhang X, Wei Z, Dinh KN, et al. Layered oxide cathode for potassium-ion battery: recent progress and prospective. Small
2020;16:e2002700. DOI PubMed
20. Eftekhari A. Potassium secondary cell based on Prussian blue cathode. J Power Sources 2004;126:221-8. DOI
21. Li L, Hu Z, Liu Q, Wang J, Guo Z, Liu H. Cathode materials for high-performance potassium-ion batteries. Cell Rep Phys Sci
2021;2:100657. DOI