Excimer Laser-Deposited Na2/3Ni1/4Mn3/4O2 Film Cathode for Stable Sodium-Ion Battery

Bailin Lin; Wei Dai; Junhui Tao; Jie Li; Chuanhui Wang; Yang Zhao; Yiping Li; Xinqi Chen

doi:10.3390/nano12173018

Excimer Laser-Deposited Na_2/3Ni_1/4Mn_3/4O₂ Film Cathode for Stable Sodium-Ion Battery

Nanomaterials (Basel). 2022 Aug 31;12(17):3018. doi: 10.3390/nano12173018.

Authors

Bailin Lin¹, Wei Dai², Junhui Tao^{1

3}, Jie Li^{1

3}, Chuanhui Wang^{1

3}, Yang Zhao¹, Yiping Li¹, Xinqi Chen^{1

3}

Affiliations

¹ School of Physics and Mechanical Electrical Engineering, Hubei University of Education, Wuhan 430205, China.
² School of Mathematics and Physics, Jingchu University of Technology, Jinmen 448000, China.
³ Hubei Engineering Technology Research Center of Environmental Purification Materials, Institute of Materials Research and Engineering, Hubei University of Education, Wuhan 430205, China.

Abstract

Continued development of lithium-ion batteries is limited by the shortage of Li element. In this situation, the exploration of high-performance sodium-ion batteries is attracting much attention. In this experimental work, Na_2/3Ni_1/4Mn₃₄O₂ film cathode materials were fabricated by excimer laser deposition at different oxygen partial pressures. X-ray diffraction studies and field emission scanning electron microscopy revealed high c-axis orientation and uniform grain distribution, respectively, in the deposited films. Furthermore, after 30 cycles under a current density of 13 mA g^-1, the film samples deposited at an oxygen partial pressure of 65 Pa exhibited a high capacity-retention of 91%. The film structure also had a large-current discharge performance, which makes practical applications possible.

Keywords: Na2/3Ni1/4Mn3/4O2; cycling performance; discharge capacity; sodium-ion battery.

Abstract

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