2020
DOI: 10.29252/jcc.2.3.5
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The rechargeable aluminum-ion battery with different composite cathodes: A review

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Cited by 8 publications
(9 citation statements)
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References 120 publications
(136 reference statements)
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“…High-performing AIBs require reliable cathode materials that can withstand the high charge density (Al 3+ ) and large ionic radius of the insert ion (AlCl 4 − ). 101…”
Section: Aluminum-ion Batteries (Aibs)mentioning
confidence: 99%
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“…High-performing AIBs require reliable cathode materials that can withstand the high charge density (Al 3+ ) and large ionic radius of the insert ion (AlCl 4 − ). 101…”
Section: Aluminum-ion Batteries (Aibs)mentioning
confidence: 99%
“…). 101 In addition to MOFs, which have been explored as cathode materials in batteries due to their large surface areas and high porosities, Prussian blue analogs (PBAs) that exhibit cubic frameworks and easily controllable sizes have also interested researchers. 102 In our previous work, we demonstrated that a series of PBA-based materials (FeCo-PBA, GaCo-PBA, GdCo-PBA, NiFe-PBA, ZnCo-PBA) exhibit superior electrochemical performance relative to that of comparable LIBs.…”
mentioning
confidence: 99%
“…For instance, nanowires of ZnO act as carrier conduction channels in photoelectric devices and reduce the carrier loss of light produced [145][146][147]. The LEDs' performance and nanowire-based detectors of photoelectric could be improved compared to tools based on thin films of polycrystalline [148,149]. This paper investigates the sol-gel method for the synthesis of 1D ZnO nanostructures and the growth effect parameters on morphology and growth rate.…”
Section: Photoelectron Devicesmentioning
confidence: 99%
“…They can be designed to have an identical shape and size, developing a larger surface area, providing adequate corrective coatings, and improving ion freedom [94]. Also, this method can help researchers create particles by hollow or porous structures and encapsulate other biomedically related materials [95]. Porous microspheres with a high surface area can be created having internal and external porosity or even a combination of them [96].…”
Section: Microsphere Sinteringmentioning
confidence: 99%
“…Moreover, these microspheres can be manufactured as standalone products or collected 3D porous scaffolds [97]. According to starting materials, the porous microspheres have different properties such as pore size, level of porosity, interconnectivity, and surface area [98]. The porous microspheres by polymer-based materials have been widely investigated for drug delivery and other biological applications while carrying ingredients, such as proteins and growth factors.…”
Section: Microsphere Sinteringmentioning
confidence: 99%